Dr. Somanath Pradhan

 
Dr. Somanath Pradhan
Assistant Professor
Ph.D, University of Technology Sydney, Australia
Ph: +91-612-302 8969
pradhans[*AT]iitp.ac.in
Research Areas :
  • Adaptive Signal Processing
  • Active Noise Control
  • Signal Processing for Assistive Listening Devices
  • Audio Signal Processing
  • Applications of Machine Learning
Teaching :
  • EE205: Network Analysis and Synthesis (Spring 2023 at IIT Patna)
  • EE321: Digital Signal Processing Lab (Spring 2023 at IIT Patna)
  • EE520: Advanced Digital Signal Processing (Autumn 2023 at IIT Patna)
  • EE522: Signal Processing System Lab (Autumn 2023 at IIT Patna)
Professional Experience :

Work Experience-1

    • Duration: 24 November 2022 – Present
    • Designation: Assistant Professor
    • Employer: Department of Electrical Engineering, Indian Institute of Technology Patna, India

Work Experience-2

    • Duration: 01 June 2022 – 18 November 2022
    • Designation: Postdoctoral Fellow
    • Employer: Department of Electrical Engineering, Indian Institute of Science Bangalore, India

Work Experience-3

    • Duration: 10 November 2021 – 27 May 2022
    • Designation: Postdoctoral Fellow
    • Employer: Department of Electrical Engineering, Indian Institute of Technology Gandhinagar, India

Work Experience-4

    • Duration: 08 February 2021 – 13 August 2021
    • Designation:   Postdoctoral Fellow
    • Employer: School of Electrical Engineering and Telecommunications, University of New South Wales, Sydney, Australia

Work Experience-5

  • Duration: 04 August 2014 – 30 June 2017
  • Designation: Full-time Researcher
  • Employer: Department of Electrical Engineering, Indian Institute of Technology Gandhinagar, India
Awards & Honours :
  • International Travel Support (ITS) from Science and Engineering Research Board, Govt. of India
  • University of Technology Sydney International Research Scholarship (2017-2020)
  • University of Technology Sydney President’s Scholarship (2017-2020)
  • University of Technology Sydney Top Up Scholarship (2017-2020)
  • Vice Chancellor’s conference fund from University of Technology Sydney (2020)
  • Outstanding Reviewer award from Elsevier Applied Acoustics journal (2018)
  • Foundation For Excellence Scholarship from Foundation For Excellence -INDIA TRUST (2010-2014)
  • Higher Education Scholarship from Department of Higher Education, Govt. of Odisha, India (2010-2014)
Industrial Projects :
  • Study of noise baseline in and around the Melrose Park and Lake Macquarie City Council, sponsored by TULIP- for smart liveable cities, NSW, Australia
  • Gas metal arc welding process monitoring with acoustic sensing, sponsored by Sound Intuition Pty Ltd, Australia and Australian Research Council
Patents :
  1. Somanath Pradhan, Vinal Patel and Nithin Varghese George, An apparatus for cancelling acoustic feedback and a method thereof, Indian Patent application no. 201621010611. RQ filed on 06 May 2021.
  2. Somanath Pradhan, Vinal Patel and Nithin Varghese George, An acoustic feedback cancellation system for assistive listening device and method thereof, Indian Patent application no. 201721017009. RQ filed on 27 July 2021.
Book chapters :
  • Somanath Pradhan, Xiaojun Qiu and Jinchen Ji , “ Affine combination of the filtered-x LMS/F algorithms for active control," Vibration Engineering for a Sustainable Future, Springer, 313-319, 2021.
Publications : International Journals:
  1. M N L S Karthik, Somanath Pradhan and Nithin V. George, "Performance evaluation of an active headrest system using a filtered-x least mean square/fourth algorithm with virtual sensing," The Journal of the Acoustical Society of America, 154(5), 2878–2891, 2023.
  2. Somanath Pradhan, Xiaojun Qiu and Jinchen Ji, “On Time–Frequency-Domain Flexible Structure of Delayless Partitioned Block Adaptive Filtering Approach for Active Noise Control,” Circuits, Systems, and Signal Processing, 1-16, 2023.
  3. Vinal Patel and Somanath Pradhan, “Nonlinear System Identification Using Varying Exponential Even Mirror Fourier Nonlinear Filters,” Journal of Signal Processing Systems, 1-8, 2023.
  4. Somanath Pradhan, Guoqiang Zhang, Sipei Zhao, Kenta Niwa, and W. Bastiaan Kleijn, "On eigenvalue shaping for two-channel decentralized active noise control systems," Applied Acoustics, 205, 109260, 2023. [I. F.: 3.614]
  5. Somanath Pradhan, Guoqiang Zhang and Xiaojun Qiu, “A time domain decentralized algorithm for two channel active noise control,” The Journal of the Acoustical Society of America, 147(6), 3808–3813, 2020. [I. F.: 2.482]
  6. Sankha S. Bhattacharjee, Somanath Pradhan and Nithin V. George, “Design of a class of zero attraction based sparse Adaptive feedback cancellers for assistive listening devices,” Applied Acoustics, 173, 107683, 2020. [I. F.: 3.614]
  7. Somanath Pradhan and Xiaojun Qiu, “A 5-stage active control method with online secondary path modelling using decorrelated control signal,” Applied Acoustics, 164, 107252, 2020. [I. F.: 3.614]
  8. Somanath Pradhan, Xiaojun Qiu, and Jinchen Ji, “A four-stage method for active control with online feedback path modelling using control signal,” Applied Sciences, 9(15), 2973, 2019. [I. F.: 2.838]
  9. Somanath Pradhan, Nithin V. George, Felix Albu and Sven Nordholm “Two microphone acoustic feedback cancellation in digital hearing aids: A step size controlled frequency domain approach,” Applied Acoustics, 132, 142-151, 2018. [I. F.: 3.614]
  10. Somanath Pradhan, Vinal Patel, Dipen Somani, and Nithin V. George, “An improved proportionate delayless multiband-structured subband adaptive feedback canceller for digital hearing aids,” IEEE/ACM Transactions on Audio, Speech, and Language Processing, 25(8), 1633-1643, 2017. [I. F.: 4.364]
  11. Somanath Pradhan, Vinal Patel, Kashyap Patel, Jyoti Maheshwari and Nithin V. George, “Acoustic feedback cancellation in digital hearing aids: A sparse adaptive filtering approach,” Applied Acoustics, 122, 138-145, 2017. [I. F.: 3.614]

International Conference Proceedings:

  1. Somanath Pradhan, Xiaojun Qiu and Jinchen Ji, “A variable step size improved multiband-structured subband adaptive feedback cancellation scheme for hearing aids,” in the 12th Asia Pacific Signal and Information Processing Association Annual Summit and Conference, Auckland, New Zealand, Dec 07-10, 2020.
  2. Jyoti Maheshwari, Rushi Jariwala, Somanath Pradhan, and Nithin V. George, “Sparsity aware hybrid adaptive algorithms for modeling acoustic paths,” in 2018 IEEE International Workshop on Signal Processing Systems, Cape Town, South Africa, Oct. 21-24, 2018.
  3. Jyoti Maheshwari, Rushi Jariwala, Somanath Pradhan and Nithin V. George, “Online least angle regression algorithm for sparse system identification,” in the 17th IEEE International Symposium on Signal Processing and Information Technology, Bilbao, Spain, Dec. 18-20, 2017.
  4. Vinal Patel, Somanath Pradhan and Nithin V. George, “Collaborative adaptive exponential linear-in-the-parameters nonlinear filters,” in the 25th European Signal Processing Conference (EUSIPCO 2017), Kos Island, Greece, Aug. 28- Sep. 02, 2017.
  5. Somanath Pradhan, Sankha Subhra Bhattacharjee, Vinal Patel and Nithin V. George, “Speech enhancement in digital hearing aids: An active noise control approach,” in the 24th International Congress on Sound and Vibration (ICSV 24), London, UK, Jul. 23-27, 2017.
  6. Somanath Pradhan, P. K. Sahu, Bijayananda Patnaik and Rajat Kumar Giri, “Intersatellite optical wireless communication system design using diversity techniques,” in International Conference on Microwave, Optical and Communication Engineering (ICMOCE), Bhubaneswar, India, pp. 250-253, December 2015.
  7. P. K. Sahu, Somanath Pradhan and Bijayananda Patnaik. “Photonic generation of microwave signals using single laser technique,” in the Second International Conference on Advances In Computing, Electronics and Communication - ACEC 2014, Switzerland, pp. 156-160, October 2014.
Technical Reviewer :
  • IEEE Transactions on Circuits and Systems II: Express Briefs
  • IEEE Access
  • IEEE Signal Processing Letters
  • IEEE Transactions on Emerging Topics in Computational Intelligence
  • Applied Acoustics
  • Measurement