Biography

Prof. Gananath Dash

Sambalpur University Institute of Information Technology, India


Email: gndash@ieee.org; profgndash@gmail.com


Qualifications

1992  Ph.D., Sambalpur University, India

1983  M.Sc., Sambalpur University, India


Publications (selected)

  1. Khaleel, M. A., Dash, G. N., Choudhury, K. S., & Khan, M. A. (2015). Medical data mining for discovering periodically frequent diseases from transactional databases. In Computational Intelligence in Data Mining-Volume 1 (pp. 87-96). Springer, New Delhi.
  2. Dash, G. N., Pattanaik, S. R., & Behera, S. (2014). Graphene for electron devices: The panorama of a decade. IEEE Journal of the Electron Devices Society, 2(5), 77-104.
  3. Lenka, T. R., Dash, G. N., & Panda, A. K. (2013). RF and microwave characteristics of a 10 nm thick InGaN-channel gate recessed HEMT. Journal of Semiconductors, 34(11), 114003.
  4. Khaleel, M. A., Pradhan, S. K., & Dash, G. N. (2013). Finding locally frequent diseases using modified Apriori algorithm. International Journal of Advanced Research in Computer and Communication Engineering, 2(10), 3792-3797.
  5. Meher, J. K., Panigrahi, M. R., Dash, G. N., & Meher, P. K. (2012). Wavelet based lossless DNA sequence compression for faster detection of eukaryotic protein coding regions. International Journal of Image, Graphics and Signal Processing, 4(7), 47.
  6. Pattanaik, S. R., Mishra, J. K., & Dash, G. N. (2011). A new mm-wave GaAs~ Ga0. 52In0. 48p heterojunction impatt diode. IETE Journal of Research, 57(4), 351-356.
  7. Meher, J., Meher, P. K., & Dash, G. (2011). Improved comb filter based approach for effective prediction of protein coding regions in DNA sequences. Journal of Signal and Information Processing, 2(02), 88.
  8. Panda, A. K., Parida, R. K., Agrawala, N. C., & Dash, G. N. (2007, December). A comparative study on the high band gap materials (GaN and SiC)-based IMPATTs. In 2007 Asia-Pacific Microwave Conference (pp. 1-4). IEEE.
  9. Pattanaik, S. R., Dash, G. N., & Mishra, J. K. (2005). Prospects of 6H-SiC for operation as an IMPATT diode at 140 GHz. Semiconductor science and technology, 20(3), 299.
  10. Mishra, J. K., Dash, G. N., Pattanaik, S. R., & Mishra, I. P. (2004). Computer simulation study on the noise and millimeter wave properties of InP/GaInAs heterojunction double avalanche region IMPATT diode. Solid-state electronics, 48(3), 401-408.
Free SCIRP Newsletters
Copyright © 2006-2024 Scientific Research Publishing Inc. All Rights Reserved.
Top