Pedestrian Detection System with Speed Control
Shashikala R, Chaitra, Kavya, Krithika Pai, Chaitra – June 2018 Page No.: 01-04
Pedestrian are the most vulnerable users of the road. There are millions of vehicles on the road and the conditions such as inclement weather, poor lightning, traffic and other road hazards restrict the visibility of drivers which increases the risk to pedestrian. In addition, human error is known to be one of the leading causes of accidents. This paper focuses on detection of pedestrian using real time video stream. Video is captured using Raspberry Pi camera module. Along with this Haar cascade classifiers are used as a technique to detect pedestrian in the video captured. An additional security is provided using obstacle detection implemented using an Ultrasonic sensor and speed control using PWM technique based on the position of the obstacle detected.
Page(s): 01-04 Date of Publication: 15 June 2018
Shashikala R
Electronics and Communication Department, Shri Madhwa Vadiraja Institute of Technology and Management, Udupi, Karnataka, India
Chaitra
Electronics and Communication Department, Shri Madhwa Vadiraja Institute of Technology and Management, Udupi, Karnataka, India
Kavya
Electronics and Communication Department, Shri Madhwa Vadiraja Institute of Technology and Management, Udupi, Karnataka, India
Krithika Pai
Electronics and Communication Department, Shri Madhwa Vadiraja Institute of Technology and Management, Udupi, Karnataka, India
Chaitra
Electronics and Communication Department, Shri Madhwa Vadiraja Institute of Technology and Management, Udupi, Karnataka, India
[1]. D.M. Gavrila, J. Giebel and S. Munder, “Vision-Based Pedestrian Detection: The PROTECTOR System”, IEEE Intelligent Vehicles Symposium, 0-7803-8310-9/04, June 2004.
[2]. Antonio Prioletti, Andreas Møgelmose, Paolo Grisleri, Mohan ManubhaiTrivedi, Alberto Broggi and Thomas B. Moeslund, “Part-Based Pedestrian Detection and Feature-Based Tracking for Driver Assistance: Real-Time, Robust Algorithms, and Evaluation”, IEEE Transactions on Intelligent Transportation Systems, Vol. 14, No. 3, September 2013.
[3]. KrutiGoyal, KartikeyAgarwal, Rishi Kumar, “Face Detection and Tracking”, International Conference on Electronics, Communication and Aerospace Technology (ICECA), 978-1-5090-5686-6/17©2017 IEEE.
[4]. Sangeetha Rajeev, Aswin M, Tanya Koottungal, “PWM Based Automobile Braking System”, International Research Journal of Engineering and Technology (IRJET), Vol. 4 Issue 04, April -20178-1-5090-5686-6/17©2017 IEEE.
[5]. Gopal P. Gawande, Shruti V. Gavhale , Irshad A. Zariye, SagarP.Ritpurkar, “Review of Speed Control andAutomatic Braking System”, International Journal of Engineering Research & Technology (IRJET), Vol. 3, Issue 2, February 2014.
Shashikala R, Chaitra, Kavya, Krithika Pai, Chaitra “Pedestrian Detection System with Speed Control” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.01-04 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/01-04.pdf
Experimental Investigation of Updraft Gasifier Using Solid Waste as Feedstock
Sivakumar P, Mahendran S, Manikandan V, Kalaichelvan A, Muralidharan G – June 2018 – Page No.: 05-10
Even though the presence of waste to energy industry in past decade most of the solid wastes do end up in landfills. For every tonne of waste land filled, greenhouse gas emissions in the form of carbon dioxide increase by at least 1.3 tonnes. Gasification is a promising technology which would help deal with the landfill problems and would rather convert the municipal solid waste (MSW) into an energy source.
Gasification is a process in which a solid carbonaceous fuel is transformed into combustible gas consisting of carbon monoxide, hydrogen, carbon dioxide and methane. This process is achieved by reacting the fuel at high temperatures, without combustion, with controlled amount of oxygen or steam. This gas is known as producer gas which acts much efficient than the direct combustion of the fuel. In this study an updraft gasifier is fabricated and is used to carry out the experiment. The solid non-recyclable wastes like china cardboards, clothes, wet newspapers, etc, are used for the generation of the producer gas. A gas analyzer is used to measure H2, CH4, and CO concentrations of the product gas. The study investigates the aspect of municipal solid waste as potential energy source in gasification technology.
Page(s): 05-10 Date of Publication: 15 June 2018
Sivakumar P
Department of Mechanical Engineering, SNS College of Engineering, Coimbatore, Tamil Nadu, India (Affiliated to Anna University, Chennai)
Mahendran S
Department of Mechanical Engineering, SNS College of Engineering, Coimbatore, Tamil Nadu, India (Affiliated to Anna University, Chennai)
Manikandan V
Department of Mechanical Engineering, SNS College of Engineering, Coimbatore, Tamil Nadu, India (Affiliated to Anna University, Chennai)
Kalaichelvan A
Department of Mechanical Engineering, SNS College of Engineering, Coimbatore, Tamil Nadu, India (Affiliated to Anna University, Chennai)
Muralidharan G
Department of Mechanical Engineering, SNS College of Engineering, Coimbatore, Tamil Nadu, India (Affiliated to Anna University, Chennai)
[1]. P. Lv, Z. Yuan, L. Ma, C. Wu, Y. Chen, and J. Zhu, “Hydrogen-rich gas production from biomass air and oxygen/steam gasification in a downdraft gasifier,” Renew. Energy, vol. 32, pp. 2173–2185, 2007.
[2]. N. L. Panwar, R. Kothari, and V. V. Tyagi, “Thermo chemical conversion of biomass – Eco friendly energy routes,” Renew. Sustain. Energy Rev., vol. 16, no. 4, pp. 1801–1816, 2012.
[3]. R. Warnecke, “Gasification of biomass: comparison of fixed bed and fluidized bed gasifier,” Biomass and Bioenergy, vol. 18, no. 6, pp. 489–497, 2000.
[4]. X. T. Li, J. R. Grace, C. J. Lim, a. P. Watkinson, H. P. Chen, and J. R. Kim, “Biomass gasification in a circulating fluidized bed,” Biomass and Bioenergy, vol. 26, no. 2, pp. 171–193, 2004.
[5]. K. G. Mansaray, a. E. Ghaly, a. M. Al-Taweel, F. Hamdullahpur, and V. I. Ugursal, “Air gasification of rice husk in a dual distributor type fluidized bed gasifier,” Biomass and Bioenergy, vol. 17, no. 4, pp. 315–332, 1999.
[6]. E. Kurkela, P. Ståhlberg, P. Simell, and J. Leppälahti, “Updraft gasification of peat and biomass,” Biomass, vol. 19, no. 1–2, pp. 37–46, 1989.
Sivakumar P, Mahendran S, Manikandan V, Kalaichelvan A, Muralidharan G “Experimental Investigation of Updraft Gasifier Using Solid Waste as Feedstock” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.05-10 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/05-10.pdf
Effect of Low Level Laser Therapy and Eccentric Exercises on Chronic Achilles Tendinopathy for Recreational Badminton Players
N.Ashok, Asokan Sara Ashmina – June 2018 – Page No.: 11-13
Background: There are many treatments given for Achilles Tendinopathy which includes Anti-inflammatory Drugs, Massage, Ultra sound, and iontophoresis. However, studies involving Eccentric exercise training along with Low Level Laser Therapy for management of Achilles Tendinopathy are limited to this date.
Objective: To Evaluate The Effectiveness Of Low Level Laser Therapy and Eccentric Exercises In Unilateral Achilles Tendinopathy.
Methodology: The study design was quasi-experimental and study type was pre and post-test. 20 subjects were selected according to inclusion and exclusion criteria and written consent form was obtained within the age group of 17-30 years of both male and female were taken and10 subjects in the Group A received laser therapy with eccentric exercises and 10 subjects in Group B received placebo effect of laser therapy with eccentric exercise.
Result: There is a statistical increase in the Visual Analogue Scale (VAS) and Ankle Range of motion.
Conclusion: This study concludes that Low level laser therapy with eccentric exercise has significant result in the reduction of pain and improvement in functional activity among patients with Achilles Tendinopathy.
Page(s): 11-13 Date of Publication: 15 June 2018
N.Ashok
Clinical Therapist, SRM College of Physiotherapy, SRM Institute of Science and Technology, Kattankulathur, Kanchipuram, Tamil Nadu, India
Asokan Sara Ashmina
SRM College of Physiotherapy, SRM Institute of Science and Technology, Kattankulathur, Kanchipuram,Tamil Nadu, India
[1]. Taylor SE, Vaughan-Thomas A, Clements DN, Pinchbeck G, Macrory LC, Smith RK, et al. Gene expression markers of tendon fibroblasts in normal and diseased tissue compared to monolayer and three dimensional culture systems. BMC Musculoskeletal Disorder. 2009;10:27–27.
[2]. Ohberg L, Lorentzon R, Alfredson H. Neovascularisation in Achilles tendons with painful tendinosis but not in normal tendons: an ultrasonographic investigation. Knee Surgery Sports Traumatology Arthroscopy.2001;9:233-238.
[3]. Riley G. The pathogenesis of tendinopathy. A molecular perspective. Rheumatology (Oxford) 2004;43(2):131–142.
[4]. Gaida JE, Cook JL, Bass SL. Adiposity and tendinopathy. Disability Rehabilitation. 2008;30(20-22):1555–1562.
[5]. Jørgensen 1989.: Implications of heel strike, a anatomical, biomechanical, physiological and clinical study with focus on the heel pad. Linkoping University Medical Dissertations no 284. University of Linkoping, Sweden (1989).
[6]. Molloy TJ, Kemp MW, Wang Y, Murrell GA. Microarray analysis of the tendinopathic supraspinatus tendon: glutamate signaling and its potential role in tendon degeneration. J Applied Physiology. 2006;101:1702-1709.
[7]. Paavola M, Kannus P, Jarvinen TA, Jarvinen TL, Jozsa L, Jarvinen M Treatment of tendon disorders: is there a role for corticosteroid injection? Foot Ankle Clinical. 20027-501-513.
[8]. Kingma JJ, de Knikker R, Wittink HM, Takken T. Eccentric overload training in patients with chronic Achilles tendinopathy: a systematic review. Br J Sports Med. 2007;41:e3.
[9]. Lohrer H, Nauck T. Cross-cultural adaptation and validation of the VISA-A questionnaire for German-speaking achilles tendinopathy patients. BMC Musculoskeletal Disorders. 2009;10:134–134.
[10]. Alfredson H, Forsgren S, Thorsen K, Fahlstrom M, Johansson H, Lorentzon R. Glutamate NMDAR1 receptors localised to nerves inhuman Achilles tendons: implications for treatment? Knee Surg Sports Traumatology Arthroscopy. 2001;9:123126.
[11]. Lian O, Scott A, Engebretsen L, Bahr R, Duronio V, Khan K. Excessive apoptosis in tendinopathy in athletes. Am J Sports Med.2007;35:605-611.
[12]. Khan KM, Cook JL, Bonar F, Harcourt P, Astrom M. Histopathology of common tendinopathies: update and implications for clinical management. Sports Med. 1999;27:393-408.
[13]. Hill AV. The heat or shortening and the dynamic constants of muscle. Proc Roy Soc B. 1938;126:136–195.
[14]. Paavola M, Paakkala T, Kannus P, Jarvinen M. Ultrasonography in the different diagnosis of Achilles tendon injuries and related disorders:a comparison between preoperative ultrasonography and surgical findings. Acta Radiology. 1998;39:612-619.
[15]. Badminton Injuries ,Uffe Jørgensen,Section Of Sports Traumatology, Department Of Orthopedic Surgery, Gentofte Hospital, University Of Copenhagen, 2900-Hellerup, Denmark.
[16]. Mafi N, Lorentzon R, Alfredson H. Superior short-term results with eccentric calf muscle training compared to concentric training in a randomized prospective multicenter study on patients with chronic Achilles tendinosis. Knee Surgery Sports Traumatology Arthroscopy. 2001;9:42-47
N.Ashok, Asokan Sara Ashmina “Effect of Low Level Laser Therapy and Eccentric Exercises on Chronic Achilles Tendinopathy for Recreational Badminton Players ” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp. 11-13 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/11-13.pdf
CFD Simulation of Flow and Heat Transfer in a Horizontal Pipe Partially Filled with Porous Media
Siva Murali Mohan Reddy.A, Venkatesh M. Kulkarni – June 2018 Page No.: 14-21
Computational fluid dynamics (CFD) is a numerical technique which solves the governing equations of fluid flow ,heat transfer and other associated equations ,iteratively on discretized complex geometries. The quality of the solutions obtained from these simulations are largely within the acceptable range proving that CFD is an effective tool for predicting the behavior and performance of a wide variety of heat and fluid flow problems. In the present work a finite volume analysis using Ansys fluent for steady flow in a pipe partially filled with a porous media of diameter 49.6 mm placed at the core of the pipe in the first case and in the second case by inserting the porous medium of corresponding diameter, 69 mm at the annulus of the pipe for porosity value of 0.56 is carried out. The results are obtained for study state. Identical dimensions and boundary conditions .for pipe flow used in experimental work [1] are considered in geometric modeling. and in numerical analysis..The experimental results are used to verify and validate the numerical model The simulation results are within good agreement with the experimental studies ranging from 2% to 10% , numerical simulation work has been extended to the porosity values of 0.2,0.6 and 0.8 to know the the pressure drop and temperature distribution along the length of the pipe.
Page(s): 14-21 Date of Publication: 16 June 2018
Siva Murali Mohan Reddy.A
Research Scholar, Visvesvaraya Technological University (VTU-RRC) , Belagavi, Karnataka, India.
Venkatesh M. Kulkarni
Professor, Dept. of Thermal Power Engineering VTU Centre for Postgraduate Studies, Kalaburagi Karnataka, India.
[1]. Siva Murali Mohan Reddy.A and Venkatesh.M.Kulkarni, “An experimental investigation of heat transfer performance for forced convection of water in a horizontal pipe partially filled with a porous medium “ IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE) e-ISSN: 2278-1684,p-ISSN: 2320-334X, Volume 13, Issue 4 Ver. III (Jul. – Aug. 2016), PP 131-140 .
[2]. D. Poulikakos, M. Kazmierczak, Forced convection in a channel filled with porous medium, including the effect of flow inertia, variable porosity, and Brinkman friction, ASME J. Heat Transfer 109 (1987) 880–888.
[3]. K. Vafai, S.J. Kim, Analysis of surface enhancement by a porous substrate,Trans. ASME J. Heat Transfer 112 (1990) 700–706.
[4]. Hadim, A (1994), “Forced Convection in a Porous Channel with Localized Heat Sources,” Journal of Heat Transfer, Vol. 116, pp. 465-472.
[5]. B.I. Pavel, A.A. Mohammad, An experimental and numerical study on heat transfer enhancement for gas heat exchangers fitted with porous media, Int. J.Heat Mass Transfer 47 (2004) 4939–4952.
[6]. Carlos G. Aguilar-Madera a,*, Francisco J. Valdés-Parada a, BenoîtGoyeau b, J. Alberto Ochoa-Tapia a,* Convective heat transfer in a channel partially filled with a porous medium International Journal of Thermal Sciences 50 (2011) 1355e1368
[7]. M.K. Alkam, M.A. Al-Nimr, Transient non-darcian forced convection flow in a pipe partially filled with a porous material, International Journal of Heat and Mass Transfer 41 (2) (1998) 347e356.
[8]. M.A. Al-Nimr, M.K. Alkam, Unsteady non-Darcian forced convection analysis in an annulus partially filled with a porous material, Journal of Heat Transfer 119(4) (1997) 799e804
[9]. M.K. Alkam, M.A. Al-Nimr, Transient non-Darcian forced convection flow in a pipe partially filled with a porous material, Int. J. Heat Mass Transfer 41 (2)(1998) 347–356.
[10]. A. Marafie, K. Vafai, Analysis of non-Darcian effects on temperature differentials in porous media, Int. J. Heat Mass Transfer 44 (2001) 4401–4411.
[11]. W. Liu, K. Yang, A. Nakayama, Enhancing heat transfer in the core flow by forming an equivalent thermal boundary layer in the fully developed tube flow, in: Proceedings of the Sixth International Conference on Enhanced, Compact and Ultra-Compact Heat Exchangers, Potsdam, Germany, 2007.
[12]. Paola Ranut et all “High resolution microtomography-based CFD simulation of flow and heat transfer in aluminum metal foams”Applied Thermal Engineering Volume 69, Issues 1–2, August 2014, Pages 230-240
[13]. Vijay Shankar “ Influence of Heat Transfer Process in Porous Media with Air Cavity- A CFD Analysis” Proceedings of the 4 th International Conference of Fluid Flow, Heat and Mass Transfer (FFHMT’17) Toronto, Canada – August 21 – 23, 2017 Paper No. 161 DOI: 10.11159/ffhmt17.161 161-1
[14]. V. Shankar, C. E. Hagentoft, “Numerical convection in insulating porous medium,” Indoor air 99, Edinburgh, 1999.
[15]. V. Shankar, C. E. Hagentoft, “Influence of natural convection on the thermal properties of insulating porous medium with air cavity,” Indoor air 99, Edinburgh.
[16]. V. Shankar, C. E. Hagentoft, “Numerical investigation of natural convection in horizontal porous media heated from below comparisons with experiments,” ASME International, Pittsburgh, 2000.
[17]. A.M. Gustafsson, L. Westerlund, G. Hellström, CFD-modeling of natural convection in a groundwater-filled borehole heat exchanger, Appl. Therm Eng. 30 (2010) 683e691.
[18]. Y.L. Shi, J.J. Ji, C.L. Zhang, Semi-porous media approach for numerical simulation of flow through large-scale sparse tubular heat exchangers, HVAC&R Res. 16 (2010) 617e628.
[19]. A.M. Hayes, J.A. Khan, A.H. Shaaban, I.G. Spearing, The thermal modeling of a matrix heat exchanger using a porous medium and the thermal non equilibrium model, Int. J. Therm Sci. 47 (2008) 1306e1315.
[20]. Y.L. Shi, J.J. Ji, C.L. Zhang, Semi-porous media approach for numerical simulation of flow through large-scale sparse tubular heat exchangers, HVAC&R Res. 16 (2010) 617e628.
Siva Murali Mohan Reddy.A, Venkatesh M. Kulkarni “CFD Simulation of Flow and Heat Transfer in a Horizontal Pipe Partially Filled with Porous Media” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.14-21 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/14-21.pdf
Flexural Strength Behavior of Ceramic Coarse Aggregate Added Bamboo Reinforced Beam
Ansu P Thomas, Deepa Davis – June 2018 – Page No.: 22-27
The bamboo is generally a giant grass plant having the strength and durability properties comparable with timber and steel. The weight-strength ratio of the bamboo is more than that of timber and steel. Large amount of ceramic wastes are producing from the ceramic industries every year. The ceramic wastes are known to be non bio degradable materials which cause much pollution problems in the environment. These materials can be reused for different purposes including construction will make a way for innovations in sustainable construction development. Here in the project ceramic waste coarse aggregate are partially replaced in percentage for coarse aggregate with bamboo as reinforcement. The optimum replacement value of the ceramic aggregates was obtained from compression tests on ceramic added concrete cubes and flexural strength of optimum % ceramic aggregate added bamboo reinforced beam was found out. Analysis and comparison of the optimum % ceramic aggregate added bamboo reinforced beam was then done with normally reinforced concrete beam.
Page(s): 22-27 Date of Publication: 16 June 2018
Ansu P Thomas
Department of Civil Engineering, Amal Jyothi College of Engineering, Kanjirappally, India
Deepa Davis
Department of Civil Engineering, Amal Jyothi College of Engineering, Kanjirappally, India
[1]. Anderson, D. J., Smith, S. T., and Au, F. T. K. (2016). “Mechanical properties of concrete utilizing waste ceramic as coarse aggregate.” Construction and Building Materials, Elsevier Ltd, 117, 20–28.
[2]. Askarinejad, S., Kotowski, P., Youssefian, S., and Rahbar, N. (2016). “Fracture and mixed-mode resistance curve behavior of bamboo” Mechanics Research Communications, Elsevier Ltd., 78, 79–85.
[3]. Javadian, A., Wielopolski, M., Smith, I. F. C., and Hebel, D. E. (2016). Bond-behavior study of newly developed bamboo-composite reinforcement in concrete, Construction and Building Materials, Elsevier Ltd, 122, 110–117.
[4]. Wu, W., and Asce, M. (2014). Experimental Analysis of Bending Resistance of Bamboo Composite I-Shaped Beam, 19(4), 1–13.
[5]. Anderson, D. J., Smith, S. T., and Au, F. T. K. (2016). “Mechanical properties of concrete utilising waste ceramic as coarse aggregate, Construction and Building Materials, Elsevier Ltd, 117, 20–28.
[6]. Awoyera, P. O., Ndambuki, J. M., Akinmusuru, J. O., and Omole, D. O. (2016). Characterization of ceramic waste aggregate concrete, HBRC Journal, Housing and Building National Research Center, 1–6.
[7]. Wu, W., and Asce, M. (2014). Experimental Analysis of Bending Resistance of Bamboo Composite I-Shaped Beam, 19(4), 1–13.
[8]. M. Costa, S. Melo, J. Santos (2017) “Influence of physical and chemical treatments on the mechanical properties of the bamboo, Procedia Engineering, Vol.200 (457-464).
[9]. B. Sharma, A. Gatoo, M. Ramage (2015), “Effect of processing methods on the mechanical properties of Engineered Bamboo”, Construction and Building Materials, Vol. 83(95-101).
[10]. K. Liew, A. Sojobi, L. Zhang (2017), “ Green concrete: Prospects and challenges”, Construction and Building Materials, Vol. 156(1063-1095).
[11]. N. Rahman, L. Shing, L. Simon (2017), “Enhanced bamboo composite with protective coating for structural concrete application” Energy Procedia, Vol.143(167-172).
[12]. A. Alves, T. Viera, J. De Brito et al. (2014), “Mechanical properties of structural concrete with fine recycled ceramic aggregates” Construction and Building Materials, Vol.64(103-113)
Ansu P Thomas, Deepa Davis “Flexural Strength Behavior of Ceramic Coarse Aggregate Added Bamboo Reinforced Beam” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.22-27 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/22-27.pdf
Protection System for Three Phase Induction Motor Using Fuzzy Logic Controller
Mayur Deokar, J.O. Chandle – June 2018 – Page No.: 28-31
This paper explores the various protections for Induction Motor using Fuzzy Logic controller. Induction motor is the most widely used motor in the industry due to its simple and rugged construction. It requires least maintenance as compare to the other electrical motors Mainly the induction motor needs protection from the variation of the input supply. For the proposed protections three inputs are applied to the Fuzzy Logic Controller to attain the objective. The inputs provided to the FIS editor are Current, voltage and Time. Current sensor is employed to sense a single phasing, any undesirable increase in current and time is calculated when this overcurrent appears and voltage sensors are provided to the controller for voltage protections. main objective is to limit the current and turn the motor OFF whenever necessary during undesirable changes in voltage and current. For an unsustainable high current for a longer time or during single phasing or during under/over voltage condition the motor is turned OFF.
Page(s): 28-31 Date of Publication: 16 June 2018
Mayur Deokar
Student M. Tech Electrical Power System, Department of Electrical Engineering, VJTI, Mumbai, India
J.O. Chandle
Professor, Department of Electrical Engineering, VJTI, Mumbai, India
[1] Priyanka Nath; Jamini Das; AbdurRohman; TapanDas “A fuzzy logic based overcurrent protection system for induction motor”, 2016 International Conference on Communication and Signal Processing (ICCSP)Year: 2016
[2] Kersting W.H., “Causes and effects of single-phasing induction motors,” IEEETransactions on Industry Applications, Vol. 41, no. 6, pp. 1499-1505, Dec. 2005Cfghcfh
[3] Gagan Garg Amrita Sinha,” An improved method for protection of three phase induction motor using microcontroller”,2014 International Conference on Power, Control and Embedded Systems (ICPCES),2014
[4] Pinjia Zhang Bin Lu; Thomas G. Habetler, “An Active Stator Temperature Estimation Technique for Thermal Protection of Inverter-Fed Induction Motors with Considerations of Impaired Cooling Detection”, IEEE Transactions on Industry Applications Vol: 46, no.: 5, 2010.
[5] Bonnett A.H., Soukup G.C., “NEMA motor-generator standards for three-phase induction motors,”Industry Applications Magazine, IEEE, Vol. 5, no. 3, pp. 49-63, Jun 1999.
[6] Cunkas M., Akkaya R. and Ozturk A., “Protection of AC motors by means of microcontrollers,” 10th Mediterranean Electro Technical Conference, MELECON 200., Vol.3, pp. 1093-1096 vol. 3, May 2000
[7] Bonnett A.H., Soukup G.C., “NEMA motor-generator standards for three-phase induction motors,”Industry Applications Magazine, IEEE, Vol. 5, no. 3, pp. 49-63, Jun 1999
[8] Javed A. and Izhar T., “An improved method for the detection of phase failure faults in Poly Phase Induction machines,” Third International Conference on Electrical Engineering,2009, ICEE ’09, pp. 1-6, 9-11 April 2009, Lahore
Mayur Deokar, J.O. Chandle “Protection System for Three Phase Induction Motor Using Fuzzy Logic Controller ” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp. 28-31 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/28-31.pdf
AHP and Sensitivity Analysis to Study Cost-Dependency of Decision Variables in Facilities Layout Selection
Dr. G. Shashikumar and Prof. Bijan Sarkar – June 2018 Page No.: 32-37
Selection of a proper Facilities Layout (FL) to accommodate a particular type of manufacturing environment is a Herculean task. Multi-Criteria Decision Making (MCDM) approaches provide comprehensive solutions to FL selection problems, so that an efficient and cost effective FL can be selected from amongst many. These tools also provide a mechanism that can handle complementary, conflicting and even contradictory factors. Analytical Hierarchy Process (AHP) is one such tool. Here, Decisions Matrix and Pair wise Comparison (PWCP) matrices are formed on the basis of objective and subjective evaluation of a given scenario and corresponding Priority Vector (PV) values are calculated. These PV values are calculated through iterative process and are accepted if the concerned matrices yield Consistency Ratios (CR) below a specific limit. Then Composite Priority (CP) values are found out and used as Subjective Factor Measure (SFM)s in determining Facility Layout Measure (FLM)s. The algorithm is coded in ‘C’ language. The program is general and can be used to handle varieties of ‘selection from amongst many’ kind of problems. In the next step, a Sensitivity Analysis is taken up, to estimate the model’s performance when subjected to minor changes where CP values are used as SFMs in determining FLMs.
Page(s): 32-37 Date of Publication: 16 June 2018
Dr. G. Shashikumar
Department of IEM, B.M.S. College of Engineering, Bangalore, Karnataka, India
Prof. Bijan Sarkar
Department of Production Engg., Jadavpur University, Kolkata, India
[1]. Tompkins, White, Bozer, Tonchoco, ‘ Facilities Planning’.
[2]. Francis, McGinnis, White, ‘Facility Layout and Location’.
[3]. Moore.J.M., ‘Plant Layout & Design’, The Macmillan Company, New York, 1962
[4]. Muther, R., ‘Systematic Layout Planning’, Industrial Education Institute, Boston, 1961
[5]. T.L.Saaty, ‘The Analytical Hierarchy Process’, McGraw Hill New York, 1980
[6]. E.S.Buffa, ‘Modern Production/Operation Management’, Wiley Eastern Limited, New Delhi, 1993.
[7]. T.L.Saaty, ‘How to make a Decision: The Analytical Hierarchy Process’, European Journal of Operations Research, Vol. 48, No.1, 1990, pp 9.26.
[8]. T.L.Saaty, J.W.France and K.R.Valentine, ‘Modelling the Graduate Business School Admissions Process’, Socio-economic Planning Sciences, Vol.25, No.2, 1999, pp 155-162.
[9]. Dr.S.Bhattacharya, B.Sarkar, R.N.Mukherjee, ‘Selection a Conveyor Belt Under Multi-Criteria Decision Making Environment’, IE (I) Journal – MC, Vol.86, October 2005, p 140-144.
[10]. Tompkins.J.A and R.Reed.Jr., ‘An Applied Model for the Facilities Design Problem’, International Journal of Production Research, Vol.14, No.5, 1976, pp 583-595.
[11]. Luotsma.F.A,Scale Sensitivity in the multiplicative AHP & SMART. Journal of Multi-Criteria DecisionAnalysis 2, 87-110, 1993 .
[12]. Fakhreddine Karray, Essam Zaneddin, Tarex Hegazy, IEEE Transactions on Fuzzy Systems, vol.8, No.4, August 2000, ‘ Tools of Soft Computing a Applied to the Problem of Facilities Layout Planning’.
[13]. S.Chittratanawat and J.S.Noble, ‘An integrated approach for Facilities layout, P/D location and MH system design’, IJPR, Vol.37, No.3, 683-706, 1999.
[14]. Gulfem Isiklar and Gulcin Buyukozkan, ‘Usin MCDM approach to evaluate mobile phone alternatives, Computer Standards Interfces, 29, 2007, 265-274.
[15]. Mikell P.Groover, ‘Automation in Engineering’, Printice Hall India.
[16]. C.LHwang, K.Yoon, ‘MADM-Methods and Applications, Springer-Verlag, Heidelberg, 1981.
Dr. G. Shashikumar and Prof. Bijan Sarkar “AHP and Sensitivity Analysis to Study Cost-Dependency of Decision Variables in Facilities Layout Selection” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.32-37 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/32-37.pdf
The Relationship between the Attachment Behaviours of Children in Some Nigerian Institutionalized Homes (Orphanages) and their Emotional and Social Development
Augustina I. Anakwe, Johsua R. Yilhikka, Ojo M. Kayode – June 2018 Page No.: 38-42
The study examined the relationship between the attachment behaviours of children in institutionalized home (orphanages) and their emotional and social development. In some orphanages in Nigeria. A cross cultural survey design was adopted in the study, using accidental sampling method three instruments were used for data collected. A total of 25 children from orphanages were used. The hypotheses were tested using t-test. The results revealed that there are significant relationship between children from institutionalized homes attachment behavior and their emotional and social development. Based on the findings of the study the researcher recommended the adoption of children into faster care families among other things.
Page(s): 38-42 Date of Publication: 22 June 2018
Augustina I. Anakwe
Faculty of Educaion, University of Jos, Nigeria
Johsua R. Yilhikka
Faculty of Educaion, University of Jos, Nigeria
Ojo M. Kayode
Department of Special Education, University of Calabar, Calabar, Nigeria.
[1]. Abalaka, B.C., (2016). Attachment and autonomy as a yardstick for good parenting
[2]. Adewole, B.R. (2016). Orphanages the answer to children without homes
[3]. Chukwu, F.D., (2016). The Nigerian children without homes.
[4]. Early Childhood Mental Health Fact Sheet (2007).
[5]. Emeka, V.V. (2016). Home within home a cases study of an orphanage in Port-Harcourt
[6]. Mobulagi, K.K. (2017). Impact of child-rearing patterns on children raised in the orphanage.
[7]. Okoli, B.C. (2017). The teacher’s role in social development of young children.
[8]. Perry, B.D. (2001). Bonding and attachment in maltreated child consequences of emotional neglect in childhood. Retrieved on from www.childtrauma.org.
Augustina I. Anakwe, Johsua R. Yilhikka, Ojo M. Kayode “The Relationship between the Attachment Behaviours of Children in Some Nigerian Institutionalized Homes (Orphanages) and their Emotional and Social Development” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.38-42 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/38-42.pdf
Analyzing and Overcoming Challenges in Big Data Security
Pramila Joshi – June 2018 – Page No.: 43-46
This is the era of Big Data. Everywhere in almost all the organizations huge volumes of data is being gathered and processed to generate information. As the amount of data is growing so is the need to keep it secure. Any ignorance in this part may result in damaging the reputation of the organization and incurring a huge financial loss. It can bring down a company to its worse state. We will discuss various big data security challenges in this paper. We will also see how we can provide more security to big data and also discuss the future course of action as far as data security is concerned.
Page(s): 43-46 Date of Publication: 22 June 2018
Pramila Joshi
Computer Science Department, Birla Institute of Technology, Mesra, Ranchi, Jharkhand, India
Ext Centre Noida, India
[1]. Miss. Debalina Nandy, Mr. Renish J Padariya, Miss Tosal Bhalodia (2017). Security Challenges in Big Data. IJIRST, National Conference on Latest Trends in Networking and Cyber Security
[2]. Ali Kalantari, Amirrudin Kamsin, Halim Shukri Kamaruddin, Nader Ale Ebrahim, Abdullah Gani, Ali Ebrahimi and Shahaboddin Shamshirband, (2017). A bibliometric approach to tracking bigdata research trends. Journal of Big Data
[3]. Hashem IAT. The rise of “big data” on cloud computing (2015). Review and open research issues. Info Syst. 47:98–115.
[4]. Diaz M. et al. (2012). Big data on the internet of things, In 2012 sixth international conference on innovative mobile and internet services in ubiquitous computing.
[5]. Jim Longstaff,Joanne Noble. Attribute Based Access Control for Big Data Applications by Query Modification (April2016). IEEE Explore, Electronic ISBN: 978-1-5090-2251
[6]. Fadoua Badaoui, Amine Amar, Laila Ait Hassou, Abdelhak Zoglat and Cyrille Guei Okou (2017). Dimensionality reduction and class prediction algorithm with application. Badaoui et al. J Big Data 4:32 DOI 10.1186/s40537-017-0093-4 to microarray Big Data
[7]. Study on AAA Platforms For Scientific data/information Resources in Europe. Final report [online] https://confluence.terena.org/download/ attachments/30474266/AAAStudy-Report-0907.pdf
[8]. M. Armbrust, A. Fox, R. Griffith, A.D. Joseph, R. Katz, A. Konwinski, G. Lee, D. Patterson, A. Rabkin, I. Stoica, M. Zaharia, (2010). A view of cloud computing. Commun. ACM 53 50–58.
[9]. Ibrahim Abaker Targio Hashem , Ibrar Yaqoob , Nor Badrul Anuar, Salimah Mokhtar a , Abdullah Gani a , Samee Ullah Khan b (2015). The rise of big data on cloud computing: Review and open research issues. Elsevier, Information Systems 47 98–115
[10]. Raghav Toshniwal, Kanishka Ghosh, Dastidar, Asoke Nath (February 2015). Big Data Security Issues and Challenges”. International Journal of Innovative Research in Advanced Engineering (IJIRAE) ISSN: 2349-2163 Issue 2, Volume 2
[11]. Taylor Wessing (Jul 2014). The ownership of Big Data, Global Data Hub
Pramila Joshi “Analyzing and Overcoming Challenges in Big Data Security” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.43-46 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/43-46.pdf
An RFID Based Arduino Controlled Coffee/Tea Vending Machine
Pralay Majumdar, Pritam Ghosh, Praloy Roy, Subham Mondal – June 2018 – Page No.: 47-52
Most of the people drink coffee/tea which is made by ordinary coffee maker machine. So use of coffee maker machine by interfacing hardware and software will be an initial step to enter the new automated technological world. In ordinary coffee maker machine any one can get coffee by manual hand to hand transaction, but in An RFID Based Arduino Controlled Machine, only a registered member can get coffee/tea automatically. In this process a person registers humself/herself in a database by depositing some amount of cash balance and he/she is being given a Radio Frequency Identification (RFID) card. When people wish to enjoy drink, they just have to scan their RFID tag/card to get it without the help of any human operator. The balance will be automatically deducted from their a/c.
Page(s): 47-52 Date of Publication: 22 June 2018
Pralay Majumdar
Birbhum Institute of Engineering & Technology, Suri, Birbhum
Maulana Abul Kalam Azad University of Technology, West Bengal, India
Pritam Ghosh
Birbhum Institute of Engineering & Technology, Suri, Birbhum
Maulana Abul Kalam Azad University of Technology, West Bengal, India
Praloy Roy
Birbhum Institute of Engineering & Technology, Suri, Birbhum
Maulana Abul Kalam Azad University of Technology, West Bengal, India
Subham Mondal
Birbhum Institute of Engineering & Technology, Suri, Birbhum
Maulana Abul Kalam Azad University of Technology, West Bengal, India
[1]. Jules, R.L. Rivets, and M. Szydlo, “The Blocker Tag: Selective Blocking of RFID Tags for Consumer Privacy,” Proc. 8thvACM Conf. Computer and Comm. Security, ACM Press, 2003, pp. 103–111.
[2]. Roy Want, “An Introduction to RFID Technology”, IEEE Pervasive Computing, vol. 5, no. 1, pp. 25-33, Jan.-Mar. 2006.
[3]. Shut berg L., 2004: Radio Frequency Identification (RFID) In the Consumer Goods Supply Chain, Rock-Tenn Company, www.packagingdigest.com/newsite/Online/RFID_IWP.pdf
[4]. Mendip Kaur, Manjeet Sandhu, Neeraj Mohan and Parvinder S. Sandhu,” RFID Technology Principles, Advantages, Limitations & Its Applications ”, International Journal of Computer and Electrical Engineering, Vol.3, No.1, February, 2011 1793-8163
[5]. Yashi Mishra, Gaganpreet Kaur Marwah, Shekhar Verma,”Arduino Based Smart Security & Attendance System With Audio Acknowledgement”, International Journal of Engineering Research & Technology(IJERT) ISSN: 2278-0181
[6]. Aditya A. Belhe, Mukesh Mehta, Prince Raj Singh, Maqsood Choudhary, Smita Chopade ,” RFID BASED SECURE AUTHENTICATION”, International Journal of Advances in Electronics and Computer Science, ISSN: 2393-2835
Pralay Majumdar, Pritam Ghosh, Praloy Roy, Subham Mondal “An RFID Based Arduino Controlled Coffee/Tea Vending Machine” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp. 47-52 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/47-52.pdf
Plastic Extruder Machine
Lect. Bhavesh Variya, Mistry Bhavik, Panchal Harshil, Patel Jenish, Gajjar Hardik – June 2018 Page No.: 53-54
Plastic extrusion process is a well-known technique widely used in the polymerization industry. In order to produce a good quality of plastic product, the temperature in each zone must be appropriately set and precisely controlled. The temperature of the plastic extrusion system has a wide range of variation subject to various disturbances. The system is generally nonlinear and so, controlling the temperature is a tedious process, as it has multiple stages and the system is coupled with each other. Plastic extrusion barrel temperature has slow response. During the transition, from the ideal state of the machine to the operation state, the temperature variation exists significantly in the temperature zones, which in turn, lead to unstable melting temperatures and inconsistent product quality.
Page(s): 53-54 Date of Publication: 26 June 2018
Lect. Bhavesh Variya
Lecturer, Mechanical Engineering, Bhagwan Mahavir Polytechnic, Surat, Gujarat, India
Mistry Bhavik
Diploma Mechanical, Bhagwan Mahavir Polytechnic, Surat, Gujarat, India
Panchal Harshil
Diploma Mechanical, Bhagwan Mahavir Polytechnic, Surat, Gujarat, India
Patel Jenish
Diploma Mechanical, Bhagwan Mahavir Polytechnic, Surat, Gujarat, India
Gajjar Hardik
Diploma Mechanical, Bhagwan Mahavir Polytechnic, Surat, Gujarat, India
[1]. Plastics Extrusion Technology Handbook by Sidney Levy, James F. Carley
[2]. Workshop Technology I & II – J.A.Schey
[3]. Workshop Technology I & II – Raghuwanshi
[4]. https://en.wikipedia.org/wiki/Plastics_extrusion
[5]. https://m.youtube.com/watch?v=8J7JZcsoHyA
[6]. https://m.youtube.com/watch?v=VFIPXgrk7u0
[7]. https://preciousplastic.com
[8]. https://davehakkens.nl
Lect. Bhavesh Variya, Mistry Bhavik, Panchal Harshil, Patel Jenish, Gajjar Hardik “Plastic Extruder Machine” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.53-54 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/53-54.pdf
Influence Des Types De Temps Sur La Sante Humaine Dans La Commune De Tanguieta (Nord-Ouest Du Benin)
ODOULAMI Léocadie, AZALOU TINGBE Fanès V. B., DANSOU Brice Saturnin, SAMBIENI Adam – June 2018 – Page No.: 55-61
Located in northwestern Benin in the Atacora department, the commune of Tanguiéta is confronted with the influence of the types of weather on the health of the populations of Tanguiéta commune. The objective of this research is to study the probable relationships between the types of time and the prevalence of Acute Respiratory Infections (ARI) in this municipality which represents the second cause of mortality. The methodological approach used in the collection, processing of data and analysis of results based on the PEIR model. Schwartz’s formula (2002) allowed the definition of sample size and the reasoned choice technique using a specimen. Thus, 174 households were interviewed in the five districts of the municipality. As a result, ARIs use their predilection in the dry season when the air is very dry and during the rainy season when the air is very humid. Prophylactic measures and those that prevent disruption of the production cycles of disease vectors affect economic factors and what can be done against their proliferation.
Page(s): 55-61 Date of Publication: 30 June 2018
ODOULAMI Léocadie
Laboratoire Pierre PAGNEY, Climat, Eau, Ecosystème et Développement (LACEEDE), 01 BP 1534 Abomey-Calavi
AZALOU TINGBE Fanès V. B.
Laboratoire Pierre PAGNEY, Climat, Eau, Ecosystème et Développement (LACEEDE), 01 BP 1534 Abomey-Calavi
DANSOU Brice Saturnin
Laboratoire Pierre PAGNEY, Climat, Eau, Ecosystème et Développement (LACEEDE), 01 BP 1534 Abomey-Calavi
SAMBIENI Adam
Département de Géographie et Aménagement du Territoire (FASHS/UAC)
[1]. Adam K. S. et Boko M. (1993) : Le Bénin, Edicef, Paris, 95p.
[2]. Alladayè, G.P. 1997 : Types de temps et pathologies chez les enfants (0-15ans) dans la circonscription d’Abomey. Mémoire de maîtrise de géographie, UNB, 135p.
[3]. Atchi N. (2012) : Paramètres climatiques et prévalence des infections respiratoires aiguës dans la commune de Bopa. Mémoire de maîtrise de Géographie, 103 p.
[4]. Berman, (1991): Epidemiology of acute respiratory infections in children of developing countries. Clin Infect Dis 1991; 13; S454-62.
[5]. Boko, M.(1988) : Climats et communautés rurales du Bénin : rythmes climatiques et rythmes de développement. Thèse d’Etat ès-Lettres, Université de Bourgogne, vol.1, 282p.
[6]. Boko, M. (1992) : Types de temps et affections des voies respiratoires chez les enfants quartiers périphériques de Cotonou (Bénin) in ¨Risques pathologiques, rythmes et paroxysmes climatiques¨, Coord, J-P. BESANCENOT, John Libbey Eurotext, Paris, 279-286p.
[7]. Checon et al.,(2002) : Seasonal pattern of respiratory syncytial virus in a regionwith a tropical climate in southeastern Brazil. Am J Trop Med Hyg 2002 ; 67 : 490-1.
[8]. Codjo H. T. (2011) : Facteurs climatiques et rythmes pathologiques dans la commune des Aguégués, 82p.
[9]. George P. (1984) : Initiation aux pratiques statistiques en géographie, Masson ; Paris, Barcelone, Milan, 203 P.
[10]. Houndonougbo A. O. (2009) : Ambiances bioclimatiques et risques climato-pathologiques au Sud-Est du littoral béninois : cas de la commune de Sèmè-Podji, 73p.
[11]. Hountondji Y. (2013): Relations potentielles entre les Infections Respiratoires Aiguës Basses et les conditions météorologiques au Bénin, 150 p.
[12]. Koupkolou.F.A.(2008): Climat et Santé dans la commune de Kétou, mémoire de maîtrise,86p.
[13]. Oke P. (1993) : Types de temps et recrudescence de la méningite cérébro-spiraleau. 139 p.
[14]. OuorouBarrè, I.(2007) : Variabilité climatique et production vivrière dans la commune de Tanguiéta. Mémoire de maîtrise de géographie, 116p.
[15]. Rakotomalala, R. (2012) : Analyse de corrélation, étude des dépendances-variables quantitatives ; version 1.0.Université Lumière Lyon ; France, 89p.
[16]. Seastrom M.M. (2001) : Licensing in : Doyle P., Lane J.J ; Theeuwes J.J.M. ; Zayatz L ; Eds confidenciality, Discllosure and Data Access, Amsterdam : Elsevier.
[17]. Stensballe et al.,(2003) : Respiratory syncytial virus epidemics : the ups and downs of a seasonal virus. Pediatr Infect Dis J ; 22 : 21-32.
[18]. Tchatchou D. N. (2012) : Variations régionales de la survenance des IRA chez les enfants de moins cinq au Cameroun, 167 p.
[19]. Vissin, W. E.(2012): Variabilité climatique et risques pathologiques dans la commune lacustre des Aguégués au Bénin (Afrique de l’Ouest), p 763-768.
[20]. Weber et al, (1998): Respiratory syncytial virus infection in tropical and developing countries. Trop med inthealh; 3; 268-80
ODOULAMI Léocadie, AZALOU TINGBE Fanès V. B., DANSOU Brice Saturnin, SAMBIENI Adam “Influence Des Types De Temps Sur La Sante Humaine Dans La Commune De Tanguieta (Nord-Ouest Du Benin)” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.55-61 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/55-61.pdf
Static Deformation Analysis of Leaf Spring used in Heavy Load Vehicles
Naveen I, Praveen R, Nagendran N, Rahul, Thiyagu C – June 2018 Page No.: 62-64
This project deals with parabolic leaf spring simulation using nonlinear static, rigid and flexible dynamics combination. The model of the leaf spring is designed using CREO software, and the systematic analysis of the designed model is done using ANSYS software. The model selected is parabolic leaf spring. In this model 7 leaves are been used and material is used commonly for the leaf spring is steel (conventional material), here we have to modify the material like e glass epoxy and carbon fiber. The leaf spring is commonly used for the suspension in wheeled vehicles. The advantage of a leaf spring over other suspension system is that the end of the leaf spring can be guided along a definite path. The modeling of the leaf spring is done and using the analyzing software analyzing process is done. Here we are using nonlinear static, rigid and flexible dynamics combination analysis. At last the results are tabulated. The part modeling is done by using CREO and the assembly is also done by the same software. This will also help us to learn the 3D modeling software and the analyzing software.
Page(s): 62-64 Date of Publication: 30 June 2018
Naveen I
Department of Mechanical Engineering, SNS College of Engineering, Coimbatore, India
Praveen R
Department of Mechanical Engineering, SNS College of Engineering, Coimbatore, India
Nagendran N
Department of Mechanical Engineering, SNS College of Engineering, Coimbatore, India
Rahul
Department of Mechanical Engineering, SNS College of Engineering, Coimbatore, India
Thiyagu C
Department of Mechanical Engineering, SNS College of Engineering, Coimbatore, India
[1] M. Venkateshan, D. Helmen Devraj, Design and analysis of leaf spring in light vehicles, IJMER 2249-6645 Vol.2, Issue.1, pp.213-218, Jan-Feb 2012.
[2] R. S. Khurmi and J. K. Gupta Machine Design chapter 23.
[3] U. S. Ramakant & K. Sowjanya, Design and analysis of automotive multi leaf springs using composite material, IJMPERD 2249-6890 Vol. 3, Issue 1,pp.155-162, March 2013,
[4] Rajendran I, Vijayarangan S, Design and Analysis of a Composite Leaf Spring, Journal of Institute of Engineers, India ,vol.-8,2-2002
[5] Dakshraj Kothari,Rajendra Prasad Sahu and Rajesh Satankar Comparison of Performance of Two Leaf Spring Steels Used For Light Passenger Vehicle, VSRD-MAP 2249-8303 Volume2 (1), 9-16, 2012
[6] Mr. V. Lakshmi Narayana, Design and Analysis of Mono Composite Leaf Spring For Suspension in Automobiles, IJERT 2278-0181, Vol. 1 Issue 6, August – 2012
[7] Shishay Amare Gebremeskel, Design, Simulation, and Prototyping of Single Composite Leaf Spring for Light Weight Vehicle, Global Journals Inc. (USA) 2249-4596, Volume 12 Issue 7, 21-30, 2012
[8] Manas Patnaik, NarendraYadav, Study of a Parabolic Leaf Spring by Finite Element Method & Design of Experiments, IJMER 2249- 6645, Vol.2, 1920-1922, July-Aug 2012
[9] Design and Analysis of E-Glass/Epoxy Composite Monoleaf Spring for Light Vehicle SushilB.Chopade1, Prof.K.M.Narkar2 , Pratik K Satav3
Naveen I, Praveen R, Nagendran N, Rahul, Thiyagu C “Static Deformation Analysis of Leaf Spring used in Heavy Load Vehicles” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.62-64 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/62-64.pdf
A Medicine Dispenser System for Elderly Patient
Ridhi Bardoloi – June 2018 – Page No.: 65-67
Now a day’s people forget many things in day to day life due to their busy schedule. The patients especially aged people forget to take prescribed medication at the required time. It is difficult for caregiver to monitor patients at every instant of time. In order to avoid these problems, a medicine monitoring and dispensary system is needed. The system benefits the patient as well as caretaker.
In this paper we introduce different technology of medication dispenser system which is currently used for improving this situation through paper reviewing.
Page(s): 65-67 Date of Publication: 30 June 2018
Ridhi Bardoloi
ECE Department, GIMT, Guwahati, India
[1]. “Smart Medication Dispenser: Design, Architecture and Implementation” P. H. Tsai, C. Y. Yu, C. S. Shih and J. W. S. Liu, Shih,Systems Journal, IEEE , Vol:5 ,2011, Pg 99 – 110
[2]. “Design of Automatic Medication Dispenser” S. Mukund and N.K.Srinath , Natarajan Meghanathan, et al. (Eds): SIPM, FCST, ITCA, WSE, ACSIT, CS & IT 06, pp. 251–257, 2012. © CS & IT-CSCP 2012
[3]. “A Smart Medication System Using Wireless Sensor Network Technologies” Wen-Wei Changa, Tung-Jung Sungb, Heng-Wei Huanga, Wei-Chih Hsua, Chi-Wei Kuoa, Jhe-Jhao Changb, Yi-Ting Houb, Yi-Chung Lana, Wen-Cheng Kuoc, Yu-Yen Lina and Yao-Joe Yanga
[4]. “Embedded System Based Automatic Ticket Vending Machine for Modern Transport System”, M.Bhuvaneswari, S.Sukhumar, N.Divya, S.Kalpanadevi, N.SuthanthiraVanitha5, International Journal of Advanced Research in Computer and Communication Engineering Vol. 2, Issue 11, November 2013
[5]. “Wedjat: A Mobile Phone Based Medicine In-take Reminder and Monitor” Mei-Ying Wang, John K. Zao,P.H. Tsai, Ninth IEEE International Conference on Bioinformatics and Bioengineering, 2009
[6]. “UbiMeds: a mobile application to improve accessibility and support medication adherence”, Silva JM, Mouttham A, El Saddik A. Proceedings of the 1st ACM SIGMM International Workshop on Media Studies and Implementations that Help Improving Access to Disabled Users (MSIADU ’09); October 2009; pp. 71–78.
[7]. “Construction of a Medication Reminder Synchronization System Based on Data Synchronization”Kee Hyun Parkand Seung Hyeon Lim,International Journal of Bio-Science and Bio-Technology, December, 2012,Vol 4
[8]. “Point-of-Care Support for Error-Free Medication Process” J. W. S. Liu, C. S. Shih, P. H. Tsai, H. C. Yeh, P. C. Hsiu, C. Y. Yu, and W. H. Chang, Institute of Information Science, Academia Sinica
[9]. “RFID-based smart medicine drawer for assistive environments,” Becker E, Metsis V, Arora R, Vinjumur J, Xu Y, Makedon F. Smartdrawer, Proceedings of the 2nd International Conference on Pervasive Technologies Related to Assistive Environments (PETRA ’09); June 2009; pp. 1–8
[10]. “RMAIS: RFID-based Medication Adherence Intelligence System” Corey McCall, Branden Maynes, Cliff C. Zou and Ning J. Zhang, 32nd Annual International Conference of the IEEE EMBS Buenos Aires, September 4, 2010 ,Pg 3768 – 3771
[11]. “Low Cost Robotic Medicine Dispenser” Mohammad Auzi Ahadani, Liyanage C.De Silva,Iskandar Petra,Mohammad Faisal A. Hameed, Teck Sion Wong,International Symposium on Robotics and Intelligent Sensors 2012 (IRIS 2012) Volume 41, Pages 202–209
[12]. “An Automatic Medication Management System for Independently Living Healthcare Patient”, Corey McCall, Branden Maynes, Cliff C. Zou and Ning J. Zhang
[13]. “A prototype on RFID and sensor networks for elderly health care,” M. Moh, L. Ho, Z. Walker, and T. Moh.
[14]. “An Automatic Medication Self-Management and Monitoring System for Independently Living Patients” Corey McCall, Branden Maynes, Cliff C. Zou, and Ning J. Zhang
[15]. “A Flexible, Low-Overhead Ubiquitous System for Medication Monitoring,” K. Fishkin and M. Wang,
[16]. “Construction of a Smart Medication Dispenser with High Degree of Scalability and Remote Manageability”, JuGeon Pak and KeeHyun Park, Journal of Biomedicine and Biotechnology,Jul 26, 2012.
[17]. “Smart mote-based wireless medication management system for persons with dementia”, V. F. S. Fook, A. A. P. Wai, M. Jayachandran, B. Jit, P. H. Lee, and P. Y. L. Kiat, International Journal of Assistive Robotics and Mechatronics,2008, vol. 9, pp. 27–35,
[18]. “INRange Systems, Inc. (2010) Understanding EMMA. [Online]”
Ridhi Bardoloi “A Medicine Dispenser System for Elderly Patient” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.65-67 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/65-67.pdf
Parametric Analysis of a Cross-Flow Liquid Desiccant Dehumidification System
Satwinder Singh, Vikas Gupta, Swarn Singh – June 2018 – Page No.: 68-72
An experimental analysis of a packed bed liquid desiccant dehumidifier has been conducted. Calcium chloride was used as desiccant in the experiment. PVC packing with density of 150m2/m3 used to facilitate the interaction of liquid desiccant with air. The performance of the dehumidifier was measured in terms of moisture evaporation rate, specific humidity, change in humidity ratio, air outlet temperature under different air and desiccant parameters i.e air flow rate, air inlet temperature, desiccant solution flow rate, desiccant solution inlet temperature
Page(s): 68-72 Date of Publication: 30 June 2018
Satwinder Singh
Department of Mechanical Engineering, Chandigarh Group of Colleges-College of Engineering, Landran (Punjab), India
Vikas Gupta
Department of Mechanical Engineering, Chandigarh Group of Colleges-College of Engineering, Landran (Punjab), India
Swarn Singh
Department of Mechanical Engineering, Chandigarh Group of Colleges-College of Engineering, Landran (Punjab), India
[1]. Minaal Sahlot and Saffa B. Riffat, (2016). “Desiccant cooling systems: A review. International Journal of Low-Carbon Technologies, 11, 489–505.
[2]. Hesamuddin Salarian and Hossein Ghadamian (2011). An Experimental and Modelling Study of a Dehumidification Tower. International Journal of the Physical Sciences, Vol. 6, pp 2852-2860.
[3]. Lun Zhanga, Xiaohua Liub, Hongyang Weia, Xiaosong Zhang, (2018). Experimental study and analysis of heat and mass transfer ability of counter-flow packing tower and liquid desiccant dehumidification system. Energy and Buildings 158, 150–161.
[4]. M.M. Bassuoni (2011). An Experimental Study of Structured Packing Dehumidifier/Regenerator Operating with Liquid Desiccant. Energy, Vol. 36, pp 2628-2638.
[5]. S.Patnaik, T.G.Lenz, (1990). Performance Studies for an Experimental Solar Open-Cycle Liquid Desiccant Air Dehumidification System. Solar energy, Volume 44, Issue 3, Pages 123-135.
[6]. D. Seenivasan , V. Selladurai, T.V. Arjunan, (2018). Experimental Studies on the Performance of Dehumidifier using Calcium Chloride as a Liquid Desiccant. International Journal of Energy Technology and Policy, Volume 14, Issue 1 , ISSN: 1472-8923.
[7]. C.R. Hiremath, Ravikiran Kadoli, V.V. Katti, (2017). Experimental and Theoretical Study on Dehumidification Potential of Clay –Additives Based CaCl2 Composite Desiccants. Applied Thermal Engineering.
[8]. Sanjeev Jain and P.K. Bansal, (2007). Performance Analysis of Liquid Desiccant Dehumidification Systems. International Journal of Refrigeration Volume 30, Issue 5, Pages 861-872.
[9]. Lingshi Wang, Fu Xiao, Xiaofeng Niu & Dian-ce Gao, (2016). Experimental Study of Dynamic Characteristics of Liquid Desiccant Dehumidification Processes. Science and Technology for the Built Environment. ISSN: 2374-4731 (Print) 2374-474X (Online) pp 91-104.
[10]. I.P. Koronaki, R.I. Christodoulaki, V.D. Papaefthimiou, E.D. Rogdakis, (2013). Thermodynamic Analysis of a Counter Flow Adiabatic Dehumidifier with Different Liquid Desiccant Materials. Applied Thermal Engineering, Vol. 50, pp 361-373.
[11]. Jae Hyun Lee, Young Soo Chang, Jin Taek Chung, Yong Tae Kang, (2016). Nu And Sh Correlations for LiCl Solution and Moist Air in Plate Type Dehumidifier. International Journal of Heat and Mass Transfer, Vol. 100, pp 433-444.
[12]. Y. Zhao, T.S. Ge, Y.J. Dai, R.Z. Wang, (2014). Experimental Investigation on a Desiccant Dehumidification Unit using Fin-Tube Heat Exchanger with Silica Gel Coating. Applied Thermal Engineering, Vol. 63, pp 52-58.
[13]. Kokouvi EdemN’Tsoukpoe, Holger UrsRammelberg, Armand MphahLele, Kathrin Korhammer, Beatriz AmandaWatts, Thomas Schmidt, Wolfgang K.L.Ruck, (2015). A Review on the Use of Calcium Chloride in Applied Thermal Engineering. Applied Thermal Engineering Volume 75, Pages 513-531.
[14]. M. Mujahid Rafique, P.Gandhidasan Haitham, M.S. Bahaidarah, (2016). Liquid Desiccant Materials and Dehumidifiers – A Review. Renewable and Sustainable Energy Reviews, Volume 56, Pages 179-195.
[15]. S. Bouzenada, A. N. Kaabi, L. Frainkin, T. Salmon, A. Leonard, (2016). Experimental Comparative Study on Lithium Chloride and Calcium Chloride Desiccants. The 6th International Conference on Sustainable Energy Information Technology (SEIT 2016) Procedia Computer Science 83, 718 – 725.
[16]. Muhyiddine Jradi and Saffa Riffat, (2014). Energy Performance of an Innovative Liquid Desiccant Dehumidification System with a Counter-Flow Heat and Mass Exchanger using Potassium Formate. Renewable Bio resources, Vol. 2, Article 5.
Satwinder Singh, Vikas Gupta, Swarn Singh “Parametric Analysis of a Cross-Flow Liquid Desiccant Dehumidification System ” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp. 68-72 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/68-72.pdf
Teaching Life-Skills through Literature
Jinka Jyotsna, T.Dwarakanath – June 2018 – Page No.: 73-75
Why should we teach life-skills to the students of twenty first century? If we observe the present scenario of the students at both the Post-Graduate and Undergraduate levels, they are good at securing grades and ranks. But they are unable to become employable. The recent statistics says that the only 15% of them are able to be employable. What about the remaining 85% of the students? Though they are good at their subject matter, they are not able for employability, to possess the required skills and qualities. If one wants to be employable, one should be skilled not only in one’s subjects, but also one should be skilled in Behavioural, Attitudinal, and Character related aspects too. Besides, one should be able to intelligently deal with time, money and men in decision making.
As English teachers we have a lot of scope to develop our students not only in communication skills but also in life-skills. As per the present context, in the present generation/in the young minds there is no seriousness and proper caring about their lives and even lagging behind in maintaining or balancing the relationships properly with their own family members, teachers, friends, and even with the neighbours. I think the teacher is the right person in moulding their minds to keep them in a right track. In this process to overcome the imbalances we can use literature as an aid or an instrument to teach life skills and make them employable and real citizens of the nation.
Page(s): 73-75 Date of Publication: 30 June 2018
Jinka Jyotsna
Research Scholar, Dept. of English, VIT Vellore, Tamil Nadu, India
T.Dwarakanath
Research Scholar, Dept. of English, SV University, Tirupati, Andhra Pradesh, India
[1]. https://www.lifeskillseducation.in/What.html
[2]. https://www.shakespeare-navigators.com/hamlet/One3.html
[3]. https://www.poetryfoundation.org/poem/174659
[4]. https://www.poetryfoundation.org/poem/175772
[5]. https://en.wikipedia.org/wiki/If
Jinka Jyotsna, T.Dwarakanath “Teaching Life-Skills through Literature” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.73-75 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/73-75.pdf
An Experimental Study on Behaviour of GGBS in Ferro-Cement Wall Panel
Roshan Mathew, Jerison Scariah James – June 2018 – Page No.: 76-90
The uses of prefabricated Ferrocement components increase engineering properties of the structure and reduce the cost of construction and completion time. Ferrocement is a versatile structural construction material possessing unique properties of strength and serviceability. It is made with closely-knit wire mesh steel reinforcing bars filled with rich cement mortar. Welded mesh may also be used in place of reinforcing bars. The materials required for making it such as cement, sand, wire mesh and mild steel reinforcing bars are easily available everywhere.Water permeability coefficient of the concrete mixed with ground granulated blast-furnace slag (GGBS) was investigated.
Page(s): 76-90 Date of Publication: 30 June 2018
Roshan Mathew
Department of Civil Engineering, Amal Jyothi College of Engineering, A P J Abdul Kalam Technological University, India
Jerison Scariah James
Department of Civil Engineering, Amal Jyothi College of Engineering, A P J Abdul Kalam Technological University, India
[1] ACI 549.1 R-93 (1993) Guide for the Design, Construction and repair of Ferrocement.
[2] C. Choeypunt, P. Nimityongskul and L. Robles-Austriaco(1989)Rice Husk Ash Cement for Ferrocement, Journal of Ferrocement: Vol. 19, No. 2, 129-134.
[3] D. Suresh and K. Nagaraju (2015) Ground Granulated Blast Slag (GGBS) In Concrete – A Review, e-ISSN: 2278-1684, p-ISSN: 2320-334X, Volume 12, Issue 4 Ver. VI, PP 76-82. Available: www.iosrjournals.org
[4] F. Tittarelliand G.Moriconi (2007) Effect of GRP industrial waste on durability of cement mortar,Sustainable construction materials and technologies, ISBN 978-0-415-44689-1, PP 35-39.
[5] https://en.wikipedia.org/wiki/Cement#Alternatives_to_cement_used_in_antiquity
[6] IS 650-1991 (2008) Standards sand for testing cement specification, Bureau of Indian Standards, New Delhi 110002.
[7] IS 2386(Part I-VIII)-1963 (2002) Methods of test for aggregate for concrete, Bureau of Indian Standards, New Delhi 110002.
[8] IS 3085-1965 (2002) Method of test for Permeability of cement mortar and concrete, Bureau of Indian Standards, New Delhi 110002.
[9] J. O. Arumala(2015) Water penetration in laterally loaded brick-wall panels, J. Mater. Civ. Eng. 1992.4:432-436.
[10] Kantharaju, K Vasudev, S Kulkarni, C V Chandrashekar, G Rajappaand N G Malji(2001) Ferrocement components for low cost housing in developing countries, 26th Conference on Our World in Concrete Structures, 359-362.
[11] LakhanMurari and Elson John (2015)Study on Performance of Prefabricated Ferrocement Wall Panels, International Journal of Engineering Research and Development e-ISSN: 2278-067X, p-ISSN: 2278-800X, 1-5.
[12] M. A. Mansur, K. L. Tan and A. E. Naaman (2010) Strength of bolted moment connections in Ferrocement construction,Cement & Concrete Composites 32, 532–543.
[13] Muhammad Ali Zafar (2015) Low Cost Ferro cement Single Room House: A Revolutionary change in Construction building of Pakistan, International Journal of Scientific & Engineering Research, Volume 6, Issue 10,ISSN 2229-5518, 978- 982. Available: https://www.ijser.org
[14] P. A. Claisse, E. Ganjian and H. SadeghiPouya(2007) Site trials of concrete with a very low carbon footprint, Sustainable construction materials and technologies, ISBN 978-0-415-44689-1, PP 11-18.
[15] S. MadinaSaheband Prakash Desayi (2015) Ultimate strength of R. C. wall panels in two-way in-plane action, J. Struct. Eng. 1990.116:1384-1402.
[16] S. P. Shah (1981) Ferrocement in Construction,TheAbserdeen Group Publication #C810269 Copyright@ 1981.
[17] Sanjay Raut, Sachin Mandavgane and Rahul Ralegaonkar(2014) Thermal performance assessment of recycled paper mill waste cement bricks using the small scale model technique,J. Energy Eng. 04014001-1-8.
[18] Sonali K. Gadpalliwar, R. S. Deotaleand Abhijeet R. Narde(2014) To study the partial replacement of cement by GGBS & RHA and natural sand by quarry sand in concrete,IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE) e-ISSN: 2278-1684, p-ISSN: 2320-334X, Volume 11, Issue 2 Ver. II, PP 69-77.
[19] T. R. Naik(2007) Sustainability of the cement and concrete industries,Sustainable construction materials and technologies, ISBN 978-0-415-44689-1, PP 19-25.
[20] Taylor Sorensen, SattarDarofshanand Marc Maguire (2017) Thermal evaluation of common locations of heat loss in sandwich wall panels, Congress on Technical Advancement, 173-184.
[21] Wail N. Al-Rifaie, Waleed K. Ahmed, L.E. Ibraheem and H.Y. Al-Samarraie (2014) Ferrocement in Eco-Housing System,International Journal of Renewable Energy Research, Vol.4, No.1, 2014, 151-159.
[22] Yasutaka Sagawa1, Daisuke Yamamoto1 and Yoshikazu Henzan (2010) Properties of Concrete with GGBS and its Applications for Bridge Superstructures, 744 Motooka, Nishi-ku, Fukuoka, Japan. Available: https://www.claisse.info/Proceedings.htm
[23] Yu-Fei Wu and Mike P. Dare (2015) Axial and shear behavior of glass fiber reinforced gypsum wall panels: Tests,J. Compos. Constr. 2004.8:569-578.
Roshan Mathew, Jerison Scariah James “An Experimental Study on Behaviour of GGBS in Ferro-Cement Wall Panel ” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp. 76-90 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/76-90.pdf
Construction of Magic Square of Any Order
Chaitra V, Madhura A – June 2018 – Page No.: 91-94
A magic square is a square matrix of numbers with the property that the sums along rows, columns, and main diagonals are all equal to S which is called the “magic sum”. A magic square with n number of cells on a side is a magic square of order n. Such a square has n rows, n columns and n2cells.
Page(s): 91-94 Date of Publication: 03 July 2018
Chaitra V
Dept. of Mathematics, BMS College of Engineering, Bangalore, Karnataka, India
Madhura A
Dept. of Telecommunication Engg., BMS College of Engineering, Bangalore, Karnataka, India
C. W. Trigg, Determinants of Fourth Order Magic Squares, American Mathematical Monthly 55, 558-561, 1948.
R. Schroeppel, Appendix 5: The Order 5 Magic Squares, 1-16, 1973.
M. Gardner, Mathematical Games Scientific American 234, 118-122, 1976.
J. Chernick,Solution of the general magic square, The American Mathematical Monthly,45(3) (1938), 172-175.
H. E. Dudeney, Amusements in Mathematics, Dover Publications, Inc., New York, 1958.
H. E. Dudeney,The Canterbury Puzzles, Fourth Edition, Dover Publications, Inc., New York, 1958.
N. Gauthier, Singular matrices applied to 3×3magic squares, The Mathematical Gazette,81 (1997), 225-230.
K. Kelsey,The Ultimate Book of Number Puzzles,Dorset, Great Britain, 1992.
D. E. Knuth, Very magic squares, The American Mathematical Monthly,75(3) (1968), 260-264.
J. S. Meyer, FUN with Mathematics, Fawcett Publications, Inc., New York, 1957.
J. Rothstein, A method for constructing singly even magic squares, The Fibonacci Quarterly,11(6) (1973),543-544.
Chaitra V, Madhura A “Construction of Magic Square of Any Order” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.91-94 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/91-94.pdf
Anti-Inflammatory and Antioxidant Activity of the Hydroalcoholic Extract of Cynodon Dactylon L. Pres.
Sneha Sahadeo Kirgat, Swati R. Dhande – June 2018 – Page No.: 95-98
The present work was aimed to study the anti-inflammatory activity of Cynodon dactylon L. Pres.; using hydroalchoholic extract of entire plant on rodent models. The experimental paradigm included pulmonary edema in mice and granuloma pouch technique in rats In pulmonary edema model; mice received hydroalcoholic extract of Cynodon dactylon L. Pres. (HECD) 600 mg/kg, p.o. Mice were challenged with intrapleural injection of 0.1 ml of 1 % suspension of carrageenan in saline, one hour after administration of drugs or vehicle, on the right side of the thorax. In Granuloma pouch technique rats received HECD 600 mg/kg, p.o. and after 24 hour were challenged with carrageenan (4 ml of 2% w/ v of carrageenan solution in saline, s.c.). Indomethacin (10 mg/kg) was used as reference standard. The effect of the HECD against pulmonary edema in mice; was found to be significantly (**P<0.01) effective as well as the effect of HECD on the increased protein infiltration induced by carrageenan was found to be significant (**P<0.01).
Page(s): 95-98 Date of Publication: 03 July 2018
Sneha Sahadeo Kirgat
Bharati Vidyapeeth College of Pharmacy, C.B.D Belapur, Navi-Mumbai, Maharashtra, India
Swati R. Dhande
Bharati Vidyapeeth College of Pharmacy, C.B.D Belapur, Navi-Mumbai, Maharashtra, India
[1]. Crofford L.J. (2013).Use of NSAIDs in treating patients with arthiritis, Arthiritis Res Ther, 15 (3).
[2]. Pandey M. M. , Rastogi., and Rawat A. K.S.(2013). Indian Traditional Ayurvedic System of Medicine and Nutritional Supplementation, J Evid Based Complementary Altern Med, 1-12.
[3]. Kaliyaperumal,Ashokkumar, Kumarakurubaran S., Muthukrishnan S.D., (2013). Cynodon dactylon (L.) Pers.: An updated review of its phytochemistry and pharmacology.,J. Med. Plants Res. 7(48), 3477-3483.
[4]. Paul R., Mandal A. and Datta K.A.,(2012). An updated overview on Cynodon dactylon (l.) Pers., Asian j plant sci res. 3(1), 11-14.
[5]. Oram S.,Pulmonary oedema, (1958). Respr Med, 52(2) 121-125.
[6]. Georgewill O.A., Georgewill U.A. and Nwankwoala R., (2010). Anti-inflammatory effect of Morninga oliefera lam extract in rats, Asian Pac. J. Trop., 133-235.
[7]. Ricciotti E. and FitzGerland G.A.,(2011). Prostaglandins and Inflammation, Arterioscler Thromb Vasc Biol, 31(5) 986–1000.
[8]. Davidson R.M. and Seneff S.,(2012). The initial common pathways of inflammation, disease, and sudden death, Entropy, 14, 1399-1442.
[9]. Riberio A. N. et.al.,(2016).Analgesic and inflammatory actions on bradykinin route of a polysulfated fractions from alga Ulva lactuca, Int J Bio Macromol, 92, 820-830.
[10]. Sen S.,(2013). Anti inflammatory, analgesic, and antioxidants activities of Pisonia aculeate:Folk medicinal use to scientific approach. Pharm. Bio., 426-431.
[11]. Labu Z.K., Laboni F.R., Howaldar M.S.I., Rashid M. H.,(2015). Membrane stabilization as a mechanism of anti inflammatory and thrombolytic activities of ethanolic extract of arieal parts of Spondiasis pinanata (Family:anacardiaceae) PhOL., 2, 44-51.
[12]. Li S.,et.al.,(2015). The role of oxidative stress and antioxidants in liver disease, Int J Mol Sci.,16, 26087-26124.
[13]. Huy L. P. and Huy C.P.,(2008). Free radicles, antioxidants in disease and health,Int J Biomed Sci 4(2) 89-96.
[14]. Kedare S.B. and Singh R.P J.,(2011). Genesis and development of DPPH method of antioxidant assay, J Food Sci Technol 48(4) , 412-422.
[15]. Mansouri et al.,(2014).Antioxidant effect of hydero-alcholic extract of pomegranate (Punica gsrantum L.) on some of tissues, Biotech. Res. Asia,11(2), 441-447.
[16]. Shekhar C.T. and Goyal A.,(2014). Antioxidant activity of DDPH radical scavenging method of Agerataum conyzoides Linn. leaves, Am J Med., 1(4), 244-249.
[17]. Dhande, S*., (2013) Anti-Inflammatory and Analgesic Properties of The 50 % Ethanolic Extract of Cynadon Dactylon Pers,
Int. J Pharm Sci Rev Res, (2), 8-16.
Sneha Sahadeo Kirgat, Swati R. Dhande “Anti-Inflammatory and Antioxidant Activity of the Hydroalcoholic Extract of Cynodon Dactylon L. Pres.” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.95-98 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/95-98.pdf
Raspberry Pi based Wireless Transmission of Text Data using Low Density Parity Check (LDPC)
Swaraj Patil, Dr. D.P Rathod – June 2018 – Page No.: 99-102
During transmission of data, errors are generally introduced which corrupts the actual information. Low Density Parity Check codes is an error correcting codes that are widely been used. In this paper, LDPC is used as error correcting codes with parity check matrix of size (8 x 16) having code rate 0.5.
Text data is been encoded with addition of noise and transmitted. The decoder used here is Sum Product Algorithm which decodes the message correctly by removing the error. The hardware used here is Raspberry Pi which has Wi-Fi module for transmission and reception. Encoder and Decoder GUI has been made to show transmission and reception of message.
Page(s): 99-102 Date of Publication: 03 July 2018
Swaraj Patil
Student M. Tech Electronics, Department of Electrical Engineering, VJTI, Mumbai, Maharashtra, India
Dr. D.P Rathod
Professor, Department of Electrical Engineering, VJTI, Mumbai, Maharashtra, India
[1] Gallager, R.G, “Low Density Parity Check codes”, IRE Transactions on Information Theory Engineering, Vol. IT-8, January 1962.
[2] Heng Li, YanChunZhong,” A Novel Method for H.264 Video Transmission Using LDPC Codes over High BER Wireless Network”, 2nd International Conference on Power Electronics and Intelligent Transportation System,2009.
[3] Rui GUO, Lixin WANG, Xiaoxia JIANG,” Stereo Video Transmission Using LDPC Code”, I. J. Communications, Network and System Sciences, 3, 207-283, 2008.
[4] Rita Purnamasari, HeroeWijanto, IswahyudiHidayat,” Design and Implementation of LDPC(Low Density Parity Check) Coding Technique on FPGA(Field Programmable Gate Array) for DVB-S2 (Digital VideoBroadcasting-Satellite)”, IEEE International Conference on Aeroelectronics and Remote Sensing Technology ,2014.
[5] M.UshaswiniChowdary et al,“ZigBee Based Wireless Data Transmission with LDPC codes using FPGA”, International Journal of Engineering and Technology (IJET), Vol 8 No 2 Apr-May 2016.
[6] KavitaSogale,Dr.D.J.Pete,” Wireless Transmission of Karhunen-Loeve
Transformed Images over A WGN”, IEEE Sponsored 2nd International Conference on Innovations in Information Embedded and Communication Systems (ICIIECS)2015.
[7] PradeepShah,PrakashVyavare and Anjana Jain,”Modern error correcting codes for 4G and beyond: Turbo codes and LDPC codes ” ,Radio and Antenna Days of the Indian Ocean (RADIO), 2015.
[8] KritikaPuri, Madhwendra N. Tripathi,” Designing and the Performance Estimation of Wireless Communication Systems using LDPC codes using Sum Product algorithm and Bit-flipping algorithm”, International Journal of Advanced Research in Electronics and Communication Engineering (IJARECE) Volume 4, Issue 8, August 2015.
[9] WojciechSulek,”Seed Expansion for construction of structured LDPC codes”, International Symposium on Wireless Communication Systems (ISWCS) 2009.
[10] Timothy WeylinGerken,“Implementation of LDPC codes using the IEEE 802.16e standard”, College of Engineering and Mineral Resources at West Virginia University,2009.
[11] Rinu Jose and Ameenudeen P.E,”Channel Coding using Low Density Parity Check Codes in AWGN”, International Conference on Emerging Trends in Technology and Applied Sciences(ICETTAS) 2015
[12] Sarah Johnson,Chapter“Iterative error correction”, 2, ISBN-13 978-0-511-69129-4,E-book.
[13] “Low-density parity-check code”, https://en.wikipedia.org/wiki/Low-density-parity-check
Swaraj Patil, Dr. D.P Rathod “Raspberry Pi based Wireless Transmission of Text Data using Low Density Parity Check (LDPC)” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp. 99-102 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/99-102.pdf
An IoT Based Smart Healthcare System Using Raspberry Pi
Raghavendra K K, Sharanya P S, Shaila Patil – June 2018 – Page No.: 103-106
In the recent development Internet of Things (IoT) makes all objects interconnected and it has been recognized as the next technical revolution. Some of the applications of Internet of Things are smart parking, smart home, smart city, smart environment, industrial places, agriculture fields and health monitoring process. One such application is in healthcare to monitor the patient health status. The system is aimed to prevent delays in the arrival of patients medical information to the healthcare providers, particularly in accident and emergency situations, to stop manual data entering, and to increase beds capacity in hospitals, especially during public events where a large number of people are meeting in one place. The architecture for this system is based on medical sensors which measure patient’s physical parameters by using wireless sensor networks (WSNs). These sensors transfer data from patient’s bodies over the wireless network to the cloud environment. Thus Internet of Things in the medical field brings out the solution for effective patient monitoring at reduced cost and also reduces the trade-off between patient outcome and disease management. In this paper we discuss about, monitoring patient’s body temperature, heartbeat, blood pressure, ECG and body movement using Raspberry Pi board.
Page(s): 103-106 Date of Publication: 03 July 2018
Raghavendra K K
Assistant Professor, Department of Computer Science and Engineering, Vivekananda College of Engineering and Technology, Puttur, Karnataka, India
Sharanya P S
Assistant Professor, Department of Computer Science and Engineering, Vivekananda College of Engineering and Technology, Puttur, Karnataka, India
Shaila Patil
Assistant Professor, Department of Computer Science and Engineering, Vivekananda College of Engineering and Technology, Puttur, Karnataka, India
[1]. A. Dohr, R. Modre-Osprian, M. Drobics, D. Hayn, G.Schreier, ”TheInternet of Things for Ambient Assisted Living”, Seventh International Conference on Information Technology, pp 804-809,2010.
[2]. Junaid Mohammed, Abhinav Thakral, Adrian Filip Ocneanu, Colin Jones, Chung-Horng Lung, Andy Adler,” Internet of Things: Remote Patient Monitoring Using Web Services and Cloud Computing”, 2014 IEEE International Conference on Internet of Things (iThings 2014), Green Computing and Communications (GreenCom2014), and Cyber-Physical-pp256-263,2014.
[3]. MohammadS.Jassas, AbdullahA. Qasem, Qusay H. Mahmoud,” A Smart System Connecting e-Health Sensors and the Cloud A Smart System Connecting e-Health Sensors and the Cloud” Proceeding of the IEEE 28th Canadian Conference on Electrical and Computer Engineering Halifax, Canada, pp 712-716,May 3-6, 2015.
[4]. Hasmah Mansor, Muhammad Helmy Abdul Shukor, Siti Sarah Meskam, Nur Quraisyia Aqilah Mohd Rusli, Nasiha Sakinah Zamery,” Body Temperature Measurement for Remote Health Monitoring System” IEEE International Conference on Smart Instrumentation, Measurement and Applications (ICSIMA)26-27 November 2013.
[5]. Deepika Agrawal, Punit Gupta, Jasmeet Chhabra and Pulkit Kumar Dhir, “IoT based Smart Health care Kit”, International Conference on Computational Techniques in Information Technologies, July 2016.
Raghavendra K K, Sharanya P S, Shaila Patil “An IoT Based Smart Healthcare System Using Raspberry Pi” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.103-106 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/103-106.pdf
Building Management System with Integrated Facilities Management Using Computer Vision
Anand S, Sabu K – June 2018 – Page No.: 107-110
Building management systems (BMS) for monitoring and managing various psychometric conditions inside a building have been in development for along time. The recent advancement in wireless technology and the advent of IoT have caused a sudden popularity of BMS among general population and software companies. Tech giants like Google, Samsung, Microsoft, Amazon and others have developed their own automated management and monitoring software. But most of these systems only manage environmental conditions and does not control other facilities.
In this paper a customised building management system with facilities management capacity is presented. The facility management is done by integrating computer vision technology with the BMS.
Page(s): 107-110 Date of Publication: 03 July 2018
Anand S
Research Scholar, APJ Abdul Kalam Technological University, College of Engineering Trivandrum, Kerala, India
Sabu K
Associate Professor, APJ Abdul Kalam Technological University, College of Engineering Trivandrum, Kerala, India
[1]. Atzori, L., A. Iera, and G. Morabito, (2010). The internet of things: A survey. Computer Networks 54(15), 2787 – 2805.
[2]. Bradski, G. R., (1998). Computer vision face tracking for use in a perceptual userinterface. Intel Technology journal 2(2), 1 – 15.
[3]. Domingues, P., Carreira, P., Vieira, R., Kastner, W., (2015). Building automation systems: Concepts and technology review. Computer Standards and Interfaces45, 1–12.
[4]. Doukas, H., Patlitzianas, K. D., Iatropoulos, K., Psarras, J., (2007). Intelligent building energy management system using rule sets. Building and Environment42 (10), 3562 – 3569.
[5]. Gubbi, J., Buyya, R., Marusic, S., Palaniswami, M., (2013). Internet of things (IoT): A vision, architectural elements, and future directions. Future Generation Computer Systems 29 (7), 1645 – 1660.
[6]. Harrison, A., Loe, E., Read, J., (1998). Intelligent Buildings in South East Asia.Taylor and Francis.
[7]. Kroner, W. M., (1997). An intelligent and responsive architecture. Automation inConstruction 6 (5), 381 – 393.
[8]. Lee, I., Lee, K., (2015). The internet of things (iot): Applications, investments, andchallenges for enterprises. Business Horizons 58 (4), 431 – 440.
[9]. Lilis, G., Conus, G., Zanjani, N. A., Kayal, M., (2016). Towards the next generationof intelligent building: An assessment study of current automation and future iot based systems with a proposal for transitional design. Sustainable Cities and Society 28.
[10]. Quattoni, A., Torralba, A., (2009). Recognizing indoor scenes. In: Procedingsof IEEE Conference on Computer Vision and Pattern Recognition. pp. 413 – 420.
[11]. Redmon, J., Divvala, S., Girshick, R., Farhadi, A., (2016). You only look once: unified, real-time object detection. arXiv.
[12]. Redmon, J., Farhadi, A., (2016). Yolo9000: better, faster, stronger. arXiv.
[13]. Shah, J., Mishra, B., (2016). Customized iot enabled wireless sensing and monitoringplatform for smart buildings. Procedia Technology 23, 256 – 263.
[14]. Sheng, Z., Mahapatra, C., Zhu, C., Leung, V. C. M., (2015). Recent advances in industrial wireless sensor networks toward efficient management in iot. IEEEAccess 3, 622 – 637.
[15]. Wang, S., Xie, J., (2002). Integrating building management system and facilitiesmanagement on the internet. Automation in Construction 11 (6), 707 – 715.
[16]. Wei, C., Li, Y., (2011). Design of energy consumption monitoring and energy saving management system of intelligent building based on the internet of things. In: Procedings of International Conference on Electronics, Communications and Control (ICECC). pp. 3650 – 3652.
[17]. Wong, J., Li, H., Wang, S., (2005). Intelligent building research: a review.Automation in Construction 14 (1), 143 – 159.
[18]. Yu, J., Kim, M., Bang, H.-C., Bae, S.-H., Kim, S.-J., (2015). Iot as an application:cloud-based building management systems for the internet of things 75, 1– 14.
[19]. Zhu, Q., Wang, R., Chen, Q., Liu, Y., Qin, W., (2010). Iot gateway: Bridging wireless sensor networks into internet of things. In: Procedings of IEEE/IFIPInternational Conference on Embedded and Ubiquitous Computing. pp. 347 – 352.
Anand S, Sabu K “Building Management System with Integrated Facilities Management Using Computer Vision” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.107-110 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/107-110.pdf
A Study on Financial Performance of APSFC
R.V. Sankara Rao – June 2018 – Page No.: 111-114
State Financial Corporations were established in the states under the Central Act, viz., the State Financial Corporation Act 1951, with the basic objective of promoting and developing small scale industries in respective states with a special focus on spreading industrial culture in the rural and semi urban and backward areas of the state. These Corporations are owned by the respective state governments jointly with IDBI and they are functioning under the administrative control of the state governments.
In this paper an attempt is made to examine the financial performance of APSFC in terms of sanctions, disbursements year-wise, branch-wise, Recovery of principal and interest amounts and growth rates to analyse the APSFC performance in terms of these indicators over the period.
Page(s): 111-114 Date of Publication: 03 July 2018
R.V. Sankara Rao
Research Scholar, Acharya Nagarjuna University, Guntur, Andhra Pradesh, India
[1]. Bhatt, A. R. (2012). “Financial Statement Analysis of Andhra Pradesh State Financial Corporation.” Arth Prabhand: A Journal of Economics and Management, 1(7) pp.10-15
[2]. Singh, S.P., Arora, A., Anand, M. (1991). “Performance Evaluation of SFCs-A Comparative Study of PFC and HFC.” Prajnan, 20(3), pp. 16-25
[3]. Kaur, Parvinder, (1999). “Performance of Industrial Finance Institutions in India.” In Batra, G.S. and Dangwal, R.C. (eds.) “Industrialization: New Challenges.” Deep and Deep Publications, p.178.
[4]. Reddy, C. V. (2012). “Industrial Financial Services by APSFC A Study.” Conference Proceedings, National Conference on “New Paradigms and Perspectives for Business Excellence” held on August 4, 2012 organized by Department of Studies & Research in Business Administration, Tumkur University, Tumkur 572 103, Karnataka. (Ed.,) by Shiva Shankar. K. C, ISBN-978-81-924393-6-5. pp. 146-159.
[5]. Annual reports of APSFC from the year 2007-08 to 2016-17.
[6]. Accounting manual issued by APSFC quarterly, annually and bulletins.
R.V. Sankara Rao “A Study on Financial Performance of APSFC ” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp. 111-114 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/111-114.pdf
Statistical Modelling Immoderate Weather Event by Using R and SAS: A Case Study of Minneapolis/St Paul Region in Minnesota, USA
Mayooran Thevaraja and Deepak Sanjel – June 2018 Page No.: 115-134
Climate projections suggest the frequency and intensity of some environmental extremes will be affected in the future due to a changing climate. Ecosystems and the various sectors of human activity are sensitive to extreme weather events, such as heavy rains and floods, droughts and high and low temperatures, especially when they occur over prolonged periods. In 1985 Wigley studied about extreme events dangerously affected human society which is included among others agriculture, water resources, energy demand and mortality. In this paper, extreme elevated temperature events for nearly 117 years from the Minneapolis/St Paul, Minnesota State, and area are analyzed from the major international airport [St. Paul] and popular city in Minnesota. The main aim of this study is to find the best fitting distribution to the extreme daily temperature measured over the Minneapolis region for the years 1900-2016 by using the maximum likelihood approach. The study also predicts the extreme temperature for return periods and their confidence bands. In this paper, extreme temperature events are defined by two different methods based on (1) the annual maximums of the daily temperature, (2) the daily temperature exceeds some specific threshold value and (3) Bayesian Model using Markov chain Monte Carlo (MCMC). The Generalized Extreme Value distribution and the Generalized Pareto distribution are fitted to data corresponding to the methods 1 and 2 to describe the extremes of temperature and to predict its future behavior. Finally, we find the evidence to suggest that the Frechet distribution provides the most appropriate model for the annual maximums of daily temperature after removing an outlier and the Generalized Pareto Distribution (GPD) gives the reasonable model for the daily temperature data over the threshold value of 96°F for the Minneapolis location. Further, we derive estimates of 2, 5, 10, 20, 30, 40, 50, 60, 70, 80, 90, 100, 150 and 200 years return levels and its corresponding confidence intervals for extreme temperature.
Page(s): 115-134 Date of Publication: 03 July 2018
Mayooran Thevaraja
Department of Mathematics and Statistics, Minnesota State University, Mankato, USA
Deepak Sanjel
Department of Mathematics and Statistics, Minnesota State University, Mankato, USA
[1]. Balkema, A. A. and L. de Haan (1974), Residual lifetime at great age, Annals of Probability, 2,792–804.
[2]. Begueria, S. and Vicente-Serrano, S.M. (2006). Mapping the Hazard of Extreme Rainfall by Peaks over Threshold Extreme Value Analysis and Spatial Regression Techniques. Journal of Applied Meteorology 45(1), 108-124.
[3]. Chu, P. S, Zhao. X, Ruan. Y and Grubbs. M, (2009). “Extreme Rainfall Events in the Hawaiian Islands” journal of applied meteorology and climatology volume 48, American Meteorological Society.
[4]. Coles, S. 2001. An Introduction to Statistical Modeling of Extreme Values. Springer.
[5]. Fisher, R. A. and Tippet, L.H.C. 1928. On the estimation of the frequency distributions of the largest or smallestmember of a sample. Proceeding of the Cambridge philosophical society, 24, 180-190.
[6]. Frechet. M, 1927. “Sur la loi de probabilité de l’écart maximum.” Ann. Soc. Polon. Math. 6, 93
[7]. Gnedenko B.V., 1943. Sur la distribution limite du terme maximum d’uneseriealeatoire, Annals of Mathematics,44, 423453.
[8]. Gnedenko, B. “Sur La Distribution Limite Du Terme Maximum D’Une Serie Aleatoire.” Annals of Mathematics, Second Series, 44, no. 3 (1943): 423-53.
[9]. Gumbel, E. (1958), Statistics of Extremes, Colombia University Press, New York.
[10]. Hirose, H. (1994). Parameter Estimation in the Extreme-Value distributions using the Continuation Method, Information Processing Society of Japan Vol 35, 9.
[11]. Husna. B, Noor. B. Ahmad. R, and Suraiya. B (2012) Proceedings of the World Congress on Engineering 2012 Vol I WCE 2012, July 4 – 6, 2012, London, U.K.
[12]. Mayooran. T and Laheetharan.A (2014), “The Statistical Distribution of Annual Maximum Rainfall in Colombo District”Sri Lankan Journal of Applied Statistics, Vol (14-2)
[13]. Muller, U. A, M. M. Dacorogna, O. V. Pictet (1996), Heavy tails in high frequency financialdata, Olsen & Associates Discussion Paper.
[14]. Nadarajah S., and Withers, C. S. (2001). Evidence of trend in return levels for daily rainfall in New Zealand, Journal of Hydrology New Zealand, Volume 39, p.155-166.
[15]. Nadarajah, S. (2005), Theexponentiated Gumbel distribution with climate application, Environmetrics, 17(1), 13-23.
[16]. Nadarajah. S and Choi. D, (2007). Maximum daily rainfall in South Korea J. Earth Syst. Sci. 116, No. 4, pp. 311–320.
[17]. Pickands, J. (1975), Statistical inference using extreme order statistics, Annals of Statistics, 3,119–131.
[18]. Ramachandra Rao. A andHamed. K. H, (2000). Flood Frequency Analysis, CRC Press, Boca Raton, Florida, USA.
[19]. Reiss, R.-D. and Thomas, M. 2007. Statistical Analysis of Extreme Values: with applications to insurance, finance, hydrology and other fields. Birkhauser, 530pp., 3rd edition
[20]. Sanjel, D., Wang, Y. G., (2014). Extreme Value Modeling of Minnesota River Flood, American Statistical Association,JSM 2014 proceeding. (Section for Statistical Programmers and Analysts) pp: 2594-2604.
[21]. Varathan, N, Perera, K and Nalin, (2010). Statistical modeling of daily extreme rainfall in Colombo, International Conference on Sustainable Built Environment (ICSBE-2010) Kandy, 13-14 December 2010 pp 144-151, Sri Lanka.
[22]. Wigley, T.M.L., 1985: Impact of extreme events. Nature, 316, 106-107.
Mayooran Thevaraja and Deepak Sanjel “Statistical Modelling Immoderate Weather Event by Using R and SAS: A Case Study of Minneapolis/St Paul Region in Minnesota, USA” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.115-134 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/115-134.pdf
Smart City Application with Reference to City Stress
Ghousea Parveen, T M Kiran Kumar – June 2018 Page No.: 135-138
Smart City Application with reference to city stress is an Android Application. This application is used to capture the real time data of the user from anywhere and it is secured, user-friendly. This application is mainly built to report the issue that citizens are facing in their daily life.
The issues that would indirectly stress the civilians namely like Garbage, Violations (Illegal Posters), Potholes, Environment (Plastic Usage). This application helps citizens to report their issues to the higher authorities. Reported issues can be seen by the administrator and the higher authorities in the method of interactive data analysis dashboards. The main features of this application are Capturing Geo-Location Dynamically using Google Maps, Real Time Data Capture like (capturing current location of user, time and date) and User Anonymity.
Page(s): 135-138 Date of Publication: 03 July 2018
Ghousea Parveen
Post Graduate Student, Department of Master of Computer Applications, Siddaganga Institute of Technology, Tumakuru, Karnataka, India
T M Kiran Kumar
Assistant Professor, Department of Master of Computer Applications, Siddaganga Institute of Technology, Tumakuru, Karnataka, India
[1]. Adriana Del Borghi, Michela Gallo, Carlo Strazza, Fabio Magrassi, Marco Castagna Waste management in Smart Cities: the application of circular economy in Genoa (Italy) ImpresaProgetto – Electronic Journal of Management, n. 4, 2014
[2]. R. Szabó et al. • Framework for Smart City Applications Based on Participatory SensingCogInfoCom 2013 ,4th IEEE International Conference on Cognitive Infocommunication, December 2–5, 2013 , Budapest, Hungary
[3]. Ka´rolyFarkas, Ga´borFeh´er, Andr´asBencz´ur, and CsabaSidl´o “Crowdsending Based Public Transport Information Service in Smart Cities” IEEE Communications Magazine ,pp 158-165August 2015.
[4]. International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume XL-4/W1, 29th Urban Data Management Symposium, 29 – 31 May, 2013, London, United Kingdom.
Ghousea Parveen, T M Kiran Kumar “Smart City Application with Reference to City Stress” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.135-138 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/135-138.pdf
A Study on Mechanical Properties of Recron Fibre Reinforced Concrete by Partial Replacement of Cement with Egg Shell Powder
S. Satish Kumar, B. Ganesh – June 2018 Page No.: 139-142
The main objective of this experimental study is to investigate the strength performance of Recron fibre reinforced concrete of M30 grade produced by replacing cement with Egg Shell Powder in various percentages like 5%, 10%, 15% and 20% both in OPC & PSC and also addition of Recron fibres in different percentages like 0.2%, 0.3%, 0.4% and 0.5%. The Optimum percentage of ESP in OPC & PSC can be determined and it can be used for determining Compressive and Split Tensile strength tests by adding different percentages of Recron fibers. The strength characteristics of Conventional OPC & Recron fiber reinforced concrete and the Conventional PSC & Recron fiber reinforced concrete are compared. And also the strength characteristics of Recron Fibre reinforced concrete of OPC are compared with Recron Fibre reinforced concrete of PSC at the age of 7 to 60 days. In this study, Cube and Cylinder specimens are prepared for Compressive and Split Tensile strength tests and they were tested at the age of 7, 28 and 60 days.
Page(s): 139-142 Date of Publication: 03 July 2018
S. Satish Kumar
PG Student , Department of Civil Engineering, Lenora College of Engineering, East Godavary, Andhra Pradesh, India
B. Ganesh
Assistant Professor, Department of Civil Engineering, Lenora College of Engineering, East Godavary, Andhra Pradesh, India
[1]. Concrete Technology by M.S. Shetty.
[2]. Concrete Technology by M.L. Gambhir.
[3]. I.S 10262-2009: “Recommended guidelines for concrete mix design”.
[4]. I.S 12269-1987: “Specifications for 53 grade Ordinary Portland Cement”.
[5]. I.S 455-1989: “Portland Slag Cement – Specification”.
[6]. I.S 383-1970:”Specifications for coarse and fine aggregates”.
[7]. I.S 456-2000 “Plain and Reinforced Cement Concrete” Code of practice
[8]. S. Uttamraj & Dr. Rafeeq (2017) “An experimental study on M-Sand and Recron 3s Fiber for M30 Concrete” Global Journal of Engineering Science And Researches, October 2017.
[9]. G. Anisha, A. Pavani (2017) “An experimental Investigation on Effect of Fly Ash on Egg Shell Concrete” International Journal of Trend in Scientific Research and Development, May-June 2017.
[10]. Anusha Chowdary, Chaithra. N, Dr. Chethan. K (2017) “A Study on Impact of Polypropylene (Recron 3S) Fibers on Compressive and Tensile Strength of Concrete.
[11]. Monisha T, Dr. T. Bhagavathi Pushpa (2016), “Experimental Investigation on Concrete using Eggshell Powder and Polypropylene Fibre”.
[12]. Ridha Nehvi, Prashant Kumar and Umar Zahoor Nahvi (2016) “Effect of Different Percentages of Polypropylene Fibre (Recron 3s) on the Compressive, Tensile and Flexural Strength of Concrete”.
[13]. Dinesh G Shelavale, Ketan R Patil , Kalpesh R Patil, Abhijit M Bombe (2016) “testing on use of Hypo sludge and Recron 3s Fibre in Cement Concrete”.
[14]. Bhagyashri Sisode, Dr Sunil V Desale (2015) “use of Industrial Waste and Recron 3s Fiber to Improve the Mechanical Properties of Concrete”.
[15]. Anusha Suvarna, Prof .P.J. Salunke, Prof. N.G.Gore, Prof. T.N.Narkehde (2015) “Silica Fume & Ground Granulated Blast Furnace Slag as Cement Replacement in Fiber Reinforced Concrete”.
[16]. Dharani.N, Ashwini.A, Pavitha.G, PrinceArulraj.G (2013) “an Experimental Investigation on Mechanical Properties Of Recron 3s Fiber Reinforced Hyposludge Concrete”.
[17]. Ashish Kumar Dash, Mahabir Pandaa & Kishore Chandra Biswal (2011) “effect of Silica Fume on Engineering Properties of Fiber Reinforced Concrete”.
[18]. D.Gowsika, S.Sarankokila, K.Sargunan “an experimental Investigation of Egg Shell Powder as Partial Replacement with Cement in Concrete”
[19]. Properties of Concrete with Eggshell Powder as Cement Replacement Amarnath Yerramala, the Indian Concrete Journal, 2014.
[20]. Studies On Concrete Using Fly Ash, Rice Husk Ash, And Egg Shell Powder Jayasankar R.Mahindran N,Ilangovan R Journal Of Civil And Structure Engineering,2013 .
[21]. Experimental Analysis on Effective Utilization Of Industrial Waste Materials OF Egg Shell. Uma Shankar J& H. V. Balaji. 2008.
[22]. Mechanical Properties Of New Calcium Based Cement Prepared From Egg Shell. Emad F. Alkhalidi, Talal H. Alsalman, Amer A. Taqa. 2014.
[23]. Experimental Investigation of Egg Shell Powder as Partial Replacement with Cement in Concrete.D.Gowsika, S.Sarankokila, K.Sargunan.
[24]. Properties Of Concrete Using High C3s Cement With Ground Granulated Blast-Furnace Slag.Shingo Miyazawa A, Takashi Yokomuro B, Etsuo Sakai C, AtsushiYatagai D, Nobukazu Nito D, Kiyoshi Koibuchi .
[25]. Effects of Blending of Portland cement With Ground Granulated Blast Furnace. Slag On the Properties o Concrete Kamran Muzaffar Khan.
[26]. Studies on concrete using Fly ash, rice husk ash and Egg shell powder. Jayasankar. R International Journal of Civil and Structural Engineering, Vol.1, No.3, 2010
S. Satish Kumar, B. Ganesh “A Study on Mechanical Properties of Recron Fibre Reinforced Concrete by Partial Replacement of Cement with Egg Shell Powder” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.139-142 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/139-142.pdf
Exemplar Based Image Inpainting Algorithm Using Structure Tensor
Saraswati, Dr. Prashant P.Patavardhan – June 2018 – Page No.: 143-148
Image inpainting is a technique to fill the missing area in the image, to recover the damaged area in the image and to remove unwanted area in the image in an undetectable way. After applying inpainting method to an image the output image should look like original image and The viewer should feel that the image is never altered before. In this paper the proposed algorithm is based on image structure tensor to tackle the problems of criminisi’s algorithm. Image gradients with image structure have been employed to help image structure detection. Performance analysis of the structure tensor is shown in result section comparing with crimnisi’s algorithm by using PSNR and SSIM and also the runtime of the both algorithms.
Page(s): 143-148 Date of Publication: 05 July 2018
Saraswati
Department of Electronics and Communication Engineering, KLS Gogte Institute of Technology, Belagavi, Karnataka, India
Dr. Prashant P.Patavardhan
Department of Electronics and Communication Engineering, KLS Gogte Institute of Technology, Belagavi, Karnataka, India
[1]. Yu, Bing, and Youdong Ding. “Exemplar-based Image Inpainting via Fast Global Optimal Searching.”IEEE 2017
[2]. Krishnamurthy, Vidya, and Senthilkumar Mathi. “An enhanced method for object removal using exemplar-based image inpainting.” Computer Communication and Informatics (ICCCI), 2017 International Conference on. IEEE, 2017.
[3]. Siadati, S. Zahra, Farzin Yaghmaee, and Peyman Mahdavi. “A new exemplar-based image inpainting algorithm using image structure tensors.” Electrical Engineering (ICEE), 2016 24th Iranian Conference on. IEEE, 2016.
[4]. Liu, Ying, et al. “A Novel Exemplar-Based Image Inpainting Algorithm.” Intelligent Networking and Collaborative inpainting.” IEEE Transactions on image processing 13.9 (2004): 1200-1212. Systems (INCOS), 2015 International Conference on. IEEE, 2015.
[5]. Qian, Fan, Zhang Lifeng, and Hu Xuelong. “Exemplar-based image inpainting algorithm using adaptive sample and candidate patch system.” Electronic Measurement & instruments (ICEMI), 2015 12th IEEE International Conference on. Vol. 3. IEEE, 2015.
[6]. Criminisi, Antonio, Patrick Pérez, and Kentaro Toyama. “Region filling and object removal by exemplar-based image
[7]. Patel, Jayesh, and Tanuja K. Sarode. “Exemplar based image inpainting with reduced search region.” International Journal of Computer Applications 92.12 (2014).
[8]. Bhangale, Miss SC, and Asst Prof PR Thorat. “Image Inpainting Using Modified Exemplar-Based Method.” (2016).
[9]. Vantigodi, Suraj, and R. Venkatesh Babu. “Entropy constrained exemplar-based image inpainting.” Signal Processing and Communications (SPCOM), 2014 International Conference on. IEEE, 2014.
[10]. Akl, Adib, Edgard Saad, and Charles Yaacoub. “Structure-based image inpainting.” Image Processing Theory Tools and Applications (IPTA), 2016 6th International Conference on. IEEE, 2016.
[11]. Salman, R. Bombaywala Md, and Chirag N. Paunwala. “Semi automatic image inpainting using partial JSEG segmentation.” Inventive Systems and Control (ICISC), 2017 International Conference on. IEEE, 2017.
[12]. Chhabra, Jaspreet Kaur, and Mr Vijay Birchha. “Detailed survey on exemplar based image inpainting techniques.” International Journal of Computer Science and Information Technologies 5.5 (2014): 6350-635.
[13]. Jurio, Aranzazu, et al. “Image inpainting using colour and gradient features.” Fuzzy Systems Association and 9th International Conference on Soft Computing and Intelligent Systems (IFSA-SCIS), 2017 Joint 17th World Congress of International. IEEE, 2017.
[14]. Xu, Zhongyu, Xiaoli Lian, and Lili Feng. “Image inpainting algorithm based on partial differential equation.” Computing, Communication, Control, and Management, 2008. CCCM’08. ISECS International Colloquium on. Vol. 1. IEEE, 2008
Saraswati, Dr. Prashant P.Patavardhan “Exemplar Based Image Inpainting Algorithm Using Structure Tensor” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.143-148 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/143-148.pdf
Fuzzy Logic Based Fault Diagnosis of Induction Motor Using MATLAB
Mahadev Kokare, J.O.Chandle, Rahul Kavathe, Mayur Deokar – June 2018 – Page No.: 149-152
This paper represents a fault diagnosis method based on fuzzy inference system. The study of induction motors is becoming increasingly paramount. The main trouble in this task is the lack of a precise analytical model to describe a faulty motor. A fuzzy logic approach may avail to diagnose induction motor faults. Due to the perpetual running nature of induction motor more advanced techniques are required to opportunely quantify their impact. This paper proposes the utilization of fuzzy logic to analyze, compare & diagnose health condition of induction motor under sundry faults.
Page(s): 149-152 Date of Publication: 05 July 2018
Mahadev Kokare
Student M. Tech Electrical Control System, Department of Electrical Engineering, VJTI, Mumbai, India
J.O.Chandle
Professor, Department of Electrical Engineering, VJTI, Mumbai, India
Rahul Kavathe
Student M. Tech Electrical Control System, Department of Electrical Engineering, VJTI, Mumbai, India
Mayur Deokar
Student M. Tech Electrical Power System, Department of Electrical Engineering, VJTI, Mumbai, India
[1] D.ASurwase, A.S Jalit, M.D Chavan, “Fault Detection and Protection of Induction Motor Using Fuzzy Logic” IEEE International Conference on Innovations in Electrical, Electronics, Instrumentation and Media Technology ICIEEIMT 17 pp 66-70.
[2] Mr. Chavan Mayur D, Mr. Swami P.S, Dr. Thosar A.G, Mr. Gharase Rajendra B, “Fault Detection of Induction Motor Using Fuzzy Logic” International Journal of Engineering Research & Technology (IJERT) Vol. 2 Issue 12, December – 2013 pp 2672-2679.
[3] Mini V.P., Dr.S. Ushakumari, “Incipient Fault Detection And Diagnosis of Induction Motor Using Fuzzy Logic” IEEE 2011 pp 675-681.
[4] V.P. Mini, and Dr. S.Ushakumari,“Fault Detection and Diagnosis an Induction Motor using Fuzzy Logic” Proceedings of the IEEE Region 8International Conference on Computational Technologies in Elect, andElectronics Engineering (SIBIRCON), July 2010, pp. 459- 464.
[5] P.C. Krause, O. Wasynczuk, S.D. Sudhoff, “Analysis of ElectricMachinery, “IEEE Press, New York, 1996.
[6] ArfatSiddique, G. S. Yadava,Bhim Singh “ A review of stator Fault monitoring techniques of induction motor” IEEE Transactions on Energy Conversion, Vol. 20, No. 1, March 2005.
[7] Dr. P.S. Bimbra, “Power Electronics”, Khanna publications, Fourth edition 2012.
[8] MATLAB-R2017a
Mahadev Kokare, J.O.Chandle, Rahul Kavathe, Mayur Deokar “Fuzzy Logic Based Fault Diagnosis of Induction Motor Using MATLAB” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp. 149-152 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/149-152.pdf
ANFIS Based Speed Control of BLDC Motor with Bidirectional DC-DC Converter
Rahul Kavathe, Jayalaxmi O. Chandle, Nikhil Patil, Mahadev Kokare – June 2018 Page No.: 153-158
In this paper we have designed Adaptive Neuro fuzzy Inference System (ANFIS) controller for the speed control of bidirectional brushless DC motor (BLDC).The fuzzy models under the framework of adaptive networks are called Adaptive-Neuro Fuzzy Inference System. The ANFIS controller is used in three phase BLDC Motor drive system to control the four quadrants operations without loss of power. In this process energy is conserved during the regenerative period and storage of excess energy in battery takes place during regenerative braking. The bidirectional DC-DC converter is used for the battery charging and discharging purpose. The bidirectional dc-dc converter can be operated in buck-boost mode. The stored energy in the battery provides power to the BLDC motor in motoring mode, while during regenerative braking mode the energy is fed back to the source by the same bidirectional buck-boost converter. The simulation will be done for Brushless DC motor with ANFIS controller using MATLAB/Simulink software the effectiveness of the proposed ANFIS controller is compared with that of thefuzzy controller.
Page(s): 153-158 Date of Publication: 06 July 2018
Rahul Kavathe
Student M.Tech Electrical Control System, Department of Electrical Engineering, VJTI, Mumbai, India
Jayalaxmi O. Chandle
Professor Department of Electrical Engineering, VJTI, Mumbai, India
Nikhil Patil
Student M.Tech Electrical Control System, Department of Electrical Engineering, VJTI, Mumbai, India
Mahadev Kokare
Student M.Tech Electrical Control System, Department of Electrical Engineering, VJTI, Mumbai, India
[1]. Lin, Chang-Hua, Hom-Wei Liu, and Chien-Ming Wang.”Design and implementation of a bi-directional power converterfor electric bike with charging feature.” Industrial Electronicsand Applications (ICIEA), 2010 the 5th IEEE Conference on IEEE, 2010
[2]. RajanKumar, Bhim Sing,“Buck Boost Converter Fed BLDCMotor Drive for Solar PV Array Based Water Pumping” IEEEInternational Conference on Power Electronics Drives andEnergy System (PEDES).
[3]. Arulmozhiyal R.,”Design and implementation of fuzzy PIDcontroller for BLDC motor using FPGA.” Power Electronics Drives and Energy Systems (PEDES), 2012 IEEE InternationalConference on. IEEE, 2012.
[4]. Gupta, Gaurav, and Prerna Gaur,”Fuzzy logic controlled powerfactor corrected bridgeless buck boost converter-fed brushlessDC motor drive”Computer, Communication and Control (IC4),2015 International Conference on. IEEE, 2015
[5]. Atul Kumar, Dr. Prerna Gaur, “Bidirectional DC/DC Converterfor Hybrid Electric Vehicle” IEEE Transactions on Advances inComputing, Communications and Informatics (ICACCI),P.P839-843,sep 2014
[6]. Jyh Shing Roger Jang,“ANFIS : Adaptive Network Based Fuzzy Inference System”, IEEE Transactions on System, Man, And Cybernetics, Vol.23, No.3, Pp.665-685,1993.
[7]. Joice, C. Sheeba, and P. Nivedhitha,”Simulation of speedcontrol of brushless dc motor, with fuzzy logic controller.”2016 Online International Conference on Green Engineering and Technologies (IC-GET)International Journal of Electrical, Electronics and DataCommunication, ISSN: 2320-2084.
[8]. Kamal, Md Mustafa, Lini Mathew, and S.Chatterji,”Speedcontrol of Brushless DC Motor using fuzzy based controllers.”Electrical, Electronics and Computer Science (SCEECS), 2014IEEE Students’ Conference on. IEEE, 2014.
[9]. Awaze, Sneha K. “Four quadrant operation of BLDC motor inMATLAB/SIMULINK.” Computational Intelligence andCommunication Networks (CICN), 2013 5th InternationalConference on. IEEE, 2013
[10]. Sreekala, P., and A. Sivasubramanian,”Speed control ofbrushless DC motor with PI and fuzzy logic controller using resonantpole inverter.”Innovative Smart Grid Technologies-India (ISGT India), 2011 IEEE PES. IEEE, 2011
[11]. Sriram, J., and K. Sureshkumar,”Speed control of BLDC motorusing fuzzy logic controller based on senseless technique.”Green Computing Communication and Electrical Engineering(ICGCCEE), International Conference on. IEEE, 2014.
[12]. Blessy, M. S., and M. Murugan,”Modeling and controlling ofBLDC motor based fuzzy logic.” Information Communicationand Embedded Systems (ICICES), 2014 InternationalConference on. IEEE, 2014.
[13]. Ananthababu.B. Dr Ganesh C. Pavithra c.v. “Fuzzy Based Speed Control Of BLDC Motor With Bidirectional DC-DC Converter” 2016 online international conference on Green Engineering and Technologies (IC-GET)
[14]. V.M.Varatharaju,B.L.Mathur,K.U.Udhayakumar “ANFIS Based Controllers and Modelling simulation of PMBLDC Motor and Drive System”Chennai and Dr.MGR University Second International Conference on Sustainable Energy and Intelligent System (SEISCON 2011)
Rahul Kavathe, Jayalaxmi O. Chandle, Nikhil Patil, Mahadev Kokare “ANFIS Based Speed Control of BLDC Motor with Bidirectional DC-DC Converter” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.153-158 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/153-158.pdf
Application of Analytic Hierarchy Process in Decision Making in Sri Lankan Context with Special Reference to Site Selection for Dedicated Economic Centre of the Northern Province
S. Mathivathany – June 2018 – Page No.: 159-167
Historically, Northern Province has been a vibrant economic hub, with an educated population and an entrepreneurial workforce. But the people have faced numerous hardships over the years. Many have left due to the conflict, and there is a sizeable group living in vulnerable condition. Conflict has severely curbed economic activity too, with production falling sharply in all crops and manufacturing output also dropping. There are no signs of recovery and the take-off in GDP of the Northern Province. Many credits this to the strong tripartite efforts by government, chambers of commerce and private businesses. The setting up of Dedicated Economic Centers (DECs) was started in 1998 in Sri Lanka, as means of implementing marketing development strategy to provide marketing facilities for producers in the rural areas. Recently, the DEC for Northern Province is a problematic aspect for suitable site selection for the construction activity. Developmental Officers, Public and Politicians are discussing this in different ways but no one did do any proper research and analysis for the suitable site selection. However, the constructions activities have started at Mathakuvaithakulam in Vavuniya District but people are opposing against for this site selection for the construction. Therefore, the researcher applied the Analytic Hierarchy Process (AHP) analysis method for the appropriate site selection for the DEC for Northern Province. The main objective of this study is to identify the suitable site for the DEC for Northern Province using AHP technique by reporting criteria to indicate important aspects with multi-criteria decision analysis method. According to ultimate synthesis results, the Maankulam was selected as a most appropriate site with the 0,235 performance score compared with other three areas. This model and priority area could be used for the decision making among a larger outline of the problems. Development officers and decision makers should be considered this type of analysis and result for the site selection and implementation of the projects.
Page(s): 159-167 Date of Publication: 06 July 2018
S. Mathivathany
Lecturer in Project Management, Department of Economics and Management, Faculty of Business Studies,Vavuniya Campus of the University of Jaffna, Sri Lanka
[1]. Saaty, T. L. (1988). The Analytic Hierarchy Process, New York: McGraw Hill.
[2]. Saaty, T. L. (2001). Decision Making for Leadhers. Pittsburgh: RWS Publications.
[3]. Saaty, T. L. (2006). Fundamentals of Decision Making and Priority Theory (Second ed. Vol. 6).
[4]. Dikmen, I. Birgonul, M. T. 2006. An analytic hierarchy process based model for risk and opportunity assessment of international construction projects, Canadian Journal of Civil Engineering 33: 58–68.
[5]. Mansouri, S.A. Moattar Husseini, S.M. Newman, S.T. 2000. A review of the modern approaches to multi criteria cell design, International Journal of Production Research 38(5): 1201–1218.
[6]. Barzilai J, FA Lootsma (1997). Power relations and group aggregation in the multiplicative AHP and SMART. Journal of Multi-Criteria Decision Analysis 6, 155-165.
[7]. Saaty TL (1980). “The Analytical Hierarchy Process, Planning, Priority, Resource Allocation”. RWS Publications, USA.
[8]. Schoner B, W Wedley, EU Choo (1993). A unified approach to AHP with linking pins. European Journal of Operational Research , 384- 392.
[9]. Dyer J (1990). A clarification of ‘Remarks on the Analytic Hierarchy Process’. Management Science 36, 274-275.
[10]. Forman E (1990). AHP is intended for more than expected value calculation S. Decision Sciences 36, 671–673.
[11]. Leung L, D Cao (2001). On the efficacy of modeling multi-attribute decision problems using AHP and Sinarchy. Eur. J. Operational Res. 132 , 39-49.
[12]. Lootsma F (1993). Scale sensitivity in the multiplicative AHP and SMART. Journal of Multi-Criteria Decision Analysis 2, 87-110.
[13]. Mianabadi H, Afshar A (2007). “Fuzzy group Decision Making and its Application in water Resource Planning and Management” Oral Presentation Iran Water Resource Management Conference, January 12-13, Isfahan, Iran.
[14]. Millet I, T Saaty (2000). On the relativity of relative measures – accommodating both rank preservation and rank reversals in the AHP. European Journal of Operational Research 121, 205–212.
[15]. Ramanathan R (2006). Data envelopment analysis for weight derivation and aggregation in the analytic hierarchy process. Computers and Operations Research 33, 1289-1307.
[16]. Stewart T (1992). A critical survey on the status of multiple criteria decision making theory and practice. Omega 20, 569–586.
[17]. Vargas L (1994). Reply to Schenkerman’s avoiding rank reversal in AHP decision support models. European Journal of Operational, 420–425.
[18]. Wang RC, Liang TF (2004). ‘‘Application of fuzzy multi-objective linear programming to aggregate production planning’’, Computers and Industrial Engineering, 46, pp. 17.
[19]. Barzilai J, W Cook, B Golany(1987). Consistent weights for judgment matrices of the relative importance of alternatives. Operations Research Letters 6 , 131-134.
[20]. Mianabadi H, Afshar A (2008). ”Multi attribute Decision Making to rank urban water supply Scheme” water and watershed journal, v19, n66, pp 34 – 45.
[21]. Watson S, A Freeling (1982), Assessing attribute weights. Omega, 10, 582– 583.
S. Mathivathany “Application of Analytic Hierarchy Process in Decision Making in Sri Lankan Context with Special Reference to Site Selection for Dedicated Economic Centre of the Northern Province” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp.159-167 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/159-167.pdf
Different Inventory Management Model
Laveena Vaz & Dr. Akshay Damani – June 2018 – Page No.: 168-173
I. INVENTORY
Inventory is the most important asset of the organization. It consists of more than 50% of the total working capital. Inventory consists of raw materials, work-in-process and completely finished goods which are company’s current asset that are ready or will be ready for sale. Inventory is one of the most important assets as it is the main source of revenue generation.
In other words it is the value of the goods & raw materials held by a firm to support the production process or for service activities like repair or maintenance or for sale to the ultimate consumer.
Page(s): 168-173 Date of Publication: 09 July 2018
Laveena Vaz
Russell Square International College, Mumbai, Maharashtra, India
Dr. Akshay Damani
Russell Square International College, Mumbai, Maharashtra, India
[1]. Cost Accounting Charles T. Horngren and Srikant M. Datar chapter 20 thirteen edition
[2]. gigatrak.com/inventory-tools/
[3]. kczx.whu.edu.cn/G2S/Utility/download2 Chapter 7 Inventory model
[4]. mca.gov.in/Ministry/notification
[5]. Optimization and Operations Research – Vol. IV – Inventory Models – Waldmann K.-H eolss.net/sample-chapters/c02/e6
[6]. Pearson Education, Inc. publishing as Prentice Hall 2013 chapter 12 Inventory control models
[7]. purchasing and procurement center.com Inventory management tool
[8]. wikipedia.org/wiki/Inventory theory
Laveena Vaz & Dr. Akshay Damani “Different Inventory Management Model” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp. 168-173 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/168-173.pdf
Study and Empirical Modeling Relating Welding Parameters and Mechanical Properties of Metal Inert Gas Welded SS304 and C28 Plate
Rakesh Baranwal, Om Prakash Tiwari, Sandeep Kumar Gupta, Vivek Naraian – June 2018 – Page No.: 174-177
The present work deals with optimization of welding process variables by using regression analysis. Stainless Steel AISI SS304 was welded to AISI C-28 carbon steel using a metal inert gas welding which also known as gas metal arc welding with the help of filler wire of stainless steel. The effect of welding current, welding speed and gas flow rate has been evaluated on the Tensile Strength, of the butt weld bead deposited. These responses have been analyzed using the analysis of variance (ANOVA) and empirical modeling. Plots of significant factors and empirical modeling have been used to determine the best fit relationship between the responses and the model parameters using MINITAB 15. This has been used to determine which is the most influencing factor or parameter. The weld tensile strength has been found to increase with decrease of welding current and gas flow rate.
Page(s): 174-177 Date of Publication: 09 July 2018
Rakesh Baranwal
Department of Mechanical Engineering, GIMT, Lucknow, Uttar Pradesh, India
Om Prakash Tiwari
Department of Mechanical Engineering, GIMT, Lucknow, Uttar Pradesh, India
Sandeep Kumar Gupta
Department of Mechanical Engineering, BBDEC, Lucknow, Uttar Pradesh, India
Vivek Naraian
Department of Mechanical Engineering, BBDNITM, Lucknow, Uttar Pradesh, India
[1]. Prakash Ahirwar et al. “Welding is an efficient and economical method for joining of metals
[2]. K Srinivasan, V Balasubramanian, “Effect of Heat Input on Fume Generation and Joint Properties of Gas Metal Arc Welded Austenitic Stainless Steel” ,2011
[3]. Ajit Hooda, Ashwani Dhingra and Satpal Sharma “optimization of mig welding process parameters to predict maximum yield strength in AISI 1040”, 2012
[4]. Padmanaban G and Balasubramanian V, “optimization of laser beam welding process parameters to attain maximum tensile strength IN AZ31B Magnesium alloy”, 2010.
[5]. Radha Raman Mishra et al. “A study of tensile strength of MIG and TIG welded dissimilar joints of mild steel and stainless steel” 2014.
[6]. J.C. Lippold & D.J. Kotechki, “Welding metallurgy and weldability of stainless steels” John Wiley and Sons, New Jersey, 2005.
[7]. H T Lee & S L Jeng, “Characteristics of dissimilar welding of alloy 690 to304L stainless steel”, Sci Technol Weld Joining, 2001.
[8]. Milind M. Ghogale & Prof. S.A.Patil, “Optimisation of process parameters of MIG welding to Improve Quality of weld by using Taguchi Methodology” 2013.
Rakesh Baranwal, Om Prakash Tiwari, Sandeep Kumar Gupta, Vivek Naraian “Study and Empirical Modeling Relating Welding Parameters and Mechanical Properties of Metal Inert Gas Welded SS304 and C28 Plate” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp. 174-177 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/174-177.pdf
Design and Performance Analysis of a Three Way Catalytic Converter
Nitin Rathod, Rohan Panage, Prof. W. S. Rathod – June 2018 – Page No.: 178-183
The world is being aware of the pernicious effects of the unwanted and unavoidable parameter like exhaust emission from automobiles and the need to control them. Presently, Three-Way Catalytic Converter (TWC) is an important after treatment device to reduce damaging engine exhaust emissions. Platinum group metals well known as non-noble metals have shown greater pollution-control capability, but due to cost considerations, these metals are used in lesser quantities. This dissertation focuses on controlling the automobile emissions using the combination of nano-particles of non-noble metal i.e. Ruthenium Catalyst to better level. In recent years, use of nano technology in the field of energy, environment, medical and information technologies has been rapidly increased due to the interesting physical and chemical properties of the nano materials arising from the quantum size effect which is remarkably different from those in bulk samples. Numbers of experimentations have been made by many researchers using NPs of various catalyst materials and analyzed for their effect on the TWC and the results have reported remarkable enhancement in the performance of TWC. So it becomes important to review the various methods of NPs preparations synthesis and their effect on the properties of the materials and characterization of the NPs for evaluation of various properties of the same. The TWC model is developed for Tata Indica Four Stroke Four Cylinder Diesel Engine of 1405 cc capacity. Space velocity was found an important consideration while designing TWC. The use of non-noble metal catalysts for the developed model of TWC has shown 12.66 to 63.67 % control over CO emissions, 3.66 to 56.58 % over HC emissions and 12.35 to 29.64%over NO emissions.
Page(s): 178-183 Date of Publication: 09 July 2018
Nitin Rathod
PG Scholar, Department of Mechanical Engineering, Veermata Jijabai Technological Institute, Mumbai – 400 019, Maharashtra, India
Rohan Panage
PG Scholar, Department of Mechanical Engineering, Veermata Jijabai Technological Institute, Mumbai – 400 019, Maharashtra, India
Prof. W. S. Rathod
Assistant Professor, Department of Mechanical Engineering, Veermata Jijabai Technological Institute, Mumbai – 400 019, Maharashtra, India
[1]. C. Syed Aalam, C. G. Saravanan and C. Mohamed Samath, “Reduction of Diesel Engine Emissions using Catalytic Converter with Nano Aluminium Oxide Catalyst”, International Journal for Research in Emerging Science and Technology, Volume 02, Issue 07, July-2015.
[2]. Narendrasinh R. Makwana, Chirag M. Amin and Shyam K. Dabhi, “Development and Performance Analysis of Nickel Based Catalytic Converter”, International Journal of Advanced Engineering and Technology, Volume IV, Issue II, pp. 17-22, April-2013.
[3]. Jay M. Parmar and Keyur D. Tandel, “Performance Analysis of Limestone Coated Wiremesh Catalytic Converter for Emission Control of C. I. Engine”, International Journal for Scientific Research and Development, Volume 1, Issue 11, pp. 10-13, 2014.
[4]. Chirag Amin and Pravin P. Rathod, “Catalytic Converters Based on Non-Noble Material”, International Journal of Advanced Engineering Research and Studies, Volume I, Issue II, pp. 2377-2380, January 2012.
[5]. Rajesh B. Biniwale, Moqtik A. Bawase, M. M. Deshmukh, N. K. Labhsetwar, R. Kumar and M. Z. Hasan, “Production of Automotive Catalytic Converter Based on Non-Noble Metal Catalyst Technology: A Feasible Option”, Journal of Scientific & Industrial Research, Volume 60, pp. 728-734, September 2001.
[6]. D. Pham Minh, Y. Oudart, B. Baubet, C. Verdon and C. Thomazeau, “Nanostructured Heterogeneous Catalysts: Well Defined Platinum Nanoparticles Supported on Alumina”, Oil & Gas Science Technology, Volume 64, pp. 697-706, 2009.
[7]. Deshai Botheju, Peter Glarborg and Lars-Andre Tokheim, “The Use of Amine Reclaimer Wastes as a NOx Reduction Agent”, Elsevier Publication, Volume 37, pp. 691-700, 2013.
[8]. Said Laassiri, Constantinos D. Zeinalipour-Yazdi, C. Richard A. Catlow and Justin S.J. Hargreaves, “Nitrogen transfer properties in tantalum nitride based materials”, Elsevier Publication, 2016.
[9]. Hussanai Sukkathanyawat, Sabaithip Tungkamani, Monrudee Phongaksorn, Tanakorn Rattana, Phavanee Narataruks and Boonyawan Yoosuk, “Promoter Effect on the Physico-Chemical Properties of Cobalt Based Catalyst for CO Hydrogenation”, Elsevier Publication, Volume 79, pp.372-377, 2015.
[10]. Chetan Chaudhari, Vaibhav Jogdand and Kartik Chikhaikar, “Exhaust Emission Control By Using Copper Plate And Ammonia Solution”, International Journal Of Engineering Sciences & Research Technology, Vol. 05, Issue 03, pp.752-762, 2016.
[11]. Qiang Dong, Shu Yin, Chongshen Guo and Tsugio Sato,“Aluminum-Doped Ceria-Zirconia Solid Solutions with Enhanced Thermal Stability and High Oxygen Storage Capacity”, Springer Publication, 2012.
[12]. Jonathan E. Etheridge and Timothy C. Watling, “The Effect of Pt:Pd Ratio on Light-Duty Diesel Oxidation Catalyst Performance: An Experimental and Modelling Study”, SAE International Journals, Volume 08, Issue 03, pp. 1283-1299, 2015.
[13]. Angus Craig, Jason Warkins, Krishna Aravelli, David Moser, Lucy Yang, Douglas Ball, Tinghong Tao and Deven Ross, “Low Cost LEV-III, Tier-III Emission Solutions with Particulate Control using Advanced Catalysts and Substrates”, SAE International Journals, Volume 09, Issue 02, pp. 1276-1288, June 2016.
[14]. Julie Pardiwala, Femina Patel and Sanjay Patel, “Review Paper on Catalytic Converter for Automotive Exhaust Emission”, International Conference on Current Trends in Technology, NUiCONE-2011.
[15]. Kathleen C. Taylor, “Automobile Catalytic Converters”, Springer- Verlag, Berlin, Heidelberg, ISBN – 13: 978-3-540-13064-2, 1984.
[16]. Hans Bode, “Material Aspects in Automotive Catalytic Converters”, Wiley-VCH Verlag GmbH &Co., ISBN: 3-527-30491-6, 2002.
[17]. Hyeon Ung Shin, Dinesh Lolla, Zhorro Nikolov and George G. Chase, “Pd–Au nanoparticles supported by TiO2 fibers for catalytic NO decomposition by CO”, Journal of Industrial and Engineering Chemistry, Elsevier Publication, Vol. 33, pp.91-98, 2016.
[18]. Mariam Ameen, Mohammad Tazli Azizan, Anita Ramli, Suzana Yusup and Madiha Yasir, “Physicochemical Properties of Ni-Mo/γ-Al2O3 Catalysts Synthesized via Sonochemical Method”, 4th International Conference on Process Engineering and Advanced Materials, Elsevier Publication, Vol. 148, pp. 64-71, 2016.
[19]. R. M. Bagus Irawan, P. Purwanto and H. Hadiyanto, “Optimum Design of Manganese-Coated Copper Catalytic Converter to Reduce Carbon Monoxide Emissions on Gasoline Motor”, International Conference on Tropical and Coastal Region Eco-Development, Elsevier Publications, Vol. 23, pp. 86-92, 2014.
[20]. Afzal Shah, Latif-ur-Rahman, Rumana Qureshi and Zia-ur-Rehman , “Synthesis, Characterization And Applications Of Bimetallic (Au-Ag, Au-Pt, Au-Ru) Alloy Nanoparticles”, International journal of Advanced Materials and Science, Vol. 30, pp. 133-149, 2012.
[21]. Kikuo Okuyama and Wuled Lenggoro,“Nanoparticle Preparation and Its Application – A Nanotechnology Particle Project in Japan”,Proceedings of the 2004 International Conference on MEMS, NANO and Smart Systems (ICMENS’04), IEEE Publications, pp. 1-4, 2004.
[22]. K.N. Lin, W.J. Liou, T.Y. Yang, H.M. Lin, C.K. Lin, S.H. Chien, W.C. Chen and S.H. Wu, “Synthesis of hybrid Pt/TiO2 (anatase)/MWCNTs nanomaterials by a combined sol–gel and polyol process”, Diamond and Related Materials, Elsevier Publications, Vol. 18, pp. 312-315, 2009.
[23]. Hideki Abe, Jia Liu and Katsuhiko Ariga, “Catalytic nanoarchitectonics for environmentally compatible energy generation”, Materials Today, Elsevier Publication, Vol. 19, pp. 12-17, 2016.
[24]. Aruna Jyothi Kora and Lori Rastogi, “Green synthesis of palladium NPs using gum ghatti (Anogeissus latifolia) and its application as an antioxidant and catalyst”, Arabian Journal of Chemistry, Elsevier Publications, 2015.
[25]. D. Chaitanya Kumar Rao, Narendra Yadav and Puran Chandra Joshi, “Cu–Co–O nano-catalysts as a burn rate modifier for composite solid propellants”, Defence Technology, Elsevier Publications, Vol. 12, pp. 297-304, 2016.
[26]. R. M. Rioux, H. Song, J. D. Hoefelmeyer, P. Yang and G. A. Somorjai, “High-Surface-Area Catalyst Design: Synthesis, Characterization, and Reaction Studies of Platinum NPs in Mesoporous SBA-15 Silica”, Journal of Physical Chemistry, American Chemical Society, Vol. 109, pp. 2192-2202, 2005.
[27]. Carlo Perego and Pierluigi Villa, “Catalyst preparation methods”, Catalysis Today, Elsevier Publications, Vol. 34, pp. 281-305, 1997.
[28]. G. Leofanti, G. Tozzola, M. Padovan, G. Petrini, S. Bordiga and A. Zecchina, “Catalyst characterization: characterization techniques”, Catalysis Today, Elsevier Publications, Vol. 34, pp. 307-327, 1997.
[29]. Mostafa Feyzi, Mohammad Mehdi Khodaei and Jahangir Shahmoradi, “Preparation and characterization of promoted Fe-Mn/ZSM-5 nano catalysts for CO hydrogenation”, International Journal of Hydrogen Energy, Elsevier Publications, 2015.
[30]. Mahmood Aliofkhazraei, “Handbook of Nano Particles”, Springer International Publishing, Switzerland 2016, ISBN 978-3-319-15337-7.
[31]. Luigi Russo, Francesco Colangelo, Raffaele Cioffi, Ilaria Rea and Luca De Stefano, “A Mechanochemical Approach to Porous Silicon NPs Fabrication”, Journal of Materials, Vol. 4, pp. 1023-1033, 2011, ISSN 1996-1944.
[32]. R.S. Amin, A.A. Elzatahry, K.M. El-Khatib and M. Elsayed Youssef, “Nanocatalysts Prepared by Microwave and Impregnation Methods for Fuel Cell Application”, International Journal of Electrochemical Science, Vol. 6, pp. 4572 – 4580, 2011.
[33]. Satoshi Horikoshi and Nick Serpone, “Microwaves in Nanoparticle Synthesis”, First Edition, Wiley-VCH Verlag GmbH & Co. KGaA, 2013.
[34]. Beatriz Roldan Cuenya, “Synthesis and catalytic properties of metal NPs: Size, shape, support, composition, and oxidation state effects”, Journal of Thin Solid Films, Elsevier Publications, Vol. 518, pp. 3127–3150, 2010.
Nitin Rathod, Rohan Panage, Prof. W. S. Rathod “Design and Performance Analysis of a Three Way Catalytic Converter” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp. 178-183 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/178-183.pdf
Enhancement in Integrated Design of Adaptive Cruise Control System and Role of PID
Abhijit Pandhare, Akash Mahalle, Suraj Nawale, Prof. R.N. Awale – June 2018 – Page No.: 184-186
A system that supports a driver in traffic situations and reduces the total driver workload is a growing research topic. Several of these support systems aim toward full or partial automatic driver assistance, such as those for longitudinal control that are often called Adaptive Cruise Control (ACC) systems. Adaptive cruise control distinguishes itself from cruise control in its use of sensors that measure the headway distance and a controller which adjusts the velocity and distance to the vehicle in front. Adaptive cruise control requires appropriate sensor technology, actuators and control devices and its system design requires data acquisition, control system design and validation procedures. The motivation for these systems is that they aim at increasing the driving comfort, reducing traffic accidents and increasing the traffic flow throughput. The ACC systems autonomously adjust the vehicle’s speed according to current driving conditions. In order to accomplish driver comfort the system must resemble driver behaviour in traffic. Simulation results prove the utility of the system.
Page(s): 184-186 Date of Publication: 09 July 2018
Abhijit Pandhare
PG Scholar, Department of Electrical Engineering, VJTI, Mumbai, Maharashtra, India
Akash Mahalle
PG Scholar, Department of Electrical Engineering, VJTI, Mumbai, Maharashtra, India
Suraj Nawale
PG Scholar, Department of Electrical Engineering, VJTI, Mumbai, Maharashtra, India
Prof. R.N. Awale
Associate Professor, Department of Electrical Engineering, VJTI, Mumbai, Maharashtra, India
[1] Cruise control. (2017, December 9). In Wikipedia, The Free Encyclopae-dia. Retrieved 10:25, January 1, 2018, from https://en.wikipedia.org/w/ index.php?title=Cruise_control&oldid=814564266
[2] Y. Shao, Z. Sun, “Robust eco-cooperative cruise control with gear shifting”,in 2017 American Control Conference,USA.
[3] Kadir HASPALAMUTGIL, Erkan ADALI,“Adaptive Switching Method for Adaptive Cruise Control” 2017 21st International Conference on System Theory, Control and Computing (ICSTCC)
[4] Wonhee Kim, Chang Mook Kang “Vehicle Path Prediction Using Yaw Acceleration for Adaptive Cruise Control” IEEE TRANSACTIONS ON INTELLIGENT TRANSPORTATION SYSTEMS
[5] L. Luo, J. Chen, F. Zhang, “Integrated adaptive cruise control design considering the optimization of switching between throttle and brake” in 2016 IEEE Intelligent Vehicles Symposium(IV),Sweden
[6] D. Hong,C. Park, Y Yoo, S. Hwang, “Advanced smart cruise control withsafety distance considered road friction coefficient”, 2016 International Journal of Computer Theory and Engineering, Vol. 8, No. 3
[7] Taku T.,Daisuke A.“Model Predictive Control Approach to Design Practical Adaptive Cruise Control for Traffic Jam” Society of Automotive Engineers of Japan
[8] Jiangchao Shi, Jian Wu, “Research on adaptive cruise control based on curve radius prediction”, 2017 2nd International Conference on Image, Vision and Computing.
[9] P. Saravanan, M.Anbuelvi, “Design of an enhanced ACC for collision detection and prevention using RTOS”, 2009 International Conference on Advances in Computing, Control and Telecommunication Technologies.
[10] Karl Johan Åström, 2002. Control System Design, chapter6.
Abhijit Pandhare, Akash Mahalle, Suraj Nawale, Prof. R.N. Awale “Enhancement in Integrated Design of Adaptive Cruise Control System and Role of PID” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp. 184-186 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/184-186.pdf
A Study on Asset and Liability Management of Star PVC Pipes and Fittings P Ltd
Dr. Salini B Nair, Rehana Cross K – June 2018 – Page No.: 187-193
Asset and Liability Management is used to balance the assets and liabilities of the organization. Asset and liability management is an ongoing process of formulating, implementing, monitoring and revising strategies related to assets and liabilities with an attempt to achieve financial objectives for a given set of risk tolerances and constraints. The company tries to keep proper balance between the assets and liabilities and increasing the growth and profitability. This study is conducted to analyze the asset and liability management with regarding the following variables such as profitability and liquidity position of STAR PVC pipes and fittings. Here the company wants to know whether these assets and liabilities are managed efficiently or not.
Page(s): 187-193 Date of Publication: 10 July 2018
Dr. Salini B Nair
Associate Professor, Dept of Management Studies, Institute of Management & Technology, Pottore, Kerala,
Rehana Cross K
Management Student, Institute of Management & Technology, Pottore, Kerala, India
JOURNALS
[1]. Salvin Surjith FP,N. Sathyanarayana (2004)3, studied that asset and liability management in ICICI bank
[2]. Mr. Chetan Shetty, Ms. Pooja Patel, Ms. Nandini (2016)6, an Analysis of Private Banks Exposure to Asset Liability Management
[3]. P. Sheela, Tejaswini Bastray (2015)8, studied that Asset-Liability-Management– a Comparative Study of a Public and Private Sector Bank
BOOKS
[4]. C.R Kothari; Research Methodology; New Age International Publishers, New Delhi, 2nd Edition 1999.
[5]. M.Y Khan- P.K Jain; Management Accounting; Tata Mc Graw-Hill Publishing co. Ltd, 3rd Edition.
[6]. R.K. Sharma and Shashi k. Gupta; Management Accounting Principles and Practice; Kalyani Publishers.
[7]. S.N. Maheshwari; Financial Management; Sultan Chand and Sons Educational Publishers, New Delhi; 11th Edition 2006.
[8]. I.M. Pandey; Financial Management; Vikas Publishing House Pvt Ltd, New Delhi, 9th Edition (2004- 2007).
[9]. B.L. Gupta; Management of Liquidity and Profitability; Arihant Publishing House, Jaipur.
REPORTS
[10]. Reports of Star PVC Pipes and Fittings (P) Limited, Thrissur from 2012-13 to 2016-17
WEBSITES
[11]. https://Wikipedia.com
[12]. www.Shodhganga.com
[13]. https://Investopedia.com
[14]. www.assetliabitymanaement.com
[15]. www.Ask.com
[16]. https://www.scribd.com
Dr. Salini B Nair, Rehana Cross K “A Study on Asset and Liability Management of Star PVC Pipes and Fittings P Ltd” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp. 187-193 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/187-193.pdf
Great Power Politics: A Sino-American Relations in the 21st Century
ABA, Kenneth Pius – June 2018 – Page No.: 194-204
China’s rise, its form, and implications have been a topical issue among international relations experts long before Xi Jinping assumed office as the General-Secretary of the Communist Party of China and President of the People’s Republic of China (the world’s most populous nation). Nevertheless, since 2012 (when President Xi took over the mantle of leadership of the country), questions of whether or not China is a threat to the existing international order, a revisionist state or a regional hegemon, have increased. Compared to his predecessors, Xi is said to be a more assertive and an ambitious leader. He presides over an economically viable and militarily powerful nation. The fact that China’s influence is increasing in global and regional affairs having survived the Asian Financial Crisis of 1997, sends shivers down the spine of its neighbors as they seem oblivious to her motives. In a unipolar political system largely controlled by the USA (the hegemon), China’s rapid economic growth and growing influence around the world especially in East Asia seems to be worrisome because like the Power Transition theory states that a new power is likely to question the legitimacy of the hegemon. However, China has maintained that its rise will be peaceful because it is neither a revisionist to an expansionist power. Since after the cold-war, relations between the two great powers have taken different turns. The two countries have had moments of confrontation, cooperation and competition in the 21st century. This article seeks to examine events like the South China Sea Disputes, Taiwan Issue, the Korean peninsula and Southeast Asia has shaped and will shape Sino-American relations now and in the future.
Page(s): 194-204 Date of Publication: 12 July 2018
ABA, Kenneth Pius
Central China Normal University, Wuhan, China
[1]. Aaron, C. (2017) “Southeast Asian Perspectives on U.S-China Competition” Lowy Institute PP 32.
[2]. Aggarwal Vinod and Min G Koo (2008), “Asia’s New Institutional Architecture: Evolving Structures For managing Trade, Financial, and Security Relations,” Verlag:Springer: 133.
[3]. Bergsten C. Fred, Freeman C., et’al (2008) China’s Rise: Challenges and Opportunities, Peterson Institute For International Economics Center For Strategic and International Studies. Washington DC. PP. 269.
[4]. Bizinger, R., (2015), “China’s Double-Digit Growth”, Foreign Affairs , March 19th, www.foreignaffairs.com/articles/china/2015-03-19/chinas-double-digit-defense-growth.
[5]. Cai, P. (2017) “Understanding China’s Belt and Road Initiative”. Lowy Institute, 26.
[6]. CGTNOfficial, (16th November, 2017) “Sino-Philippine relationship is ‘seeing rainbow after storm’”. Retrieved on the 19th November, 2017.
https://mp.weixin.qq.com/s/SOm_ANyf2C0DKFBLeQliaQ
[7]. Charles Glaser “Will China’s rise lead to a War”? www.foreignaffairs.com/articles/67479/charles-glaser/will-china’srise-lead-to-war Retrieved on the 1st of March, 2018.
[8]. China Power, August 4, 2017 “How much Trade transits the South China Sea?” Retrieved on November 24th 2017, from https://chinapower.csis.org/much.trade-transits-south-china-sea/
[9]. Chu Shulong, “U.S. And China In The Early 21st Century: Cooperation, Competition Or Confrontation?”, nuclear policy 2nd workshop, April 12, 2001. https://nautilus.org/projects/nuclear-policy-2nd-workshop/u-s-and-c-ina-in-the-early-21st-century-cooperation-competition-or-confrontation/
[10]. Esteban, M.(2017) “The Foreign Policy of Xi Jinping After the 19th Congress: China strives for a central role on the world stage”, Elcano Royal Institute, 1-7.
[11]. Fravel,T. (2010) “International Relations Theory and China’s Rise: Assessing China’s Potential for Territorial Expansion” International Studies Review 12, 505-532.
[12]. Friedberg, A., (2005) : The Future of U.S-China Relations, is conflict inevitable”? International Security, 30(2) 7-45.
[13]. Glaser, B.(2012), “Armed Clash in the South China Sea”, Contingency Planning Memorandum, 14(4),11. Retrieved on the 1st November, 2017 from https://www.cfr.org/sites/default/files/pdf/2012/04/CPA_contingencymemo_14.pdf
[14]. Glaser, B (2003) ”Sino-American Relations: A Work in Progress”. American Foreign Policy Interests , 25(5), 417-424.
[15]. Gill, B., et’al (2016) “The Dynamics of US-China Southeast Asia Relations” The United States Studies Centre, pp 49.
[16]. Gries, p., (2009) Problems of Misperception in U.S.-China Relations.Orbis, 220-233.
[17]. International Hydrographic Organization (1953) “Limited of Oceans and seas”. 3rd edition https://epic.awi.de/29772/1/IHO1953a.pdf
[18]. International Business Times (September 14, 2012) “West Philippines Sea Limited to Exclusive Economic Zone”, Retrieved from https://ph.news.yahoo.com/west-philippines-sea-limited-exclusive-economic-zone-120023464.html
[19]. Iskander Rehman (February 28, 2014) “Why Taiwan Matters : A Small Island of great Strategic importance” www.nationalinterest.org/commentary/why-taiwan-matters-9971
[20]. Ito, T.(2015), The Future of the Asian Infrastructure Investment Bank: Concerns for Transparency and Governance. Center on Japanese Economy and Business :Occasional paper Series No.72.
[21]. Ivanovitch (September 25th,2017) “The Korean Crisis is a watershed event in American Chinese Relations” .Retrieved on the 19th, December, 2017, from https//www.cnbc.com/2017/09/25/the-Korean-crisis-is-a-watershed-event-in-american-chinese-relations.html
[22]. Jane Periz,“White House is bracing for a Chinese Backlash”, The New York Times, May 16, 199.p.A11
[23]. Jeff Mason (July 19, 2017)“Trump keeps it friendly with Xi at G20 on North Korea threat”Retrieved on October 20th ,2017 https://www.yahoo.com/news/trump-says-may-while-u-china-deal-north-145658882.html
[24]. Johnson, Keith (5 May 2014). “How Do You Say ‘Drill, Baby, Drill’ in Chinese?”. www.foreignpolicy.com. AFP – Getty. Retrieved 6 November 2017.
[25]. Johnson C., &Glaser B.,(2014) “Xi Jinping Unveils His Foreign Policy Vision:Peace Through Strength” , Thought From the Chairman. Center For Strategic and International Studies, Washington DC. PP.5
[26]. Kim,Heung-Kyu (n.d)“China’s Position on Korean Unification and ROK-PRC Relations” The 2nd KRIS-Brookings Joint Conference. Sungshin Women’s University , 227-249
[27]. Layne, C., (2015)“Avoiding a Sino-American Confrontation- Why the US should accommodate a rising China” AP:2015nr4. Retrieved on December 2nd, 2017. https://bush.tamu.edu/faculty/clayne/AP%204%202015%20Layne.pdf
[28]. Masterson J.,(2014) “Power, Interdependence and Conflict: What IR theories tell us about China’s rise” The Commonwealth Review vol.2(1). 5- 36.
[29]. McDowell R. (2011) A Look at the top Issues at Asian Security Meeting . Associated Press.
https://www.theguardian.com/world/feedarticle/9755825
[30]. Mearsheimer, J. (2001), Tragedy of Great Power Politics, New York,NY: W.W. Norton
[31]. Ming-Te, H., & Liu, T. (2011). Sino-US Strategic Competition in Southeast Asia:China’s Rise and US Foreign Policy Transformation since 9/11. Political Perspectives , 5(3), 96-119. Retrieved on December 13th, 2017 from https://www.politicalperspectives.org.org/wp-content/uploads/Sino-US-strategic-competition1-pdf
[32]. Moori, M., et’al (August, 2015) “Overcoming Barriers to US-China Cooperation” Peace Brief 192. pp 5
[33]. Morgenthau, H.,& Thompson K(1985) Politics Among Nations; The Struggle for Power and Peace, 6th edition (New York; McGraw-Hill) p.165
[34]. Morgenthau, H. (1974) Scientific Man vs. Power Politics , Cambridge , UK: Cambridge University Press,pg 14.
[35]. Polachek, Solomon W. (1980) “Conflict and Trade” . Journal of Conflict Resolution 24, no.1: 55-78
[36]. Quismundo, T (June 13,2011), “South China Sea renamed in the Philippines” Philippines Daily Inquirer. Retrieved from https://news:asiaone.com/News/Asia/Story/A1Story20110613-283772.html
[37]. Schweller, R.L,& Pu, X. (2011). “After Polarity: China’s Visions of International Order in an Era of U.S Decline” International Security, 36(1), 41-72 https://doi.org/10.1162/ISEC_a_00044
[38]. Tikhonova, Polina (2015), “South China Sea Debate Could Lead to World War 3” retrieved on 21st November, 2017. https://www.valuewalk.com/2015/06/south-china-sea-world-war-3/
[39]. Tsai, T. et’al (2011). “China’s Foreign Policy in Southeast Asia: Harmonious worldview and its impact on Good Neighbor Diplomacy”, Journal of Contemporary Eastern Asia 10(1) : 25-42
[40]. Varral, M (2015), “Chinese Worldviews and China’s Foreign Policy” Lowy Institute For International Policy, pp 23.
[41]. Wang Li.,(6th August,2017) “UN Security Council slaps new sanctions on DPRK over missile” Retrieved on the 7th of December 2017 https://www.chinadaily.com.cn/wprld/2017-08/06/content_30349608.htm
[42]. Xi Jinping (2014) The Governamce Of China,Beijing:Foreign Languages Press,Publisher’s Note:348-393
[43]. Xinbo, W. (2015) “China and the United States: Core Interests, and Partnerships”. Special Report, 277 (June), 1-12.
[44]. Yinghong, S. (31st March 2015) “China’s Complicated Foreign Policy”. Berlin and London: European Council on Foreign Relations. Retrieved on Wednesday, February 14th, 2018 from https://www.ecfr.eu/article/commentary_chinas_complicated_foreign_policy31 1562
ABA, Kenneth Pius “Great Power Politics: A Sino-American Relations in the 21st Century” International Journal of Research and Scientific Innovation (IJRSI) vol.5 issue 6, pp. 194-204 June 2018 URL: https://www.rsisinternational.org/journals/ijrsi/digital-library/volume-5-issue-6/194-204.pdf