PERFORMANCE EVALUATION OF EFFICIENT AND RELIABLE ROUTING PROTOCOL ALGORITHM

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International Journal on Smart Sensing and Intelligent Systems

Professor Subhas Chandra Mukhopadhyay

Exeley Inc. (New York)

Subject: Computational Science & Engineering , Engineering, Electrical & Electronic

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VOLUME 10 , ISSUE 5 (December 2017) > List of articles

Special Issue

PERFORMANCE EVALUATION OF EFFICIENT AND RELIABLE ROUTING PROTOCOL ALGORITHM

B. Sathyasri / Dr.E. N.Ganesh / Dr. P. Senthil Kumar / S. Rathna / R. Jaishree Bai / G. Nalini

Keywords : Efficient And Reliable routing protocol (EAR), Route Request (RREQ), Route Reply (RREP) packet, Network Animator(NAM).

Citation Information : International Journal on Smart Sensing and Intelligent Systems. Volume 10, Issue 5, Pages 358-373, DOI: https://doi.org/10.21307/ijssis-2017-257

License : (CC BY-NC-ND 4.0)

Received Date : 27-May-2017 / Accepted: 15-June-2017 / Published Online: 01-September-2017

ARTICLE

ABSTRACT

Fixed-power wireless sensor networks are prevalent and cost-effective. However, they face mote failures, RF interference from environmental noise and energy constraints. Routing protocols for such networks must overcome these problems to achieve reliability, energy efficiency and scalability in message delivery. Achievement of these requirements, however, poses conflicting demands. In this work, we propose an efficient and reliable routing protocol (EAR) that achieves reliable and scalable performance with minimal compromise of energy efficiency. The routing design of EAR is based on four parameters expected path length and a weighted combination of distance traversed, energy levels and link transmission success history, to dynamically determine and maintain the best routes. Simulation experiments of EAR with four existing protocols demonstrate that a design based on a combination of routing parameters exhibits collectively better performance than protocols based on just hop-count and energy or those using flooding.

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REFERENCES

[1] Aizat Azmi, Ahmad Amsyar Azman, Sallehuddin Ibrahim, and Mohd Amri Md Yunus, “Techniques In Advancing The Capabilities Of Various Nitrate Detection Methods: A Review”, International Journal on Smart Sensing and Intelligent Systems., VOL. 10, NO. 2, June 2017, pp. 223-261.

[2] Tsugunosuke Sakai, Haruya Tamaki, Yosuke Ota, Ryohei Egusa, Shigenori Inagaki, Fusako Kusunoki, Masanori Sugimoto, Hiroshi Mizoguchi, “Eda-Based Estimation Of Visual Attention By Observation Of Eye Blink Frequency”, International Journal on Smart Sensing and Intelligent Systems., VOL. 10, NO.

2, June 2017, pp. 296-307.[3] Ismail Ben Abdallah, Yassine Bouteraa, and Chokri Rekik , “Design And Development Of 3d Printed Myoelctric Robotic Exoskeleton For Hand Rehabilitation”, International Journal on Smart Sensing and Intelligent Systems., VOL. 10, NO. 2, June 2017, pp. 341-366.

[4] S. H. Teay, C. Batunlu and A. Albarbar, “Smart Sensing System For Enhanceing The Reliability Of Power Electronic Devices Used In Wind Turbines”, International Journal on Smart Sensing and Intelligent Systems., VOL. 10, NO. 2, June 2017, pp. 407- 424

[5] SCihan Gercek, Djilali Kourtiche, Mustapha Nadi, Isabelle Magne, Pierre Schmitt, Martine Souques and Patrice Roth, “An In Vitro Cost-Effective Test Bench For Active Cardiac Implants, Reproducing Human Exposure To Electric Fields 50/60 Hz”, International Journal on Smart Sensing and Intelligent Systems., VOL. 10, NO. 1, March 2017, pp. 1- 17

[6] P. Visconti, P. Primiceri, R. de Fazio and A. Lay Ekuakille, “A Solar-Powered White Led-Based Uv-Vis Spectrophotometric System Managed By Pc For Air Pollution Detection In Faraway And Unfriendly Locations”, International Journal on Smart Sensing and Intelligent Systems., VOL. 10, NO. 1, March 2017, pp. 18- 49

[7] Samarendra Nath Sur, Rabindranath Bera and Bansibadan Maji, “Feedback Equalizer For Vehicular Channel”, International Journal on Smart Sensing and Intelligent Systems., VOL. 10, NO. 1, March 2017, pp. 50- 68

[8] Yen-Hong A. Chen, Kai-Jan Lin and Yu-Chu M. Li, “Assessment To Effectiveness Of The New Early Streamer Emission Lightning Protection System”, International Journal on Smart Sensing and Intelligent Systems., VOL. 10, NO. 1, March 2017, pp. 108- 123

[9] Iman Heidarpour Shahrezaei, Morteza Kazerooni and Mohsen Fallah, “A Total Quality Assessment Solution For Synthetic Aperture Radar Nlfm Waveform Generation And Evaluation In A Complex Random Media”, International Journal on Smart Sensing and Intelligent Systems., VOL. 10, NO. 1, March 2017, pp. 174- 198

[10] P. Visconti ,R.Ferri, M.Pucciarelli and E.Venere, “Development And Characterization Of A Solar-Based Energy Harvesting And Power Management System For A Wsn Node Applied To Optimized Goods Transport And Storage”, International Journal on Smart Sensing and Intelligent Systems., VOL. 9, NO. 4, December 2016 , pp. 1637- 1667

[11] YoumeiSong,Jianbo Li, Chenglong Li, Fushu Wang, “Social Popularity Based Routing In Delay Tolerant Networks”, International Journal on Smart Sensing and Intelligent Systems., VOL. 9, NO. 4, December 2016 , pp. 1687- 1709

[12] Seifeddine Ben Warrad and OlfaBoubaker, “Full Order Unknown Inputs Observer For Multiple Time-Delay Systems”, International Journal on Smart Sensing and Intelligent Systems., VOL. 9, NO. 4, December 2016 , pp. 1750- 1775

[13] Rajesh, M., and J. M. Gnanasekar. "Path observation-based physical routing protocol for wireless ad hoc networks." International Journal of Wireless and Mobile Computing 11.3 (2016): 244-257.

[14]. Rajesh, M., and J. M. Gnanasekar. "Congestion control in heterogeneous wireless ad hoc network using FRCC." Australian Journal of Basic and Applied Sciences 9.7 (2015): 698-702.

[15]. Rajesh, M., and J. M. Gnanasekar. "GCCover Heterogeneous Wireless Ad hoc Networks." Journal of Chemical and Pharmaceutical Sciences (2015): 195-200.

[16]. Rajesh, M., and J. M. Gnanasekar. "CONGESTION CONTROL USING AODV PROTOCOL SCHEME FOR WIRELESS AD-HOC NETWORK." Advances in Computer Science and Engineering 16.1/2 (2016): 19.

[17]. Rajesh, M., and J. M. Gnanasekar. "An optimized congestion control and error management system for OCCEM." International Journal of Advanced Research in IT and Engineering 4.4 (2015): 1-10.

[18]. Rajesh, M., and J. M. Gnanasekar. "Constructing Well-Organized Wireless Sensor Networks with Low-Level Identification." World Engineering & Applied Sciences Journal 7.1 (2016).

[19] Aftab Ali Haider, AcmerNadeem, ShamailaAkram, “Safe Regression Test Suite Optimization: A Review”,In: Proc. of IEEE International Conference on Open Source Systems and Technologies, pp. 7-12, 2016.

[20] AvinashGupta,Namita Mishra,Dharmender Singh Kushwaha, “Rule-Based test case Reduction Technique using Decision Table”,In: Proc. of IEEE Conference on International Advance Computing Conference,pp.1398-1405,2014.

[21] Annibalepanichella,Rocco oliveto,Massimiliano Di Penta,Andrea De Lucia, “ Improving multi-objective test case Selection by Injecting Diversity in genetic Algorithms”, IEEE Transactions on Software Engineering,pp.358-383,Vol.41,No.4,April 2015.

[22] Zhang Hui, “Fault Localization Method Generated by Regression Test Cases on the Basis of Genetic Immune Algorithm”, In: proc. Of IEEE conference on Annual International Computers, Software & Applications Conference, pp. 46-51, 2016.

[23] S. Yoo and M. Harman, “Regression testing minimization, selectionand prioritization: A survey,” Softw. Test. Verif. Rel., vol. 22,no. 2, pp. 67–120, Mar. 2012.

[24] S. Yoo, “A novel mask-coding representation for set cover problemswith applications in test suite minimisation,” In: Proc. of 2nd International Symposium. Search-Based Software. Eng., 2010, pp. 19–28.

[25] S. Yoo and M. Harman, “Pareto efficient multi-objective test case selection,” In: Proc. of ACM /SIGSOFT Int. Symp. Softw. Testing Anal.,2007, pp. 140–150.

[26] S. Yoo and M. Harman, “Using hybrid algorithm for Pareto efficientmulti-objective test suite minimisation,” J. Syst. Softw.,vol. 83, no. 4, pp. 689–701, 2010.

[27] S. Yoo, M. Harman, and S. Ur, “Highly scalable multi objectivetest suite minimization using graphics cards,” In:Proc. of 3rd Int.Conf. Search Based Softw. Eng., 2011, pp. 219–236.

[28] Q. Zhang and Y.-W. Leung, “An orthogonal genetic algorithm for multimedia multicast routing,” IEEE Trans. Evol. Comput., vol. 3,no. 1, pp. 53–62, Apr. 1999.

[29] J. Zhu, G. Dai, and L. Mo, “A cluster-based orthogonal multi objective genetic algorithm”, Comput. Intell. Intell. Syst., vol. 51,pp. 45–55, 2009.

[30] E. Zitzler, D. Brockhoff, and L. Thiele, “The hypervolume indicatorrevisited: On the design of Pareto-compliant indicators via weighted integration”,In: Proc. of 4th Int. Conf. Evol. Multi- CriterionOptim., 2007, pp. 862–876.

[31] Jones JA, Harrold MJ. “Empirical Evaluation of the Tarantula Automatic Fault - Localization Technique”. In: Proc. of 20th IEEE/ ACM International Conference on Automated Software Engineering, 2005: 273-282.

[32] Jones JA, Harrold MJ, Stasko J. “Visualization of Test Information to Assist Fault Localization”.In: Proc. ofthe 24th International Conference on Software Engineering, 2002:467-477.

[33]Abreu R, Zoeteweij P, ArjanJC, Gemund V. “On the Accuracy ofSpectrum-Based Fault Localization”. In:Proc. of Testing:Academic and Industrial Conference-Practiceand Research Techniques, 2007: 89-98.

[34]Abreu R, ZoeteweijP, ArjanJC, GemundV. “An Evaluation of Similarity Coefficients for Software Fault Localization”. In: Proc. of the 12th Pacific Rim International Symposium on Dependable Computing, 2006: 39-46.

[35]R. Pressman, 2010. Software Engineering: A practitioner’s Approach, 7th ed., McGraw Hill.

[36]R. Binder, 2004. Testing Object Oriented Systems: Models, Patterns, and Tools, 5th ed., Addison Wesley.

[37]Kadri, S. A New Proposed Technique to Improve Software Regression Testing Cost. International Journal of Security and Its Applications, 5, 3 (Jul. 2011).

[38]A.A. Haider,.,Rafiq, S., Nadeem, A. 2012. Test suite optimization using fuzzy logic. In: Proc. of 8thInternational Conference on Emerging Technologies(Islamabad, Pakistan, Oct 2012). doi:10.1109/ICET.2012.6375440
[CROSSREF]

[39]A.A Haider, Nadeem, A. Rafiq, S. 2013. “On the fly Test Suite Optimization with Fuzzy Optimizer”. In:Proc. of Frontiers of Information Technology((Islamabad, Pakistan, Dec 2013).

[40]A.A. Haider. A. Nadeem, S. Rafiq2014. “Multiple ObjectiveTest Suite Optimization: A Fuzzy Logic Based Approach”.Journal of Intelligent and Fuzzy Systems. 27, 2, 863-875.DOI: 10.3233/IFS-131045.

[41] D. White, A. Roschelle, P.Peterson, D.Schlicel, B.Biewald and W.Steinhurst, “The 2003 Blackout: Solutions that won’t Cost a Fortune”, The Electricity Journal, Elsevier Inc., November 2003, pp. 43-53.

[42] E. Leung, “Surge Protection for Power Grids”, IEEE Spectrum, July 1997, pp. 26-30.

[43] E. S. Ibrahim, “Electromagnetic Fault Current Limiter”, Electric Power System Research, Vol. 42, 1997, pp. 189-194.

[44] V.H.Tahiliani and J.W.Porter, “Fault Current Limiters – An Overview of EPRI Research”, IEEE Transactions on Power Apparatus and Systems, Vol. PAS-99, no. 5, 1980, pp. 1964-1969.

[45] “Simple Current Limiter for DC 2770- Based Charger”, Maxim Application Note 2044, Dallas Semiconductor (ww.maxim-ic.com/an2044), 2003.

[46] “Flexible Hot-Swap Current Limiter Allows Thermal Protection”, Maxim Application Note 390, Dallas Semiconductor (ww.maxim-ic.com/an390), 2001.

[47] S.C.Mukhopadhyay, “Synthesis and Implementation of Magnetic Current Limiter”, Doctor of Engineering thesis, Faculty of Engineering, Kanazawa University, Japan, March 2000.

[48] S.C.Mukhopadhyay, M.Iwahara, S.Yamada and F.P.Dawson, " Analysis, design and experimental results for a passive current limiting device", IEE proceeding on Electric Power Applications, vol. 146, no. 3, pp. 309-316, May 1999.

[49] M.Iwahara, S.C.Mukhopadhyay, S.Yamada and F.P.Dawson, "Development of passive fault current limiter in parallel biasing mode", IEEE transc. on Magnetics, Vol. 35, No. 5, pp 3523-3525, September 1999.

[50] S.C.Mukhopadhyay, F.P.Dawson, M.Iwahara and S.Yamada, “A novel compact magnetic current limiter for three phase applications”, IEEE transc. on Magnetics, Vol. 36, No. 5, pp. 3568-3570, September 2000.

[51] P. Malkin and D. Klaus, “Cap That Current”, IEE Review, March 2001, pp. 41-45.

[52] W.Paul, et.al., “Test of 1.2 MVA high-Tc superconducting fault current limiter”, Proc. On Superconducting Sci. Technol., IOP Publishing Ltd., 10 (1997), 914-918.

[53] G.E.Marsh and A.M.Wolsky, “AC losses in high-temperature superconductors and the importance of these losses to the future use of HTS in the power sector”, Report submitted to International Energy Agency, USA, May 2000.

[54] M. Steurer, H. Brechna and K. Frohlich, “A Nitrogen Gas Cooled, Hybrid High Temperature Superconducting Fault Current Limiter”, IEEE Transactions on Applied Superconductivity, vol. 10, No. 1, 2000, pp. 840-844.

[55] T. Ohnishi, N. Aizawa, A.Yamagata, A. Nii and M.Shibuya, “Stability of a Shorted Nb3n Coil Cooled by a Refrigeration for a Magnetic Shield Type Fault Current Limiter”, IEEE Transactions on Applied Superconductivity, vol. 10, No. 1, 2000, pp. 845-848.

[56] V. Keilin, I. Kovalev, S.Kruglov, V.Stepanov, I.Shugaev and V.Shcherbakov, “Model of HTS Three-Phase Saturated Core Fault Current Limiter”, IEEE Transactions on Applied Superconductivity, vol. 10, No. 1, 2000, pp. 836-839.

[57] S.C.Mukhopadhyay, C.Goonaratne, M.Staines, I.Vajda, M.Iwahara and S.Yamada, “Feasibility study of developing high temperature superconducting fault current limiter: A New Zealand perspective”, Proc. ISEM 2003, pp. 100-101, France, May 12-14, 2003.

[58] S.C.Mukhopadhyay, C. Gooneratne and M. Staines, “Transition of magnetic current limiter to superconducting fault current limiter”, Proceeding of AUPEC conference, paper no. 3, Sep. 28- Oct. 1, 2003, Christchurch, New Zealand.

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