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Dr. Manish Kumar

Dr. Manish Kumar

  • Associate Professor
    Institute of Engineering & Technology

  • Department

    Department of Electronics & Communication

  • Contact Details:

    Email : manish.kumar@gla.ac.in

    Contact Number :9719232004

  • Qualifications

    • Ph.D.

  • Ph.D

    Thesis Supervised

  • Awarded/ Completed-

    Working-

  • Postgraduate

    Thesis Supervised

  • Awarded/ Completed-

    Working-

  • 01 Manish Kumar, Vinay Kumar Deolia, "Performance Analysis of Low Power LNA using Particle Swarm Optimization for wide band Application" Vol. 111, pp.152897, 2019 International Journal of Electronics and Communication, Elsevier (Indexing- SCIE).
  • 02 Kumar Manish, and Vinay Kumar Deolia. "A wideband design analysis of LNA utilizing complimentary common gate stage with mutually coupled common source stage" Vol. 98.3, pp. 575-585, 2018, Analog Integrated Circuits and Signal Processing, Springer. (Indexing- SCI).
  • 03 Kalra, D., Kumar, M., Shukla, A., Singh, L., &Jaffery, Z. A. (2020). Design Analysis of Inductorless Active Loaded Low Power UWB LNA Using Noise Cancellation Technique. Frequenz, 74(3-4), 137-144.. (Indexing- SCI).
  • 04 Aasheesh Shukla, Vishal Goyal, Manish Kumar, Vinay kumar Deolia,and Munesh Chandra Trivedi“ MMSE based beamformer in Massive MIMO IDMA downlink systems”, Journal of Electrical Engineering. Current Status(Indexing- SCI).
  • 05 Aasheesh Shukla, Manish Kumar, Vinay kumar Deolia, “Code domain Non-Orthogonal Multiple Access schemes for 5G communication and beyond Networks: A Review in International Journal of Engineering Research [SCI, SCOPUS], 2021
  • 06 Agarwal, Nitin, Manish Gupta, and Manish Kumar. "Low noise amplifier design with enhanced noise and gain performance using transformer boosting method for millimeter‐wave applications." Transactions on Emerging Telecommunications Technologies 33.9 (2022): e4531.
  • 07 Agarwal, Nitin, Manish Gupta, and Manish Kumar. "Design of high gain high output matched narrow band LNA using induced degeneration topology for receiver applications." Telecommunication Systems 79.4 (2022): 583-599.
  • 08 Nitin Agrawal, Manish Gupta, and Manish Kumar, (2022) “An Extensive Review On: Low Noise Amplifier for Millimeter and Radio Frequency Wave”, Vol. 84 issue 1, pp. 231-239, Jurnal Teknologi.DOI : https://doi.org/10.11113/jurnalteknologi.v84.16524
  • 09 Kalra, Dheeraj, et al. "Mutually coupled CG-CS current reuse low noise amplifier architecture for 4–14 GHz frequency." Journal of Electrical Engineering 74.3 (2023): 177-183.
  • 10 Kumar, Ashish, et al. "Optimization and fabrication of MEMS based piezoelectric acoustic sensor for wide frequency range and high SPL acoustic application." Micro and Nanostructures 179 (2023): 207592.
  • 11 Shukla, Aasheesh, Manish Kumar, and Manish Gupta. "Intelligent Reflecting Surfaces Assisted Full-Duplex IDMA Communication Network." Wireless Personal Communications 130.1 (2023): 469-479.
  • 12 Goswami, Om Prakash, Aasheesh Shukla, and Manish Kumar. "Optimal design and low noise realization of digital differentiator." Journal of Electrical Engineering 73.5 (2022): 332-336.
  • 13 Gautam, Neelam, Manish Kumar, and Abhay Chaturvedi. "Design and Implementation of Low-Noise Amplifier for Ultra-Wideband Receiver in 180nm CMOS Technology." ICTACT Journal on Microelectronics 1.2 (2015).
  • 14 Sharma, Rahul, AbhayChaturvedi, and Manish Kumar. "A comparative study of different types of mixer topologies." ICTACT Journal on Microelectronics 2.1 (2016): 182-187.
  • 01 Kumar, Manish, and Vinay Kumar Deolia. "A low power, low voltage UWB low-noise amplifier using source degeneration technique." 2017 8th International Conference on Computing, Communication and Networking Technologies (ICCCNT). IEEE, 2017.(Indexing- Scopus).
  • 02 Manish Kumar, Vinay Kumar Deolia, Dheeraj Kalra “"Design and simulation of UWB LNA using 0.18 μm CMOS technology." In Proc. IEEE 2nd International Conference onCommunication Control and Intelligent Systems (CCIS), 2016. (Indexing- Scopus).
  • 03 Manish Kumar, Vinay Kumar Deolia, “An Optimized Low-Noise amplifier with mutually coupled load for Ultra Wideband Application” in Proc. the proceedings of International conference on Frontiers in Engineering, Applied Science and Technology, (FEAST-2018)
  • 04 Kalra, Dheeraj. "Realization of LNA and Mixer Using CMOS 0.18 μm Technology for 3.1 to 10.6 GHz." IOP Conference Series: Materials Science and Engineering. Vol. 1116. No. 1. IOP Publishing, 2021.
  • 05 Kumar, Manish. "A UWB LNA with cascade of CCG and CS stage with improvement in gain and noise in 90-nm technology." Materials Today: Proceedings (2023)
  • 06 Gautam, Neelam, Manish Kumar, and AbhayChaturvedi. "A 3.1-10.6 GHz CMOS two stage cascade topology low-noise amplifier for UWB system." 2014 Fourth International Conference on Communication Systems and Network Technologies. IEEE, 2014.
  • 07 Sharma, Uttam Kumar, AbhayChaturvedi, and Manish Kumar. "A high gain down-conversion mixer in 0.18 um CMOS technology for ultra wideband applications." 2016 3rd International Conference on Signal Processing and Integrated Networks (SPIN). IEEE, 2016.
  • 08 Kalra, Dheeraj, Manish Kumar, and AbhayChaturvedi. "Design of High-Gain CG–CS 3.1–10.6 GHz UWB CMOS Low-Noise Amplifier." Recent Trends in Communication, Computing, and Electronics. Springer, Singapore, 2019. 581-587.
  • 09 Bansal, Gaurav, AbhayChaturvedi, and Manish Kumar. "High linearity and high gain bulk driven down conversion mixer for UWB system." 2017 8th International Conference on Computing, Communication and Networking Technologies (ICCCNT). IEEE, 2017.
  • 10 Sharma, Rahul, AbhayChaturvedi, and Manish Kumar. "A low-voltage, low-power bulk-driven mixer using 0.18 μm CMOS technology." 2015 IEEE UP Section Conference on Electrical Computer and Electronics (UPCON). IEEE, 2015.
  • 11 Kalra, Dheeraj, et al. "Design and simulation of LNA using 0.18 µm CMOS technology for UWB systems." 2015 Communication, Control and Intelligent Systems (CCIS). IEEE, 2015.
  • 12 Kumar, Divesh, Dheeraj Kalra, and Manish Kumar. "Analysis of Photonic Crystal Fiber-Based Micro-Strain Sensor." Recent Trends in Communication, Computing, and Electronics. Springer, Singapore, 2019. 43-50.
  • 13 Manish Kumar, Manish Gupta, Divesh Kumar, “Optimization of Low Power LNA using PSO for UWB application”, International Conference on Smart Energy and Communication (ICSEC 2020), Convergence-2020, held at Poornima Institute of Engineering and Technology, Jaipur during March 20th -21st, 2020.
  • 14 Divesh Kumar, Manish Kumar, Manish Gupta, “Intelligent Street Light System using ARM Cortex M0+”, International Conference on Smart Energy and Communication (ICSEC 2020), Convergence-2020, held at Poornima Institute of Engineering and Technology, Jaipur during March 20th -21st, 2020.
  • 15 Dheeraj Kalra, “A Review on Design of Low Noise Amplifier for Wideband Applications” International Conference on Smart Energy and Communication (ICSEC 2020), Convergence-2020, held at Poornima Institute of Engineering and Technology, Jaipur during March 20th -21st, 2020.
  • 01IEEE
  • 01From ISRO (Approved 20.98 lakh)
  • 01 INDUCTORLESS LNA USING NOISE CANCELLATION FOR UWB Patent No. : 511269 Application No. : 202111010187
  • 02 Quadruped Spider Robot with Radar System Enabled Publication Number-34/2020 Application Number-202011025405
  • 03 Pollution fighter drone (With IOT and ML Technology) Publication Number-49/2020 Application Number-202011051814
  • 01 FDP CMOS ICs Methodology of Circuit to Chip Design 21st to 23rd Feb. 2019 at GLA University, Mathura.
  • 02 FDP on Numerical Optimization- A Practical Approach, held at GLA University, Mathura 11th – 13th May 2018.
  • 03 Academy Training Program on VLSI Design Verification held at MNIT Jaipur, Rajasthan 16th – 20th December 2017.
  • 04 Short Term Course on Spectrum Sensing for MIMO-OFDM Cognitive Radio Systems organized by IIT Kanpur 21st – 23rd April 2017.
  • 05 Participated in RF and Microwave Design using ADS Workshop held at GLA University, Mathura 12th -13th March 2016.
  • 06 Attended Advancement in Mobile Communication Workshop at GLA University, Mathura 16th -17th Octpber 2015
  • 07 Participated in LabVIEW Workshop held at GLA University, Mathura 25th -26th September 2015.
  • 08 FDP Mission 10–X organized by Wipro Technologies, Bangalore at GLA University, Mathura.
  • 09 IEEE INTERNATIONAL CONFERENCE “CICN-2013” organized by GLA University, Mathura, Uttar Pradesh, India, September 27th – 29th, 2013.
  • 10 IEEE INTERNATIONAL CONFERENCE “CICN-2012” organized by GLA University, Mathura, Uttar Pradesh, India, November 03rd – 05th, 2012.

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