DEPARTMENTS
Dr. Rakesh R. T.
Dr. Rakesh R. T.

Assistant Professor Grade II

Office Address:

ECED-1 : 401, Department of Electronics and Communication Engineering National Institute of Technology Calicut, Kerala, India

Home Address:

  • Ph.D (Thesis - Energy Efficient Millimeter Wave System and Protocols, IIT Kharagpur, 2019)

  • M.Tech in Communication Engineering (NIT Surathkal, 2013)

  • B.Tech in Electronics and Communication Engineering (University of Kerala, 2010)

  • Educational Qualifications

    • Ph.D (Thesis - Energy Efficient Millimeter Wave System and Protocols, IIT Kharagpur, 2019)

    • M.Tech in Communication Engineering (NIT Surathkal, 2013)

    • B.Tech in Electronics and Communication Engineering (University of Kerala, 2010)

    Journals

    • R.T. Rakesh and E Viterbo, “Channel Modeling for Wireless Communications using Ambit Processes”, IEEE  Transactions on Wireless Communications, pp. 1-1, 2020
    • R. T. Rakesh, D. Sen, G. Das, E. Viterbo, and Y. Hong, “On Distance Statistics of First Arriving Multi-paths in Indoormm-Wave Communications”, IEEE Transactions on Vehicular Technology, pp. 1-1, 2020
    • R.T. Rakesh, G.Das, and D.Sen, “Energy Efficient Scheduling for Concurrent Transmission in Millimeter Wave WPANs,” IEEE Transactions on Mobile Computing, vol.17 no. 12, pp. 2789-2803, 2018
    • R. T. Rakesh, D. Sen, and G. Das, “On Bounds of Spectral Efficiency of Optimally Beamformed NLOS Millimeter Wave Links,” IEEE Transactions on Vehicular Technology, vol. 67, no. 4, pp. 3646-3651, 2018
    • R. T. Rakesh, S. Kutty, D. Sen, and G. Das,"A Scalable Subband Subsampled Radio Architecture for Millimeter Wave Communications with Performance Analysis", IET Communications, vol. 10,issue 16, pp. 2071-2083, 2016

     

    • R. T. Rakesh and E.Viterbo, “Geometry based Stochastic Channel Modeling using Ambit Processes”, IEEE WCNC’20, Seoul, South Korea, 2020
    • R. T. Rakesh and E.Viterbo, “Ray-Tracing Simulation of Cross-Road Scenarios Based on a Stochastic Model for Vehicular Traffic”, IEEE VTC’19-fall, Honolulu, USA, 2019
    • R. T. Rakesh,G. Das, and D. Sen, “An Analytical Model for Millimeter Wave Outdoor Directional Non-Line-of-Sight Channels,” IEEE ICC’17, Paris, France, 2017
    • R. T. Rakesh, R. Ranjan, S. Gangwar, D. Sen, and G. Das, “Power Efficient OFDM-mmWave Communications with Low Resolution and Subsampling ADC,” IEEE VTC’17-spring, Sydney, Australia, 2017
    • R.T. Rakesh, A. Chowdhary, D. Sen, and G. Das, “Scalable Sub-band Sub-sampled Radio Architecture for Millimeter Wave Communications,” IEEE PIMRC’15, Hong Kong, China, 2015, pp. 309-314

     

    INVITED PRESENTATIONS

    • “On Bounds of Spectral Efficiency of Optimally Beamformed NLOS Millimeter Wave Links,” Invited presentation at IEEE VTC’18-fall, Chicago, USA, 2018

    Professional Experience

    • Chief Engineer, Modem-PHY Division, Samsung R&D Institute India-Bangalore (Area: EnodeB/GNodeB PHY receive processing, Test frameworks for signal processing chains for LTE and 5G-NR), Karnataka,India, Apr. 2020–Sept. 2022

    • Postdoctoral Research Fellow, Dept. ECSE, Faculty of Engineering, Monash University, Clayton,Australia, (Area:Geometrical channel modeling for high mobility wireless communications), Jan. 2019–Apr. 2020

    • Project intern, Wireless Division,Texas Instruments, Bangalore, Karnataka, India, (Area: Design and Implementation of digital control loop for buck-boost DC-DC converter) May. 2012–May. 2013

    - ZZ1003D Basic Electrical Sciences

    - EC3092D Communication Engineering Lab I

    - EC4091D Communication Engineering Lab II

    - Technology Excellence Award in SCA Q3 (2020) from Samsung R&D Institute India-Bangalore 

    - Secured first rank with Gold Medal during M.Tech, at the National Institute of Technology Karnataka, India (2013)