Dr. Amit Kumar Garg
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Dr. Amit Kumar Garg

Assistant Professor
Maharishi Markandeshwar University, India

Highest Degree
Ph.D. in Engineering and Technology from Thapar University, India

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Biography

Dr. Amit Kumar Garg received his BE in Electronics & Communication Engineering, ME degree in Electronics and PhD in Engineering & Technology securing first class with distinction during 1996, 2000 and 2010 from eminent institutes/University such as Punjab Engineering college, Punjab University (India) Chandigarh, Thapar University, Patiala, Punjab(India) etc. Presently, he is the Chairman and Professor of ECE Department at DCRUST Murthal (Haryana). He is having teaching experience of about sixteen years. His present interests are fiber-optics communication systems and optical networks. He has over 110 technical research papers out of which 80 are in international journals having impact factors over 1.0 and scopus indexing (Elsevier (science direct), Taylor and Francis, OSA, Chinese optical letters, World scientific etc) and rests are in international and national conferences. He has supervised over 40 M.Tech thesis, evaluated 70 M.Tech and 05 PhD thesis and 05 students are registered with him for PhD (Engg). He is on panel of selection/inspection committees of various universities such as MDU, GJU, DCRUST, CSHAU, MMU, CU etc. He has organized various STC for faculty and national conferences sponsored by ISTE/AICTE/TEQIP/IIT Khargpur under NMEICT. He has delivered 50 expert/invited talks on topics such as DSP, optical switching, MATLAB, Optsim etc in various eminent institutes/Universities such as SLIET Longowal, UIET KUK ,GALGOTIA, Chandigarh University etc. Recently, he has been considered /selected as Chairman of committees of NBA (AICTE). Dr. Amit Kumar is also pursuing professional membership such as ISTE (LM-97584), Bio info publications IACSIT, IAENG. Also, he is a member of reviewer/editor panel of IEEE-sponsored international conference ICACT at Phoenix Park, Korea and many international journals. In addition to this, he is a member of editorial board of International journals such as Integrated Publishing Association and Journal of Electrical and Electronics Engineering Research.

Area of Interest:

Computer Sciences
100%
Wireless Communication
62%
Network
90%
Security
75%
Techniques
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Garg, A.K., 2011. Analysis of burst/packet assembly techniques in high speed optical switching network. Optik-Int. J. Light Electron Opt., 122: 616-619.
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  2. Garg, A.K., 2011. An efficient scheme to reduce burst loss rate and supporting differentiated services in all-optical networks. Int. J. Opt. Commun., 32: 113-116.
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  3. Garg, A.K. and R.S. Kaler, 2011. An efficient quality of service scheme for all optical networks. Int. J. Opt. Fibre Technol., 17: 64-69.
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  4. Garg, A.K. and R.S. Kaler, 2011. An adaptive reservation scheme for optical network. Optik-Int. J. Light and Electron. Optics., 122: 281-286.
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  5. Garg, A.K. and R.S. Kaler, 2011. A new flexible and enhancing bandwidth utilization burst dropping technique for an OBS network. Optik-Int. J. Light Electron. Optics., 122: 225-227.
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  6. Rajneesh, R., J.S. Sohal, A.K. Garg and R.S. Kaler, 2010. An efficient network utilization scheme for optical burst switched networks. J. Inform. Technol. Res., 3: 34-49.
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  7. Garg, A.K., 2010. An optimal wavelength reservation technique for optical networks. Int. J. Technol. Applied Sci., 1: 1-3.
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  8. Garg, A.K. and R.S. Kaler, 2010. Performance enhancement of optical burst switched networks. Opt. Int. J. Light Electron Opt., 121: 876-883.
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  9. Garg, A.K. and R.S. Kaler, 2010. Effective resource utilization and qos oriented integrated scheme for optical burst switching. Int. J. Opt. Commun., 31: 218-223.
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  10. Garg, A.K. and R.S. Kaler, 2010. An efficient scheme for optimizing channel utilization in OBS networks. Int. J. Light Electron Optics, 121: 793-799.
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  11. Garg, A.K. and R.S. Kaler, 2010. A novel technique to resolve burst contention in obs networks. Int. J. Electron., 97: 295-308.
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  12. Garg, A.K. and R.S. Kaler, 2010. A novel deflection routing technique to reduce end-to-end delay in obs networks. Int. J. Opt. Commun., 31: 209-213.
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  13. Garg, A.K. and R.S. Kaler, 2010. Comparison analysis of optical burst switched network architectures. Int. J. Light Electron. Opt., 121: 1412-1417.
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  14. Garg, A.K. and R.S. Kaler, 2010. Burst dropping policies in optical burst switched network. Int. J. Light Electron. Opt., 121: 1355-1362.
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  15. Garg, A.K. and R.S. Kaler, 2009. Integrated contention resolution and control algorithm for optical burst switched networks. Int. J. Fiber Integr. Opt., 28: 366-375.
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  16. Garg, A.K. and R.S. Kaler, 2009. Hybrid contention resolution schemes for optical burst switched high-speed networks. Int. J. Interconnection Networks, 10: 121-132.
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  17. Garg, A.K. and R.S. Kaler, 2008. Performance analysis of an integrated scheme in optical burst switched high-speed networks. Chin. Opt. Lett., 6: 244-247.
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  18. Garg, A.K. and R.S. Kaler, 2008. A novel optical burst switching architecture for high speed networks. Chin. Opt. Lett., 6: 807-811.
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  19. Garg, A.K. and R.S. Kaler, 2007. Performance analysis of optical burst switching high-speed network architecture. Int. J. Comput. Sci. Network Secur., 7: 292-301.