Educational Qualification

B.Tech.(ECE) from Dr. B.R. Ambed. Regional Engg. college, Jalandhar(1997) (Now NIT, Jalandhar)
M.Tech.(ECE) from G.N.E.,
Ludhiana(2003)
Ph.D.(ECE) from Thapar University,
Patiala(2007)

Experience

Lecturer in J.R. Polytechnic, Hoshairpur (05 months)
Lecturer in Giani Zail Singh College of Engg. & Tech., Bathinda (07 years approx)
Lecturer (Senior Scale) in Giani Zail Singh College of Engg. & Tech., Bathinda (03 years approx)
Associate Professor in Sant Longowal Institute of Engg. & Tech., Longowal, Sangrur
Presently, Professor in Sant Longowal Institute of Engg. & Tech.,
Longowal, Sangrur

Book authored

Surinder Singh, “Nonlinearities in optical amplifiers for optical communication systems and networks, ” a chapter in book „Nonlinear optics research progress‟ published by Nova Science Publishers, New York, 3rd Quarter 2008

Patent

01 patent

Professional Membership

ISTE, IE(India), IEEE

Award

-Biography in “Marquis Who’s Who in the World, ”2009
-Diploma for Member of program committee in OPTICS-ICETE 2010-12, Athens, Greece
-Appreciation letter from Principal GZSCET, Bathinda for annual function TARANUM-2007
-Best work in Telecommunication awarded by Punjab Science Academy

Publications

50 papers in SCI Journals with Thomson Reuter impact factor
approx. 50 paper in International & National Conferences

1. Surinder Singh and R.S. Kaler “Wide Band Optical Wavelength Converter Based on Four Wave Mixing Using Optimized Semiconductor Optical Amplifier” published in Fiber and Integrated Optics incorporating International Journal on Optoelectronics, Vol.25, Issue 3, pp. 213-230, May 2006, Taylor and Francis, UK, (Impact factor:0.506).
2. Surinder Singh and R.S. Kaler, “Minimization of Cross Gain Saturation in Wavelength Division Multiplexing by Optimizing Differential Gain in Semiconductor Optical Amplifiers” published in Fiber and Integrated Optics incorporating International Journal on Optoelectronics, vol. 25, Issue 4, pp. 287-303 July 2006, Taylor and Francis, UK, (Impact factor:0.506).
3. Surinder Singh and R.S. Kaler, “Receiver Sensitivity Improvement Using Polarization Insensitive Semiconductor Optical Amplifier” published in International Journal of Optical Engineering, Vol. 45, Issue 6, pp. 65007-1-6, 2006. SPIE, USA (available online: spie.org, (Impact factor: 0.815).
4. Surinder Singh and R. S. Kaler, “Gain Flattening Approach to Physical EDFA for 16 × 40 Gb/s NRZ-DPSK WDM Optical Communication Systems” published in Fiber and Integrated Optics incorporating International Journal on Optoelectronics, Vol. 25, Issue 5, pp. 363-374, September, 2006, Taylor and Francis, UK, (Impact factor:0.506).
5. Surinder Singh and R. S. Kaler, “Transmission Performance of 20 × 10 Gb/s WDM signals using Cascaded Optimized SOAs with OOK and DPSK Modulation Formats”, International Journal of Optics Communication, Vol. 266, Issue 1, pp. 100-110, October 2006, Elsevier Science, Netherlands, (Impact factor: 1.517).
6. Surinder Singh and R.S.Kaler, “Simulation of DWDM signals using optimum span scheme with cascaded optimized semiconductor optical amplifiers” optik-International Journal for Light and Electron Optics, Vol. 118, Issue 2, pp. 74-82, Jan. 2007, Elsevier Science, Germany(Impact factor:0.769).
7. Surinder Singh and R.S.Kaler, “ All Optical Wavelength Converters Based on Cross Phase Modulation in SOA-MZI Configuration ” optik-International Journal for Light and Electron Optics,
Vol. 118, Issue 8, pp. 390-394, 2007, (available online: sciencedirect.com) Elsevier Science, Germany(Impact factor: 0.769).
8. Surinder Singh and R. S. Kaler, “Analysis and Minimization of Cross Phase Modulation in Semiconductor Optical Amplifiers for Multichannel WDM Optical Communication Systems”, International Journal of Optics Communication, Vol. 274, Issue 1, pp. 105-115, June 2007, Elsevier Science, (Impact factor: 1.517).
9. Surinder Singh and R.S.Kaler “20 Gb/s and Higher Bit Rate Optical Wavelength Conversion for RZ-DPSK Signal Based on Four Wave Mixing in Semiconductor Optical Amplifier” Fiber and Integrated Optics incorporating International Journal on Optoelectronics, vol.26, Issue 5, pp. 295-308, September 2007, Taylor and Francis, UK, (Impact factor:0.506).
10. Surinder Singh, “Assessment to Gain Saturation in Cascaded Semiconductor Optical Amplifier for High Bit rate WDM Signals over Long Transmission Distance” International Journal of Optical Engineering,
vol. 47, issue 3, pp. 035008-1-8, March 2008, USA, (Impact factor: 0.815).
11. Surinder Singh and R.S.Kaler, “ Placement of Optimized Semiconductor Optical Amplifier in Fiber Optical Communication Systems ” optik-International Journal for Light and Electron Optics, Vol. 119, Issue 6, pp. 296-302, May 2008, Elsevier Science, Germany, (available online: sciencedirect.com) (Impact factor: 0.769).
12. Surinder Singh, “Boost Up of Four Wave Mixing Signal in Semiconductor Optical Amplifier For 40 Gb/s Optical Frequency Conversion”, International Journal of Optics Communication, Vol. 281, Issue 9, pp. 2618-2626, May 2008, Elsevier Science, Netherlands, (Impact factor: 1.517).
13. Surinder Singh and R.S.Kaler, “Power Budget Improvement for Long-Haul WDM Transmission with Optimum Placement of SOAs, ” optik-International Journal for Light and Electron Optics, Vol. 119, Issue7, pp. 329-339, May 2008 (available online: sciencedirect.com) Elsevier Science, Germany(Impact factor: 0.769).
14. Surinder Singh and Rajneesh Randhawa “Enhancement of Ring Network in Presence of Optimized Semiconductor Optical Amplifiers, ” optik-International Journal for Light and Electron Optics, Volume 120, Issue 6, March 2009, pp. 295-300, Elsevier Science, Germany(Impact factor: 0.769).
15. Rajneesh Randhawa,
Surinder Singh, J.S. Sohal and R.S. Kaler, “Wavelength Converter using Semiconductor Optical Amplifier- Mach–Zehnder interferometer Based on XPM at 40 Gb/s for Future Transport Networks, ” Fiber and Integrated Optics incorporating International Journal on Optoelectronics, Volume 28, Issue 2, pp. 154 -169, 2009, Taylor and Francis, UK, (Impact factor:0.506).
16. Surinder Singh, “Performance Comparison of Optical Network Topologies in Presence of Optimized Semiconductor Optical Amplifiers, ” IEEE/OSA Journal of Optical Communications and Networking,
Vol. 1, Issue 4, pp. 313-323, Sept. 2009, USA, (Impact factor: 1.218).
17. Surinder Singh, “Pulse Restoration for Long-Distance Transmission of Wavelength Division Multiplexed Signals Using Gain Saturable Erbium-Doped Fiber Amplifiers, ” Fiber and Integrated Optics incorporating International Journal on Optoelectronics,
Volume 29, Issue 3, pp. 187-208, May 2010, Taylor and Francis, UK, (Impact factor:0.506).
18. Surinder Singh and Neeraj Sharma, “Error Performance of Burst-Mode Receivers, ” IEEE Photonics Journal, Vol. 2, no 3, pp. 338-346, June 2010 (Impact factor:2.32).
19. Surinder Singh,
Jatinder Singh, S. S. Gill, “Investigation of Data Format Conversions Based on MZI-SOA, ” Journal of Optics and Laser in Engg. Vol. 49, issue 1, pp. 152-158, Jan 2011, Elsevier Science, (Impact factor: 1.567).
20. Surinder Singh, “Structural Modification of Semiconductor Optical Amplifiers for Wavelength Division Multiplexing Systems”,
Progress in Quantum Electronics, Vol. 35, issue 1, pp. 2-22, Jan 2011(available online: sciencedirect.com) Elsevier Science, (Impact factor: 5.250).
21. Surinder Singh, “An Approach to Enhance the Receiver Sensitivity With SOA for Optical Communication Systems, ” International Journal of Optics Communication,
Vol. 284, Issue 3, pp. 828-832, Feb. 2011 (available online: sciencedirect.com) Elsevier Science, Netherlands, (Impact factor: 1.517).
22. Surinder Singh and Lovkesh, “Ultrahigh Speed Optical Signal Processing Logic Based on SOA-MZI, ” IEEE Journal of selected topics in Quantum Electronics, Vol. 18, Issue 9, pp. 970-977, March-April 2012, (Impact factor: 3.458).
23. Surinder Singh,
Hari Ram, S. S. Gill, “Performance Evaluation of Channel Estimation in OFDM System for Different QAM and PSK Modulations, ” International Journal of Electrical and Computer Engineering (IJECE), Vol.

Research

Field: Related topics of Optical Networks, Sensor, Antennas, microwave imaging etc.
M.Tech students guided = 21
PhD students guided=05
Under guidance = 05