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Dr. Sandeep Kumar

About Dr. Sandeep Kumar

Dr. Sandeep Kumar, With an exceptional h-index of 9 and a recent h-index of 8 (since 2020), a distinguished researcher at National Institute of Technology, Karnataka, specializes in the field of RFIC & MMIC Design, Reconfigurable RF Design, Terahertz Circuit Simulation, Implantable Antenna, AI inspired RF Circuit and Mode.

His recent articles reflect a diverse array of research interests and contributions to the field:

A robust transmission with enhancement of 5G PHY using FBMC and AMC for machine-to-machine communication node

Logic Gates Using Memristor-Aided Logic for Neuromorphic Applications

Adaptive DFT-s-OFDM employed novel multi layered scheme for reduction of PAPR for mMTC node in 5G (NR)

A Low-Power Highly Efficient DC–DC Buck Converter Using PWM Technique

A 0.15 μm GaN HEMT device to circuit approach towards dual-band ultra-low noise amplifier using defected ground bias technique

A High-Sensitive High-Input Impedance CMOS Front-End Amplifier for Neural Spike Detection

Lagrange's multiplier based resource management for energy efficient D2D communication in 5G networks

An Efficient Band CMOS LNA for Satellite-Based Remote Sensing Application

Dr. Sandeep Kumar Information

University

Position

Department of Electronics and communication

Citations(all)

235

Citations(since 2020)

203

Cited By

541

hIndex(all)

9

hIndex(since 2020)

8

i10Index(all)

9

i10Index(since 2020)

7

Email

University Profile Page

Google Scholar

Dr. Sandeep Kumar Skills & Research Interests

RFIC & MMIC Design

Reconfigurable RF Design

Terahertz Circuit Simulation

Implantable Antenna

AI inspired RF Circuit and Mode

Top articles of Dr. Sandeep Kumar

Title

Journal

Author(s)

Publication Date

A robust transmission with enhancement of 5G PHY using FBMC and AMC for machine-to-machine communication node

Internet of Things and Cyber-Physical Systems

Vipin Sharma

Rajeev Kumar Arya

Sandeep Kumar

2023/1/1

Logic Gates Using Memristor-Aided Logic for Neuromorphic Applications

Samiur Rahman Khan

Md Nazmul Haque

Md Tarikul Islam

Jatoth Deepak Naik

AlaaDdin Al-Shidaifat

...

2023/1/28

Adaptive DFT-s-OFDM employed novel multi layered scheme for reduction of PAPR for mMTC node in 5G (NR)

Physical Communication

Vipin Sharma

Rajeev Kumar Arya

Sandeep Kumar

2023/10/1

A Low-Power Highly Efficient DC–DC Buck Converter Using PWM Technique

Md Tarikul Islam

Md Nazmul Haque

Samiur Rahman Khan

Jatoth Deepak Naik

AlaaDdin Al-Shidaifat

...

2023/1/28

A 0.15 μm GaN HEMT device to circuit approach towards dual-band ultra-low noise amplifier using defected ground bias technique

AEU-International Journal of Electronics and Communications

Manishankar Prasad Gupta

Sandeep Kumar

B Elizabeth Caroline

Hanjung Song

Vijay Kumar

...

2023/8/1

A High-Sensitive High-Input Impedance CMOS Front-End Amplifier for Neural Spike Detection

Jatoth Deepak Naik

Pradeep Gorre

AlaaDdin Al-Shidaifat

Sandeep Kumar

Hanjung Song

2023/1/28

Lagrange's multiplier based resource management for energy efficient D2D communication in 5G networks

International Journal of System Assurance Engineering and Management

Krishna Pandey

Rajeev Arya

Sandeep Kumar

2023/7

An Efficient Band CMOS LNA for Satellite-Based Remote Sensing Application

Gunjan Mittal Roy

Sandeep Kumar

Pradeep Gorre

2023/1/28

A 2.71‐pA/√ Hz ultra‐low noise, 70‐dB dynamic range CMOS transimpedance amplifier with incorporated microstrip line techniques over extended bandwidth

International Journal of Circuit Theory and Applications

Pradeep Gorre

R Vignesh

Sandeep Kumar

Hanjung Song

Gunjan Mittal Roy

2023/2

Comparative Study of Power Optimization Technique for M2M Communication Node Under 5G (NR)

Vipin Sharma

Rajeev Kumar Arya

Sandeep Kumar

Krishna Pandey

2023/1/28

An Ultralow-Power CMOS Integrated and Fire Neuron for Neuromorphic Computing

Md Nazmul Haque

Samiur Rahman Khan

Md Tarikul Islam

Jatoth Deepak Naik

AlaaDdin Al-Shidaifat

...

2023/1/28

Efficient Channel prediction technique using AMC and deep learning algorithm for 5G (NR) mMTC devices

IEEE Access

Vipin Sharma

Rajeev Kumar Arya

Sandeep Kumar

2022/4/14

AK/Ka-band switchless reconfigurable 65 nm CMOS LNA based on suspended substrate coupled line

IEEE Access

R Vignesh

Pradeep Gorre

Hanjung Song

Sandeep Kumar

2022/3/25

A wideband, 25/40dBm high I/O power GaN HEMT ultra-low noise amplifier using even-odd mode techniques

Microelectronics Journal

Manishankar Prasad Gupta

Pradeep Gorre

Sandeep Kumar

Venugopal Nulu

2022/10/1

Characterization of a pentagonal CSRR bandpass filter for terahertz applications

Journal of Electronic Materials

B Elizabeth Caroline

K Sagadevan

Sathish Kumar Danasegaran

Sandeep Kumar

2022/9

High-performance graphene FET integrated front-end amplifier using pseudo-resistor technique for neuro-prosthetic diagnosis

BioChip Journal

Jatoth Deepak Naik

Pradeep Gorre

Naga Ganesh Akuri

Sandeep Kumar

Ala’aDdin Al-Shidaifat

...

2022/9

A strip line technique based 1 Gb/s, 70-dB linear dynamic range transimpedance amplifier towards LiDAR unmanned vehicle application

Microelectronics Journal

Pradeep Gorre

R Vignesh

Sandeep Kumar

2022/8/1

A 73% PAE, Highly Gain Inverse Class-F Power Amplifier for S-Band Applications

Jatoth Deepak Naik

Pradeep Gorre

Rajesh Kumar

Sandeep Kumar

Hanjung Song

2021

Highly robust X‐band quasi circulator‐integrated low‐noise amplifier for high survivability of radio frequency front‐end systems.

International Journal of Circuit Theory & Applications

Pradeep Gorre

Hanjung Song

Sandeep Kumar

2021/7/1

Performance of X-Band CMOS LNA with Broadband Approach for 5G Wireless Networks

Srihith Kumar Pottem

Raghavendra D Kabade

TN Nikith

Saptarshi Mondal

Sandeep Kumar

2021

See List of Professors in Dr. Sandeep Kumar University(National Institute of Technology, Karnataka)