Satish K. Shah

Work place: Department of Electrical Engineering, The Maharaja Sayajirao University of Baroda, Vadodara, Gujarat, India

E-mail: satishkshah_2005@yahoo.com

Website:

Research Interests: Interaction Design, Embedded System, Processor Design, Algorithm Design

Biography

Prof. Satish Shah is a professor in the Electrical Engineering Department at Faculty of Technology, MS University of Baroda for last Twenty Five years. He is a fellow of IE(I) for past Fourteen Years and has also served as the member of Committee of Vadodara local center for more than Ten years in past. He has guided more than hundred projects at UG/PG level and completed a research project on DSP based Active Power filter sponsored by AICTE, New Delhi. He has written three books on Embedded System design / Microprocessors / Microcontrollers and presented/published more than 35 research papers in national / international conferences / Journals. He has attended and organized several seminars, workshops, and symposiums for UGC, AICTE, IETE, and MSU. He is a fellow of other technical associations such as: IETE, ISA and IEEE (NY) & ISTE. He has served as the member, Hon Secretary and Treasurer of their local executive committees for a span of ten years.

Author Articles
Time-Delay Neural Network for Smart MIMO Channel Estimation in Downlink 4G-LTEAdvance System

By Nirmalkumar S. Reshamwala Pooja S. Suratia Satish K. Shah

DOI: https://doi.org/10.5815/ijitcs.2014.06.01, Pub. Date: 8 May 2014

Long-Term Evolution (LTE) is the next generation of current mobile telecommunication networks. LTE has a new flat radio-network architecture and significant increase in spectrum efficiency. In this paper, main focus on throughput performance analysis of robust MIMO channel estimators for Downlink Long Term Evolution-Advance (DL LTE-A)-4G system using three Artificial Neural Networks: Feed-forward neural network (FFNN), Cascade-forward neural network (CFNN) and Time-Delay neural network (TDNN) are adopted to train the constructed neural networks’ models separately using Back-Propagation Algorithm. The methods use the information received by the received reference symbols to estimate the total frequency response of the channel in two important phases. In the first phase, the proposed ANN based method learns to adapt to the channel variations, and in the second phase, it estimates the MIMO channel matrix and try to improve throughput of LTE. The performance of the estimation methods is evaluated by simulations in Vienna LTE-A DL Link Level Simulator. Performance of the proposed channel estimator, Time-Delay neural network (TDNN) is compared with traditional Least Square (LS) algorithm and ANN based other estimators for Closed Loop Spatial Multiplexing (CLSM) - Single User Multi-input Multi-output (MIMO-2×2 and 4×4) in terms of throughput. Simulation result shows TDNN gives better performance than other ANN based estimations methods and LS.

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Artificial Neural Network trained by Genetic Algorithm for Smart MIMO Channel Estimation for Downlink LTE-Advance System

By Nirmalkumar S. Reshamwala Pooja S. Suratia Satish K. Shah

DOI: https://doi.org/10.5815/ijcnis.2014.03.02, Pub. Date: 8 Feb. 2014

Long-Term Evolution (LTE) is the next generation of current mobile telecommunication networks. LTE has a flat radio-network architecture and significant increase in spectrum efficiency, throughput and user capacity. In this paper, performance analysis of robust channel estimators for Downlink Long Term Evolution-Advanced (DL LTE-A) system using three Artificial Neural Networks: Feed-forward neural network (FFNN), Cascade-forward neural network (CFNN) and Layered Recurrent Neural Network (LRN) are trained separately using Back-Propagation Algorithm and also ANN is trained by Genetic Algorithm (GA). The methods use the information got by the received reference symbols to estimate the total frequency response of the channel in two important phases. In the first phase, the proposed ANN based method learns to adapt to the channel variations, and in the second phase it estimates the channel matrix to improve performance of LTE. The performance of the estimation methods is evaluated by simulations in Vienna LTE-A DL Link Level Simulator in MATLAB software. Performance of the proposed channel estimator, ANN trained by Genetic Algorithm (ANN-GA) is compared with traditional Least Square (LS) algorithm and ANN based other estimator like Feed-forward neural network, Layered Recurrent Neural Network and Cascade-forward neural network for Closed Loop Spatial Multiplexing (CLSM)-Single User Multi-input Multi-output (MIMO-2×2 and 4×4) in terms of throughput. Simulation result shows proposed ANN-GA gives better performance than other ANN based estimations methods and LS.

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Study of ANN Configuration on Performance of Smart MIMO Channel Estimation for Downlink LTE-Advanced System

By Nirmalkumar S. Reshamwala Pooja S. Suratia Satish K. Shah

DOI: https://doi.org/10.5815/ijcnis.2013.11.04, Pub. Date: 8 Sep. 2013

Long-Term Evolution (LTE) is the next generation of current mobile telecommunication networks. LTE has a new flat radio-network architecture and significant increase in spectrum efficiency. In this paper, performance analysis of robust channel estimators for Downlink Long Term Evolution-Advanced (DL LTE-A) system using three Artificial Neural Network ANN Architectures: Feed-forward neural network, Cascade-forward neural network and Layered Recurrent Neural Network (LRN) are adopted to train the constructed ANNs models separately using Back-Propagation Algorithm. The methods use the information got by the received reference symbols to estimate the total frequency response of the channel in two important phases. In the first phase, the proposed ANN based method learns to adapt to the channel variations, and in the second phase it estimates the channel matrix to improve performance of LTE. The performance of the estimation methods is evaluated by simulations in Vienna LTE-A DL Link Level Simulator. Performance of the proposed channel estimator, Layered Recurrent Neural Network is compared with traditional Least Square (LS) algorithm and ANN based other estimator like Feed-forward neural network and Cascade-forward neural network for Closed Loop Spatial Multiplexing-Single User Multi-input Multi-output (2×2 and 4×4) (CLSM-SUMIMO) in terms of throughput. Simulation result shows LRN gives better performance than other ANN based estimations methods and LS.

[...] Read more.
Other Articles