Vinod A Prasad

                                                   Associate Professor

                                       School of Computer Engineering

Publications

Journal Papers: 39

International Conference Papers: 104

 

Refereed Journals

 

39. Smitha K. G. and A. P. Vinod, “Cluster based power efficient cooperative spectrum sensing under reduced bandwidth using location information,” International Journal of Electronics and Communications (Elsevier), Accepted in March 2012.

 

38. Prashob R. Nair, A. P. Vinod, Smitha K. G. and Anoop Kumar Krishna, “Fast two-stage spectrum detector for cognitive radios in uncertain noise channels,” IET Communications, Accepted in February 2012.

 

37.  Mengda Lin and A. P. Vinod, “A low complexity high resolution cooperative spectrum sensing scheme for cognitive radios,” Circuits, Systems and Signal Processing (Springer), Accepted in October 2011.

 

36. Navin Michael, A. P. Vinod, Christophe Moy and Jacques Palicot, “Design of multistandard channelization accelerators for software defined radio handsets,” IEEE Transactions on Signal Processing, Accepted in June 2011.

 

35. Smitha K. G. and A. P. Vinod, “A multi-resolution fast filter bank for spectrum sensing in military radio receivers,” IEEE Transactions on VLSI Systems, Accepted in April 2011.

 

34. R. Mahesh and A. P. Vinod, “A low complexity flexible spectrum sensing scheme for mobile cognitive radio terminals,” IEEE Transactions on Circuits & Systems II, Accepted in March 2011.  

 

33. Kavitha P. Thomas, C. T. Guan, Lau Chiew Tong, A. P. Vinod and Ang Kai Keng, “Adaptive tracking of discriminative frequency components in EEG for a robust Brain-Computer Interface,” Journal of Neural Engineering, Accepted in February 2011.

 

32. A. P. Vinod, Edmund M.-K. Lai, Pramod Kumar Meher, Jacques Palicot and Shahriar Mirabbasi, “Guest Editorial of Special Issue on Embedded signal processing circuits and systems for cognitive radio-based wireless communication devices,” Circuits, Systems and Signal Processing Journal, Springer, 2011.

 

31. S. J. Darak, A. P. Vinod and E. M-K. Lai, “A low complexity reconfigurable non-uniform filter bank for channelization in multi-standard wireless communication receivers,” Journal of Signal Processing Systems for Signal, Image and Video Technology (formerly the Journal of VLSI Signal Processing Systems for Signal, Image and Video Technology), Springer, Accepted in January 2011.

 

30.  Smitha K. G. and A. P. Vinod, “A reconfigurable channel filter for software defined radio using RNS,” Journal of Signal Processing Systems for Signal, Image and Video Technology, Springer, Accepted in Oct. 2010.

 

29.  Navin Michael, A. P. Vinod, Christophe Moy and Jacques Palicot, “Flexibility and reusability in the digital front-end of cognitive radio terminals,” Circuits, Systems and Signal Processing Journal, Springer, vol. 30, no. 4, pp. 799-821, 2011.

 

28.  R. Mahesh and A. P. Vinod, “An area-efficient non-uniform filter bank for low overhead reconfiguration of multi-standard software radio channelizers,” Journal of Signal Processing Systems for Signal, Image and Video Technology, Springer, Accepted in June 2010.

 

27.    R. Mahesh and A. P. Vinod, Low complexity flexible filter banks for uniform and non-uniform channelization in software radios using coefficient decimation, IET Circuits, Devices & Systems, Accepted in June 2010.

 

26.  Navin Michael, Christophe Moy, A. P. Vinod and Jacques Palicot, “Area-Power tradeoffs for flexible filtering in green radios,” Journal of Communications and Networks, Accepted in March 2010.

 

25.   R. Mahesh and A. P. Vinod, “A reconfigurable low area complexity filter bank architecture based on frequency response masking for non-uniform channelization in software radio receivers,” IEEE Transactions on Aerospace and Electronic Systems, Accepted in December 2009.

 

24.   A. P. Vinod, Edmund Lai, Douglas Maskell and P. K. Meher, “An improved common subexpression elimination method for reducing logic operators in FIR filter implementations without increasing logic depth,” Integration, the VLSI Journal, Elsevier, vol. 43, no. 1, pp. 124-135, January 2010 (Available online).

 

23.  R. Mahesh and A. P. Vinod, “New reconfigurable architectures for implementing FIR filters with low complexity,” IEEE Transactions on Computer-Aided Design of Integrated Circuits & Systems, Accepted in October 2009.

 

22.  A. P. Vinod, Edmund M-K. Lai and Amos Omondi, “Guest Editorial of Special Issue on Signal Processing for Software Defined Radio Handsets,” Journal of Signal Processing Systems for Signal, Image and Video Technology, Springer, DOI: 10.1007/s11265-009-0428-2, Published online in Nov 2009.

 

21.  Kavitha P. Thomas, Cuntai Guan, Lau Chiew Tong, A. P. Vinod and Kai Keng Ang, “A New Discriminative Common Spatial Pattern Method for Motor Imagery Brain-Computer Interfaces,” IEEE Transactions on  Biomedical Engineering, vol. 56, no. 11, pp. 2731-2733, November 2009.

 

20.   Smitha K. G. and A. P. Vinod, “A low power reconfigurable channel filter using multi-band and masking architecture for channel adaptation in cognitive radio,” IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences, vol. E92-A, no. 6, June 2009.

 

19.   Smitha K. G. and A. P. Vinod, “A new low power reconfigurable decimation-interpolation and masking filter based filter architecture for channel adaptation in cognitive radio handsets,” Physical Communication Journal (Elsevier), Article in Press: doi10.1016/j.phycom.2009.02.003.

 

18.   Mengda Lin, A. P. Vinod and See Chong Meng Samson, “A new flexible filter bank for low complexity spectrum sensing in cognitive radios,” Journal of Signal Processing Systems for Signal, Image and Video Technology, Springer, Article in Press: DOI 10.1007/s11265-008-0329-9.

 

17.  Smitha K. G. and A. P. Vinod, “A low complexity reconfigurable multi-stage channel filter architecture for resource-constrained software radio handsets,” Journal of Signal Processing Systems for Signal, Image and Video Technology, Springer, Article in Press: DOI 10.1007/s11265-008-0330-3.

 

16.  R. Mahesh, A. P. Vinod, E. M-K. Lai and Amos Omondi, “Filter bank channelizers for multi-standard software defined radio receivers,” Journal of Signal Processing Systems for Signal, Image and Video Technology, Springer, Article in Press: DOI 10.1007/s11265-008-0327-y.

 

15.   P. K. Meher. Jagdish Patra and A. P. Vinod “Efficient systolic designs for 1- and 2-dimensional DFT of general transform-lengths for high-speed wireless communication applications,” Journal of Signal Processing Systems for Signal, Image and Video Technology, Springer, Article in Press: DOI 10.1007/s11265-008-0328-x.

 

14.   Smitha K.G. and A. P. Vinod, “Low power realization and synthesis of higher-order  FIR filters using an improved  common subexpression  elimination method,” IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences, vol. E91-A, no.11, pp. 3282-3292, November 2008.

 

13.     Jimson Mathew, R. Mahesh, A. P. Vinod and Edmund M-K. Lai, “Realization of low power high-speed channel filters with stringent  adjacent channel attenuation specifications for wireless communication receivers,” IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences, vol. E91-A, no.9, pp. 2564-2570, September 2008.

 

12.    Chip-Hong Chang, Jiajia Chen and A.P.Vinod, “Information Theoretic Approach  to Complexity Reduction of FIR Filter Design,” IEEE Transactions on Circuits & Systems I, vol. 55, no. 8, pp. 2310-2321, September 2008.

 

    11.  R.Mahesh and A.P.Vinod, “Reconfigurable frequency response masking filters for software radio channelization,” IEEE Transactions on Circuits & Systems II, vol. 55. no. 3, pp. 274-278, March 2008.

 

    10.  R. Mahesh and A. P.Vinod, “A new common subexpression elimination algorithm for    realizing low complexity higher order digital filters,” IEEE Transactions on Computer-Aided Design of Integrated Circuits & Systems, pp. 217-229, vol. 27, no. 2, February 2008.

 

     9. A.P.Vinod, Deepu Rajan and Ankita Singla, “A novel differential pixel-based low power and high-speed implementation of DCT for on-board satellite image processing,” IET Circuits, Devices & Systems, pp. 444-450, vol.1, no. 6, December 2007.

 

8.      A.P.Vinod, Ankita Singla and C. H. Chang, “Low power differential coefficients-based FIR filters using hardware optimized multipliers,” IET Circuits, Devices & Systems, vol. 1, no. 1, pp. 13-20, February 2007.

 

7.      A.P.Vinod and E.M-K.Lai, “Low power and high-speed implementation of FIR filters for software defined radio receivers,” IEEE Transactions on Wireless Communications, vol. 5, no. 7, pp. 1669-1675, July 2006.

 

6.       A.P.Vinod, “Design and experimental evaluation of improved least squares and weighted least squares quadrature mirror filters ,” IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences, vol. E89-A, no.1, pp.316-320, January 2006.

 

5.      A.P.Vinod and E.M-K.Lai, “An efficient coefficient-partitioning algorithm for realizing low complexity digital filters,” IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, vol. 24, no. 12, pp. 1936-1946, December 2005.

 

4.      A.P.Vinod and E.M-K.Lai, “On the implementation of efficient channel filters for wideband receivers by optimizing common subexpression elimination methods,” IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, pp. 295-304, vol. 24, no.2, Feb. 2005.

  1. A.P.Vinod, E.M-K.Lai, A.B.Premkumar, and C.T.Lau, “FIR implementation by efficient sharing of horizontal and vertical common sub-expressions,” IEE Electronics Letters, pp. 251-253, vol. 39, no. 2, January 2003.
  1. A.B.Premkumar and A.P.Vinod, “A Modified design to Eliminate Pass Band Anomaly in Weighted Minimax Quadrature Mirror Filters”, IEEE Signal Processing letters, pp. 224-226, vol. 7, no. 8, August 2000.
  1. A.P.Vinod and A.B.Premkumar, “A Memory-less reverse converter for the 4-Moduli Superset”, Journal of Circuits, Systems & Computers, World Scientific, vol. 10, nos. 1&2, pp. 85-100, April 2000. 

 

 

Refereed International Conferences

 

104. Abhishek Ambede, Smitha K. G. and A. P. Vinod, “A modified coefficient decimation method to realize low complexity FIR filters with enhanced frequency response flexibility and passband resolution,” 35th International Conference on Telecommunications and Signal Processing (TSP),Prague, Czech Republic, July 2012 (Accepted).

 

103. Divya Swaminathan, A. P. Vinod and Kavitha P. Thomas, “An electrooculogram based assistive communication system with improved speed and accuracy using multi-directional eye movements,” 35th International Conference on Telecommunications and Signal Processing (TSP),Prague, Czech Republic, July 2012 (Accepted).

 

102. Neethu Robinson, A. P. Vinod, Cuntai Guan, Kai Keng Ang and Tee Keng Peng, “A modified wavelet-common spatial pattern method for decoding hand movement directions in brain computer interfaces,” 2012 IEEE International Joint Conference on Neural Networks, Brisbane, Australia, June 2012 (Accepted).

 

101. S. J. Darak, A. P. Vinod and E. M-K. Lai, Design of variable linear phase FIR filters based on second order  frequency transformations and coefficient decimation,” IEEE International Symposium on Circuits & Systems, Seoul, Korea, May 2012 (Accepted).

 

100.  Smitha K. G., A. P. Vinod and Prashob R. Nair, “Low power DFT filter bank based two-stage spectrum sensing,” 8th IEEE International Conference on Innovations in Information Technology, Al Ain, United Arab Emirates, March 2012 (Accepted).

 

99. Neethu Robinson, A. P. Vinod, Cuntai Guan, Kai Keng Ang and Tee Keng Peng, “A Wavelet-CSP Method to Classify Hand Movement Directions in EEG based BCI System,” Proceedings of 8th IEEE International Conference on Information, Communications and Signal Processing (ICICS 2011), Singapore, December 2011.

 

98. Prashob R. Nair, A. P. Vinod and Anoop Kumar Krishna, “An energy detector for cognitive radios in channels at low SNR using adaptive threshold,” Proceedings of 8th IEEE International Conference on Information, Communications and Signal Processing (ICICS 2011), Singapore, December 2011.

 

97. V. Rakesh, Smitha K. G. and A. P. Vinod, “Low complexity flexible hardware-efficient decimation selector,” Proceedings of IEEE International Symposium on Electronics Design (ISED 2011), Kochi, India, December 2011.

 

96. S.J. Darak, A. P. Vinod and E. M-K. Lai, “Design of variable bandpass filters using first order allpass transformation and coefficient decimation,” 18th Electronics New Zealand Conference (ENZCON), 21-22 November 2011, Palmerston North, New Zealand.

 

95. Prashob R. Nair, A. P. Vinod and Anoop Kumar Krishna, “A fast two-stage detector for spectrum sensing in cognitive radios,” IEEE Vehicular Technology Conference (VTC-Fall), San Francisco, USA, September 2011.

 

94. Smitha K. G. and A. P. Vinod, “Cluster based cooperative spectrum sensing using location information for cognitive radios under reduced bandwidth,” 54th IEEE International MidWest Symposium on Circuits & Systems (MWSCAS), Seoul, South Korea, August 2011.

 

93. Smitha K. G., A. P. Vinod and R. Mahesh, “Reconfigurable area and power efficient I-Q mapper for adaptive modulation,” 54th IEEE International MidWest Symposium on Circuits & Systems (MWSCAS), Seoul, South Korea, August 2011.

 

92. Mengda Lin and A. P. Vinod, “A low complexity cooperative spectrum sensing scheme for cognitive radios,” 54th IEEE International MidWest Symposium on Circuits & Systems (MWSCAS), Seoul, South Korea, August 2011.

 

 91. S, J, Darak, A. P. Vinod and Edmund Lai, “A low complexity spectrum sensing scheme for estimating frequency band edges in multi-standard military communication receivers,” IEEE International Conference on Communication, Science & Information Engineering (CCSIE 2011), London, UK, July 2011.

 

90. Mengda Lin and A. P. Vinod, “A new spectrum detection approach for cognitive radios using fuzzy logic,” IEEE International Conference on Communication, Science & Information Engineering (CCSIE 2011), London, UK, July 2011.

 

89. Mengda Lin and A. P. Vinod, “Implementation of a low area and high-speed spectrum sensor with reconfigurable sensing resolution for cognitive radios,” 9th IEEE International NEWCAS Conference, Bordeaux, France, June 2011.

 

88. E. W. T. Lee and A. P. Vinod, “A spatial and spectral detection approach for primary user interference mitigation in cognitive radios,” 2011 URSI General Assembly and Scientific Symposium, Istanbul, Turkey, August, 2011.

 

87. M. Narendar, A. P. Vinod, A. S. Madhukumar and A. P. Vinod, “Automatic modulation classification for cognitive radios using cumulants based on fractional lower order statistics,” 2011 URSI General Assembly and Scientific Symposium, Istanbul, Turkey, August, 2011.

 

86. S. J. Darak, A. P. Vinod and E. M-K. Lai, “N new variable digital filter design based on fractional delay,” IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP), Prague, Czech Republic, May 2011.

 

85. Jaison Jacob, Asha Panicker, A. P. Vinod and Jimson Mathew, “Exploration of a distributed approach for simulating spectrum sensing in cognitive radio,” Proc. of IEEE International Conference on Communication and Signal Processing, Calicut, India, Feb 2011.

 

84.  Smitha K. G., R. Mahesh and A. P. Vinod, “Challenges in digital filter bank implementation from a cognitive radio  perspective - A review,” Asia-Pacific Signal and Information Processing Association (APSIPA) Annual Summit and Conference, Singapore, December 2010.

 

83. Prashob R. Nair, A. P. Vinod and Anoop Kumar Krishna, “An adaptive threshold based energy detector for spectrum sensing in cognitive radios at low SNR,” IEEE International Conference on Communication Systems, Singapore, November 2010.

 

82. R. Mahesh and A. P. Vinod, “Reconfigurable discrete Fourier transform filter banks for variable resolution spectrum sensing,” IEEE International Conference on Communication Systems, Singapore, November 2010.

 

81. Navin Michael, A. P. Vinod, Christophe Moy and Jacques Palicot, “Low power, flexible FIR filters in the digital front-end of green radios,” Proceedings of IEEE International Symposium on Personal, Indoor and Mobile Radio Communications, Istanbul, Turkey, September 2010.

 

80.   Smitha K. G. and A. P. Vinod, “A multi-resolution digital filter bank for spectrum sensing in military radio receivers,” Proceedings of IEEE International Conference on Signal Processing and Communications, Bangalore, India, July 2010. 

 

79.  R. Mahesh and A. P. Vinod, “Reconfigurable discrete Fourier transform filter banks for multi-standard channelizers,” Proceedings of IEEE International Conference on Signal Processing and Communications, Bangalore, India, July 2010. 

 

78. Navin Michael, A. P. Vinod, Christophe Moy and Jacques Palicot, “Area-efficient time-shared FIR filters in nanoscale CMOS,” Proceedings of IEEE International Conference on Green Circuits and Systems, Shanghai, China, June 2010.

 

77.  M. Narendar, A. P. Vinod, A. S. Madhukumar and Anoop Kumar Krishna “A tree-structured DFT filter bank based spectrum sensor for estimation of radio channel edge frequencies in military wideband receivers,” Proceedings of the IEEE International Conference on Information Sciences, Signal Processing and their Applications, Kuala Lumpur, Malaysia, May 2010.

 

76.  S. J. Darak, A. P. Vinod, R. Mahesh and E. M-K. Lai “A reconfigurable filter bank for uniform and non-uniform channelization in multi-standard wireless communication receivers,” Proceedings of the 17th IEEE International Conference on Telecommunications, Doha, Qatar, April 2010.

 

75. M. Narendar, A. P. Vinod, A. S. Madhukumar and Anoop Kumar Krishna “An algorithm for spectrum sensing in cognitive radio using tree-structured filter bank,” Proceedings of the 17th IEEE International Conference on Telecommunications, Doha, Qatar, April 2010.

 

74. Mengda Lin, A. P. Vinod and SEE Chong Meng Samson “Progressive decimation filter banks for variable resolution spectrum sensing in cognitive radios,” Proceedings of the 17th IEEE International Conference on Telecommunications, Doha, Qatar, April 2010.

 

73. Smitha K. G. and A. P. Vinod, “A reconfigurable non-uniform filter bank architecture for military radio receivers,” Proceedings of the 17th IEEE International Conference on Telecommunications, Doha, Qatar, April 2010.

 

72. Navin Michael, A. P. Vinod, Christophe Moy and Jacques Palicot, “Design paradigm for standard agnostic channelization in flexible mobile radios,” Proceedings of IEEE International Symposium on Circuits and Systems, Paris, France, May-June 2010.

 

71. Kavitha P. Thomas, Guan Cuntai, Lau Chiew Tong and A. P. Vinod, “A study on the impact of spectral variability in brain-computer interface,” Proceedings of IEEE International Symposium on Circuits and Systems, Paris, France, May-June 2010.

 

70. Navin Michael, A. P. Vinod, Christophe Moy and Jacques Palicot, “Design of low power multimode time-shared filters,” Proceedings of 7th IEEE International Conference on Information, Communications and Signal Processing, Macau, December 2009.

 

69. S.-Y. Cho, A. P. Vinod and K. W. E. Cheng, “Towards a brain-computer interface based control for next generation electric wheelchairs,” Proceedings of 3rd International Conference on Power Electronics Systems and Applications, 2009, art. no. 5228668.

 

68. Mengda Lin, A. P. Vinod and SEE Chong Meng Samson, “Very low complexity variable resolution filter banks for spectrum sensing in cognitive radios using  multi-stage coefficient decimation,” Proceedings of 5th IEEE International Conference on Wireless Communications, Networking and Mobile Computing, Beijing, China, Sept 2009.

 

67. R. Mahesh, A. P. Vinod, B. Y. Tan and E. M-K. Lai, “A tree-structured non-uniform filterbank for multi-standard wireless receivers,” Proceedings of IEEE International Symposium on Circuits & Systems, Taipei, Taiwan, May 2009.

 

 66. Kavitha P. Thomas, Cuntai Guan, Lau Chiew Tong and A. P. Vinod, “Discriminative filterbank selection and EEG information fusion for brain computer interface,” Proceedings of IEEE International Symposium on Circuits & Systems, Taipei, Taiwan, May 2009.

 

65. Huang Beilei, E. M-K. Lai and A. P. Vinod, “Image resizing and rotation based on the consistent resampling theory,” Proceedings of IEEE International Symposium on Intelligent Signal Processing and Communication Systems, Bangkok, Thailand, December 2008.

 

64. Smitha K. G. and A. P. Vinod, “A new low complexity reconfigurable channel filter architecture for software radio handsets,” Proceedings of IEEE International Conference on Communication Systems, Guangzhou, China, November 2008.

 

63. Smitha K. G. and A. P. Vinod, “A reconfigurable high-speed RNS-FIR channel filter for multi-standard software radio receivers,” Proceedings of IEEE International Conference on Communication Systems, Guangzhou, China, November 2008.

 

62.  D. L. Maskell, A. P. Vinod and G. S. Woods, “Multiplierless multi-standard SDR channel filters,” Proceedings of IEEE Int. Workshop Multimedia Signal Processing, Cairns, Australia, October 2008.

 

61. Navin Michael and A. P. Vinod, “Reconfigurable architecture for arbitrary sample rate conversion in software defined radios,” Proceedings of 19th IEEE International Symposium on Personal, Indoor and Mobile Radio Communications,  Cannes, France, September 2008.

 

60. Smitha K. G. and A. P. Vinod, “A reconfigurable low complexity architecture for channel adaptation in cognitive radio,” Proceedings of 19th IEEE International Symposium on Personal, Indoor and Mobile Radio Communications, Cannes, France, September 2008.

 

59. Kavitha P Thomas, C. T. Guan, Lau Chiew Tong and A. P. Vinod, “An Adaptive Filter Bank for Motor Imagery based Brain Computer Interface,” Proceedings of 30th Annual International Conference of the IEEE Engineering in Medicine and Biology Society,  Vancouver, Canada, August 2008.

 

58. R. Mahesh and A. P. Vinod, “Reconfigurable filter banks for software defined radio receivers – An alternative low complexity design to conventional DFT filter banks,” Proceedings of URSI (International Union of Radio Science) General Assembly,, Chicago, USA, August 2008.

 

57. S. T. Gul, R. Mahesh, C. Moy, A. P. Vinod and Jacques Palicot, “A graphical approach for the optimization of SDR channelisers,” Proceedings of URSI (International Union of Radio Science) General Assembly,, Chicago, USA, August 2008.

 

56. R. Mahesh, A. P. Vinod, Christophe Moy and Jacques Palicot, “A low complexity reconfigurable filter bank architecture for spectrum sensing in cognitive radios,” Proceedings of 3rd International Conference on Cognitive Radio Oriented Wireless Networks and Communications, Singapore, May 2008.

 

55. Douglas Maskell and A. P. Vinod, “Efficient multiplierless channel filters for multi-standard SDR,” Proceedings of IEEE 8th International Conference on Computer and Information Technology, Sydney, Australia, July 2008.

 

54. R. Mahesh and A. P. Vinod, “Coefficient Decimation Approach for Realizing Reconfigurable Finite Impulse Response Filters,” Proceedings of IEEE International Symposium on Circuits and Systems, Seattle, USA, May 2008.

 

53. Smitha K. G., R. Mahesh and A. P. Vinod, “A Reconfigurable Multi-Stage Frequency Response Masking Filter Bank Architecture for Software Defined Radio Receivers,” Proceedings of IEEE International Symposium on Circuits and Systems, Seattle, USA, May 2008.

 

52.  S. Vijay and A. P. Vinod. “A New Algorithm to implement low complexity DCT for portable multimedia devices,” Proceedings of International Conference on Signal Processing and Communication Systems, pp. 171-176, Gold Coast, Australia, December 2007.

 

51. R. Mahesh and A. P. Vinod, “A New Low Complexity Reconfigurable Filter Bank Architecture for Software Radio Receivers Based on Interpolation and Masking Technique,” Proceedings of Sixth IEEE International Conference on Information, Communications and Signal Processing, Singapore, December 2007.

 

50. Jimson Mathew, R. Mahesh, A. P. Vinod and E. M-K. Lai, “Realization of Low Power High-Speed Channel Filters with Stringent Adjacent Channel Attenuation Specifications for Software Radio Receivers,” Proceedings of Sixth IEEE International Conference on Information, Communications and Signal Processing, Singapore, December 2007.

 

49. Ankita Singla, A. P. Vinod, Deepu Rajan and E. M-K. Lai, “Low Power DCT Implementation Using Differential Pixels for On-Board Satellite Image Processing,” Proceedings of Sixth IEEE International Conference on Information, Communications and Signal Processing, Singapore, December 2007.

 

48. Huang Beilei, E. M-K. Lai and A. P. Vinod, “Implementation and applications of consistent resampling,” Proceedings of Sixth IEEE International Conference on Information, Communications and Signal Processing, Singapore, December 2007.

 

47. P. K. Meher, J. C. Patra and A. P. Vinod “Novel Recursive Solution for Area-Time Efficient Systolization of Discrete Fourier Transform,” Proceedings IEEE International Symposium on Signals, Circuits and Systems, pp.193-196,  Romania, July, 2007.

 

46. R. Mahesh and A. P. Vinod, “An architecture for integrating low complexity and reconfigurability for channel filters in software defined radio receivers,” Proceedings of IEEE International Symposium on Circuits and Systems, pp. 2514-2517, New Orleans, USA, May 2007.

 

45. R. Mahesh and A. P. Vinod, “Frequency response masking based reconfigurable channel filters for software radio receivers,” Proceedings of IEEE International Symposium on Circuits and Systems, pp. 2518-2521, New Orleans, USA, May 2007.

 

44. Smitha K. G. and A. P. Vinod, “A new binary common subexpression elimination method for implementing low complexity FIR filters,” Proceedings of IEEE International Symposium on Circuits and Systems, pp. 2327-2331, New Orleans, USA, May 2007.

 

43. Himanshu Thapliyal and A. P. Vinod, “Designing efficient online testable reversible adders with new reversible gate,” Proceedings of IEEE International Symposium on Circuits and Systems, pp. 1085-1089, New Orleans, USA, May 2007.

 

42. Himanshu Thapliyal and A. P. Vinod, “Design of reversible sequential elements with feasibility of transistor implementation,” Proceedings of IEEE International Symposium on Circuits and Systems, pp. 625-629, New Orleans, USA, May 2007.

 

41. S. Vijay, A. P. Vinod and E. M-K. Lai, “A greedy common subexpression elimination algorithm for implementing FIR filters,” Proceedings of IEEE International Symposium on Circuits and Systems, pp. 3451-3455, New Orleans, USA, May 2007.

40. Huang Beilei, E. M-K. Lai and A. P. Vinod, “Sampling at minimum sampling rates for signals in shift invariant spaces,” Proceedings of IEEE International Symposium on Circuits and Systems, New Orleans, pp. 4004-4007, USA, May 2007.

39. Sabu Emmanuel, A. P. Vinod, Deepu Rajan and Chee Kiang Heng, "An authentication watermarking scheme with transaction tracking enabled," Proceedings of IEEE International Conference on Digital Ecosystems and Technologies, Cairns, Australia, February 2007 (accepted).

38. Zhao Chang, A.P.Vinod and P.K.Meher, "Reconfigurable architectures for low complexity software radio channelizers using hybrid filter banks," Tenth IEEE International Conference on Communication Systems, Singapore, November 2006. 

37. Huang Beilei, E.M-K.Lai and A.P.Vinod, "Demodulation of UWB impulses radio signals using B-Splines, " Tenth IEEE International Conference on Communication Systems, Singapore, November 2006. 

36. J.Mathew, K. Maharatna, D.K.Pradhan and A.P.Vinod, "Exploration of power optimal implementation technique of 128-Pt FFT/IFFT for WPAN using pseudo-parallel datapath structure, " Tenth IEEE International Conference on Communication Systems, Singapore, November 2006. 

35. A.P.Vinod, Ankita Singla, Chip-Hong Chang and P.K.Meher, "Low power FIR filter realization using minimal difference coefficients: Part I – Complexity Analysis," 2006 IEEE Asia Pacific Conference on Circuits and Systems, Singapore, December 2006.

34. A.P.Vinod, Ankita Singla, Chip-Hong Chang and P.K.Meher, "Low power FIR filter realization using minimal difference coefficients: Part II – Algorithm," 2006 IEEE Asia Pacific Conference on Circuits and Systems, Singapore, December 2006.

33. Himanshu Thapliyal and A.P.Vinod, "CMOS realization of reversible TSG gate and reversible adder architectures," 2006 IEEE Asia Pacific Conference on Circuits and Systems, Singapore, December 2006.

32. P.K.Meher, A.P.Vinod and J.C.Patra "Reduced-complexity concurrent systolic implementation of the discrete sine transform," 2006 IEEE Asia Pacific Conference on Circuits and Systems, Singapore, December 2006.

31. P.K.Meher, J.C.Patra and A.P.Vinod "A 2-D systolic array for high throughput computation of 2-D discrete Fourier transform," 2006 IEEE Asia Pacific Conference on Circuits and Systems, Singapore, December 2006.

30. Jiajia Chen, Chip-Hong Chang and A.P.Vinod "Design of high-speed, low power FIR filters with fine-grained cost metrics," 2006 IEEE Asia Pacific Conference on Circuits and Systems, Singapore, December 2006.

29. Smitha K.G., Hossam A.H.Fahmy and A.P.Vinod "Redundant adders consume less energy," 2006 IEEE Asia Pacific Conference on Circuits and Systems, Singapore, December 2006.

28. A.P.Vinod, E. M-K. Lai and S. Emmanuel, "Implementation of low power and high-speed higher order channel filters for software radio receivers," 17th Annual IEEE International Symposium on Personal, Indoor and Mobile Radio Communications, Helsinki, Finland, September 2006.

27. R.Mahesh and A.P.Vinod, "Reconfigurable low complexity FIR filters for software radio   receivers," 17th Annual IEEE International Symposium on Personal, Indoor and Mobile Radio Communications, Helsinki, Finland, September 2006.

26. Himanshu Thapliyal, H.R.Arabnia and A.P.Vinod, "Combined integer and floating point multiplication architecture(CIFM) for FPGAs and its reversible logic implementation"
 The 49th IEEE International Midwest Symposium on Circuits and Systems, Puerto Rico,  August 2006.

25.  R.Mahesh and A.P.Vinod, "A New Common Subexpression Elimination Algorithm For Implementing Low Complexity FIR Filters in Software Defined Radio Receivers," IEEE International Symposium on Circuits and Systems (ISCAS 2006), May 2006, Greece.

24.  A.P.Vinod, Ankita Singla and Chip-Hong Chang, "Improved Differential Coefficients-          Based Low Power FIR Filters: Part I - Fundamentals," IEEE International Symposium on Circuits and Systems (ISCAS 2006), May 2006, Greece.
 

23.  Chen Jiajia, Chip-Hong Chang and A.P.Vinod, "Maximum Likelihood Disjunctive Decomposition to Reduced Multirooted DAG for FIR Filter Design," IEEE International Symposium on Circuits and Systems (ISCAS 2006), May 2006, Greece.
 

22.  A.P.Vinod, Zhu Xiangfeng, E.M.K.Lai and D.L.Maskell, "High-Speed Low Complexity Wavelet Filter Banks For DNA Microarray Image Denoising," The 12th International Conference on Biomedical Engineering (ICBME), Singapore, December 2005 (accepted for publication).
 

21.  A.P.Vinod and Irfan Setiawan, "A minimal-difference differential coefficients method for low complexity FIR filter realization," Eight IEEE International Symposium on Signal Processing and its Applications (ISSPA 2005), Sydney, Australia, August 2005.
 

20.  Toh Kok Soon and A.P.Vinod, "DSP implementation of a reconfigurable software defined radio channelizer," Eight IEEE International Symposium on Signal Processing and its Applications, (ISSPA 2005), Sydney, Australia, August 2005.
 

19.  A.P.Vinod, E.M-K.Lai and S.Emmanuel, "Complexity reduction of software defined radio channelizers using filter coefficient-partitioning," Eight IEEE International Symposium on Signal Processing and its Applications, (ISSPA 2005), Sydney, Australia, August 2005.
 

18.  A.Sugama, S.Emmanuel and A.P.Vinod, "2D dimension, location and speed descriptors from surveillance video," Eight IEEE International Symposium on Signal Processing and its Applications, (ISSPA 2005), Sydney, Australia, August 2005.
 

17.  S.Xiao, E.M-K.Lai and A.P.Vinod, "A rough programming solution to VLIW instruction scheduling," Eight IEEE International Symposium on Signal Processing and its Applications, (ISSPA 2005), Sydney, Australia, August 2005.
 

16.  A.P.Vinod and E.M-K.Lai, "Optimizing vertical common subexpression elimination using coefficient partitioning for designing low complexity software radio channelizers," IEEE International Symposium on Circuits and Systems (ISCAS 2005), pp. 5429-5432, Kobe, Japan, May 2005.

15.  A.P.Vinod and E.M-K.Lai, "Design of low complexity, high-speed pulse-shaping IIR filters for mobile communication receivers," IEEE International Symposium on Circuits and Systems (ISCAS 2005), pp. 352-355, Kobe, Japan, May 2005.
 

14.  A.P.Vinod and E.M-K.Lai, "Comparison of the horizontal and the vertical common subexpression elimination methods for realizing digital filters," IEEE International Symposium on Circuits and Systems (ISCAS 2005), pp. 496-499, Kobe, Japan, May 2005.
 

13.  T.Oliver, B.Scmidt, D.Maskell and A.P.Vinod, "A reconfigurable architecture for scanning biosequence databases," IEEE International Symposium on Circuits and Systems (ISCAS 2005), pp. 4799-4802, Kobe, Japan, May 2005.
 

12.  A.P.Vinod and E.M-K.Lai, "Hardware efficient DCT implementation for portable multimedia terminals using subexpression sharing", IEEE TENCON 2004, November 2004.
 

11.  A.P.Vinod, E.M-K.Lai, A.B.Premkumar, and C.T.Lau “Low-complexity filter bank channelizer for wideband receivers using minimum adder multiplier blocks,” IEEE International Conference on Communications (ICC 2004), Signal Processing for Communications Symposium, pp. 2699-2672, Paris, France, June 2004.
 

10.  A.P.Vinod, E.M-K.Lai, A.B.Premkumar, and C.T.Lau, "Optimization method for designing filter bank channelizer of a software defined radio using vertical common subexpression elimination," IEEE International Symposium on Circuits and Systems (ISCAS 2004), vol. 4, pp. 437-440, Vancouver, Canada, May 2004.
 

9.      A.P.Vinod, E.M-K.Lai, A.B.Premkumar, and C.T.Lau, "A reconfigurable multi-standard channelizer using QMF trees for software radio receivers," IEEE International Symposium on Personal, Indoor and Mobile Radio communications (PIMRC 2003), vol. 1, pp. 119-123,  Beijing, China, September 2003.
 

7.      A.P.Vinod, E.M-K.Lai, A.B.Premkumar, and C.T.Lau, "Hardware efficient FIR filter implementation using subfilters for digital receivers," IEEE International Symposium on Signal Processing and its Applications (ISSPA 2003), vol. 2, pp. 263-266, Paris, France, July 2003.
 

7.      A.P. Vinod, A.B. Premkumar and E. M-K. Lai, "An optimal entropy coding scheme for efficient implementation of pulse shaping FIR filters in digital receivers," IEEE International Symposium on Circuits and Systems (ISCAS 2003), pp. 229-232, vol. 4, Bangkok, Thailand, May 2003.
 

6.      A.P. Vinod, E. M-K. Lai and A.B. Premkumar, "An efficient coefficient coding scheme for low complexity implementation of pulse shaping filters in GSM receiver of a software radio," IEEE International Conference on Communication Systems (ICCS 2002), pp. 805-809, Singapore, November 2002.
 

5.      A.P.Vinod and A.B.Premkumar, "A comparison of modified LS and WLS algorithms for designing Quadrature Mirror Filters", IEEE International Symposium on Circuits & Systems (ISCAS 2002), pp. 596-599, vol. 2, Phoenix, Arizona, May 2002.
 

4.      A.P.Vinod, A.B.Premkumar, Lau Chiew Tong, "A Novel Approach to the Design of Weighted Minimax Quadrature Mirror Filters", IEEE International Symposium on Signal Processing and it Applications (ISSPA 2001), pp. 33-35, Kuala Lumpur, August, 2001.
 

3.      A.B.Premkumar, C.T.Lau,, A.P.Vinod, "High Performance Architectures for QMF Banks", 9th NASA Conference on VLSI Architectures, November 2000.
 

2.      A.P.Vinod and A.B.Premkumar, "A generalized design of quadrature mirror filters",   IEEE International Conference on Signal Processing (ICSP 2000), pp. 126-129, World Computer Congress, Beijing, August 2000.

1.  A.P.Vinod and A.B.Premkumar, "A residue-to-binary converter for high-speed    computer arithmetic", IEEE International Conference on Information, Communication and Signal Processing (ICICI 1999), Singapore, December 1999.

 

 

 

 

Last updated on 13 April 2012