Integrated Circuits and Systems group, IIT Madras

Integrated Circuits and Systems group, IIT Madras

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Publications in refereed Journals

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  1. S. Srinivasan, “An Approach To Active Filter Design Problem Using Gyrators: A Fresh Look”, Int. J. Electron .,Vol.34, pp.353-358, Mar 1973.
  2. K. Radhakrishna Rao and S. Srinivasan, “A Bandpass Filter Using The Operational Amplifier Pole”. IEEE J. Solid State Circuits, Vol.SC-8, pp.245-246, June 1973.
  3. K. Radhakrishna Rao and S. Srinivasan, “Low Sensitivity Activity Filters Using The Operational Amplifier Pole”, IEEE Trans, Circuits and Systems, Vol. CAS-21, pp.260-262, Mar.1974.
  4. K. Radhakrishan Rao and S. Srinivasan, “Integrable VCOs Using The Operational Amplifier Pole”, AEU, Vol.28, pp.326-328, July/Aug.1974.
  5. K. Radhakrishna Rao and S. Srinivasan, “A High Q Temperature Insensitive Bandpass Filter Using The Operational Amplifier Pole”, Proc. IEEE, Vol.62, pp.1713-1714, Dec.1974.
  6. K. Radhakrishna Rao and S. Srinivasan, “Voltage Controlled Oscillators (VCOs) For Integrated Circuits”, AEU , Vol.29, pp.374-378, Sep.1975.
  7. S. Srinivasan, “Synthesis Of Transfer Functions Using The Operational Amplifier Pole”, Int. J. Electron., Vol.40, pp.5-13, Jan 1977.
  8. S. Srinivasan, “A Universal Compensation Scheme For Active Filters”, Int. J. Electron, Vol.42, pp.141-151, Feb.1977.
  9. S. Srinivasan, P.C. Rai and K. Radhakrishna Rao, “A Video Selectivity Block For Television Receivers”, IEEE Trans. Consumer Electronics, Vol.CE-27, pp.200-209, Aug.1981.
  10. J.R. Perinbam and S. Srinivasan, “A Continuously Variable Temperature Compensated Gamma Correction Circuit”, IEEE Trans. Consumer Electronics, Vol.CE-28, pp.129-134, May 1982.
  11. G. Kumar and S. Srinivasan, “Design and Development Of A CODEC For Two Sound-in-sync Channels In A TV System”, J.IETE (INDIA), Vol.29, pp.7-10, Jan 1983.
  12. J.R. Perinbam and S. Srinivasan, “Automatic On-line Correction Of Differential Phase In NTSC System, “IEEE Trans. Broadcasting, Vol.BC-29, pp.72-76, June 1983.
  13. S. Srinivasan and J.R. Perinbam “Differential Phase In Colour Television And Its Correction In An NTSC Receiver”, J. IETE (INDIA) Vol.29, pp.305-308, July 1983.
  14. S. Srinivasan, “Raster Scan Display Terminals For Microprocessor Systems,” IETE (India) Student Journal, Vol.244, pp.1-6, July 1983.
  15. J.R. Perinbam and S. Srinivasan, “An Automatic Hue And Differential Phase Correction Scheme For NTSC Receivers Using A New Vertical Interval Reference Signal”, IEEE Trans. Consumer Electronics , Vol.CE-29, pp.516-523, Nov.1983.
  16. K. Elango, P.S. Dixit and S. Srinivasan, “Television Coupled Image Intensifiers: Applications In Astronomy And Optical Tracking Of Artificial Satellites”, J. IETE (India), Vol.30, pp.1-5, Jan. 1984.
  17. K. Prabhakar Rao and S. Srinivasan, “New Design For An 82 270-based Colour Graphics Generator”, Microprocessors and Microsystems, Vol.10, pp.386-391, Sep.1986.
  18. S. Srinivasan, “A Graphics System Design Using A Novel Colour Mapping Scheme” IEEE Trans. Consumer Electronics , Vol.CE-36, pp.944-948, Nov.1990.
  19. Elwin Chandra Monie and S. Srinivasan, “Adaptive Vector Quantization Scheme For Image Coding Using Adaptive Resonance Theory Neural Networks”, Advances in Modelling and Analysis, B , Vol.36, pp.944-948, Nov.1990.
  20. S. Srinivasan, A Singh and S.S. Gill, “Two Dimensional Addressing Scheme For Digital Signal Processors”, Electron. Lett, Vol.27, pp.677-679, April 1991.
  21. G. Vijaya Krishna Prasad, S. Srinivasan and K.M. Patil, “A New DSP Based Multi Channel EMG Acquisition And Analysis System”, Computers and Biomedical Research, Vol.29, pp.395-401, 1996.
  22. S.R. Rangarajan and S. Srinivasan “Generalised Method For Pruning An FET Type Of Transform”, IEEE Proceedings on Vision, Image and Signal Processing, Vol. 144, No.4 pp. 189-192 Aug 1997.
  23. B. Srinivas Kumar and S. Srinivasan, “Design And Development Of A Flux Locked Loop For Low Magnetic Field Measurements Using DC Squids”, IETE Technical Review, Vol.15, No.3, pp. 209-216, May-June, 1998.
  24. S. Venkatesh and S. Srinvasan, “A Modified Butterfly Structure For Efficient Implementation Of Pruned Cosine Transform”, Electronics Letters, Vol. 34, No.14, pp. 1383-1385, July 1998
  25. Shrenik Patel and S.Srinivasan, “A modified EZW algorithm for fast implementation of a wavelet-based image codec”, Electronics Letters, Vol. 36, No.20, pp. 1713-1714, 2000.
  26. K.Gopalakrishna Prabhu, K.Mothiram Patil and S.Srinivasan, “A new method of analysis of standing foot pressure images for detection of plantar ulcers in early stage diabetic neuropathy”, Frontiers of Medical and Biological Engineering, Vol. 11,No. 1, pp. 31-43, 2001.
  27. K.Gopalakrishna Prabhu, Deepak Agrawal, K.Mothiram Patil and S.Srinivasan, “Parameters for analysis of walking foot pressures at different levels of diabetic neuropathy and detection of plantar ulcers at early stages”, Innovation and Technology in Biology and Medicine. Vol. 22, pp. 159-69, 2001.
  28. H.C.Nagaraj, S.Radhakrishnan, S.Srinivasan and T.R.Swaminathan, “Acquisition and analysis of brainstem auditory evoked responses of normal and diseased subjects by spectral estimation”, Frontiers of Medical and Biological Engineering, Vol. 10, No. 1, pp. 67-75, 2000.
  29. S.Ramachandran and S.Srinivasan, “A fast FPGA-based MPEG-2 image encoder with a novel automatic quality control scheme”, Elsevier Science, Microprocessors and Microsystems, Vol.25, pp. 449-457, 2002.
  30. K. Gopalakrishna Prabhu, K. Mothiram Patil, S. Srinivasan, V.B. Narayanamurthy, “Diabetic Feet at different levels of Neuropathy: An artificial Neural Network Model for Foot Classification”, Math Modelling and Sci. Computing, Vol. 13, No. 1-2, pp 79-89,2001.
  31. K.G. Prabhu, K.M. Patil, S.Srinivasan, “Diabetic feet at risk: a new method of analysis of walking foot pressure images at different levels of neuropathy for early detection of plantar ulcers”, Medical & Biological Engineering & Computing, Vol. 39, pp. 288-293, 2001.
  32. S. Ramachandran and S. Srinivasan, “A novel automatic quality control scheme for real time image transmission.” VLSI Design Journal, USA, Vol. 14(4), pp. 329-335, 2002.
  33. S. Ramachandran and S. Srinivasan, A dynamically reconfigurable video compression scheme using FPGAs with coarse-grain parallelism.”, VLSI Design Journal, USA Vol. 15(2), pp. 521-528, 2002.
  34. K. Seth and S. Srinivasan, “Data scheduling scheme for power reduction in DWT-based image coders”, Electronics Letters, Vol. 38, No.9, pp 408-409, April 2002.
  35. S. Ramachandran and S. Srinivasan, “Design and FPGA implementation of an MPEG based video scalar with reduced on-chip memory utilization”, Journal of Systems Architecture, Vol. 51(2005) pp. 435-450.
  36. K.N. Vikram, V. Vasudevan and S.Srinivasan, “Rate-distortion estimation for fast JPEG2000 compression at low bit-rates”, Electronics Letters, Vol. 41, No. 1, pp 16-17, January 2005.
  37. S.Singh and S.Srinivasan, “Architecturally efficient FFT pruning algorithm”, Electronics Letters, Vol. 41, No. 23, pp. 1305-1306, Nov. 2005.
  38. P. Rajesh Kumar, K. Sridharan and S. Srinivasan, “A parallel algorithm, architecture and FPGA realization for landmark determination and map construction in a planar unknown environment”, Parallel Computing Journal, Elsevier, Vol. 32, No. 3, March 2006, pp. 205-221.
  39. Kavish Seth, V. Kamakoti and S. Srinivasan, “Efficient Motion Vector Recovery Algorithm for H.264 Using Directional Interpolation,” IET Journal of Image Processing, April 2010, vol. 4, issue 2, pp. 132-141.
  40. Kavish Seth, T. Rajesh, V. Kamakoti, S. Srinivasan, “Motion Vector Recovery Algorithms for Real-time H.264 Video Streams,” International Journal of Recent Trends in Engineering.(to appear)
  41. Kavish Seth, V. Kamakoti and S. Srinivasan, “Motion Vector Recovery based Error Concealment for H.264 Video Communication: A Review,” IETE Technical Review Journal. (to appear)
  42. Kavish Seth, V. Kamakoti and S. Srinivasan, “Efficient Motion Vector Recovery Algorithms for H.264 using B-Spline Approximation” Submitted in IEEE Trans. on Broadcasting. (to appear)
  43. Kavish Seth, V. Kamakoti and S. Srinivasan, “Multivariate Linear Regression based Motion Vector Recovery in H.264 Videos,” Submitted in Elsevier Journal of Computers and Electrical Engg. (submitted).
people/srini/journals.txt · Last modified: 2010/12/24 10:35 (external edit)