Sanjeev Mehta

Work place: Indian Space Research Organization, Jodhpur Tekra, Ahmedabad, India- 380015

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Biography

Sanjeev Mehta, Sci/Engr. ‘SF’ Obtained his B.E (Electronics) and M.Tech (Electronics Design & Tech.) from Govt. Engineering college Ujjain and IISc, Bangalore respectively. He joined ISRO in 1992 and is working at SAC, Ahmedabad and presently engaged in developing Onboard electronics for IRS payloads.

Author Articles
ADPCM Image Compression Techniques for Remote Sensing Applications

By Ashok Kumar Rajiv Kumaran Sandip Paul Sanjeev Mehta

DOI: https://doi.org/10.5815/ijieeb.2015.03.04, Pub. Date: 8 May 2015

ISRO's remote sensing continuity mission Resourcesat-II provided better radiometric performance as compared to Resourcesat-I. However, this improvement required implementation of onboard image compression techniques to maintain same transmission interface. In LISS-4 payload, prediction based DPCM technique with 10:7 compression ratio was implemented. Based on received data from this payload, some ringing artifacts were reported at high contrast targets, which degrade image quality significantly. However occurrences of such instances were very few. For future missions, efforts are made to develop an improved low complex image compression technique with better radiometry and lesser artifacts. Adaptive DPCM (ADPCM) technique provides better radiometric performance. This technique has been implemented onboard by other space agencies with their own proprietary algorithm. To maintain existing 10:7 compression ratio, novel ADPCM techniques with adaptive quantizers are developed. Developed ADPCM techniques are unique w.r.t. predictor and encoding. Developed techniques improve RMSE from 1.3 to 10 times depending on image contrast. Ringing artifacts are reduced to 1% from 38% with previous technique. Developed techniques are of low complexity and can be implemented in low end FPGA.

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Design of 12B/14B: A Novel SERDES Encoding Technique

By Ashok Kumar Sanjeev Mehta

DOI: https://doi.org/10.5815/ijitcs.2014.09.04, Pub. Date: 8 Aug. 2014

In satellite systems, large amount of high speed data is required to be transmitted from one system to another. Conventional parallel data transmission requires a large number of cables/interface-packages and results in large weight and volume. Parallel interface in a typical future camera system requires >8000 cables between camera electronics and data handling system. In addition, with increase in transmission rate, problems associated with crosstalk become more critical. One possible solution identified is serial interface, also termed as SERDES (SERializer/DESerializer) interface. A typical SERDES interface comprises of encoder/decoder, PLL, timing-control and multiplexer/de-multiplexer. Encoding of serial data solves high speed serial data transmission problems by incorporating clock embedding, DC balancing, sync info insertion and error detection. DC balancing also solves the issue of Inter-Symbol Interference (ISI). Available SERDES interface devices have limitations like poor reduction factor, no clock embedding or non-availability of space qualified part. Hence, an attempt is made to understand and implement SERDES encoder/decoder with a goal of indigenous SERDES ASIC development. Due to 12-bit input interface, a novel 12B/14B encoding technique is designed and developed. The developed technique preserves many good properties widely used 8B/10B encoding technique. FPGA simulation results achieved >50MSPS parallel rate which will lead to >700 Mpbs serial rate. Developed technique is very efficient and suitable for onboard implementation.

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