Dr Behzad Asadi

Dr Behzad Asadi

Postdoctoral Fellow

School of Electrical Engineering and Computing

Career Summary

Biography

Behzad Asadi received the MSc degree from the University of Tehran, Iran, in 2008, and the PhD degree from the University of Newcastle, Australia, in 2017, both in electrical engineering. From 2008 to 2010, he was with WMC Laboratory at the University of Tehran as a research associate, and from 2011 to 2013, he was with ZTE Corporation as a solution manager. Currently, he is a postdoctoral fellow at the University of Newcastle, Australia. His research interests include information theory, and signal processing in wireless networks.

Qualifications

  • PhD, University of Newcastle
  • Master of Science (Electrical Engineering), University of Tehran - Iran

Keywords

  • Information Theory
  • Wireless Communications

Languages

  • Persian (excluding Dari) (Mother)
  • English (Fluent)

Fields of Research

Code Description Percentage
080401 Coding and Information Theory 50
100510 Wireless Communications 30
090609 Signal Processing 20

Professional Experience

UON Appointment

Title Organisation / Department
Postdoctoral Fellow University of Newcastle
School of Electrical Engineering and Computing
Australia
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Publications

For publications that are currently unpublished or in-press, details are shown in italics.


Journal article (2 outputs)

Year Citation Altmetrics Link
2015 Asadi B, Ong L, Johnson SJ, 'Optimal Coding Schemes for the Three-Receiver AWGN Broadcast Channel With Receiver Message Side Information', IEEE TRANSACTIONS ON INFORMATION THEORY, 61 5490-5503 (2015) [C1]
DOI 10.1109/TIT.2015.2463277
Co-authors Lawrence Ong, Sarah Johnson
2014 Asadi B, Ong L, Johnson SJ, 'On Index Coding in Noisy Broadcast Channels with Receiver Message Side Information', IEEE COMMUNICATIONS LETTERS, 18 640-643 (2014) [C1]
DOI 10.1109/LCOMM.2014.020414.132589
Citations Scopus - 2Web of Science - 2
Co-authors Lawrence Ong, Sarah Johnson

Conference (4 outputs)

Year Citation Altmetrics Link
2016 Asadi B, Ong L, Johnson SJ, 'A Unified Inner Bound for the Two-Receiver Memoryless Broadcast Channel with Channel State and Message Side Information', 2016 IEEE INTERNATIONAL SYMPOSIUM ON INFORMATION THEORY (2016) [E1]
Co-authors Sarah Johnson, Lawrence Ong
2015 Asadi B, Ong L, Johnson SJ, 'A unified scheme for two-receiver broadcast channels with receiver message side information', IEEE International Symposium on Information Theory - Proceedings (2015) [E1]

© 2015 IEEE.This paper investigates the capacity regions of two-receiver broadcast channels where each receiver (i) has both common and private-message requests, and (ii) knows p... [more]

© 2015 IEEE.This paper investigates the capacity regions of two-receiver broadcast channels where each receiver (i) has both common and private-message requests, and (ii) knows part of the private message requested by the other receiver as side information. We first propose a transmission scheme and derive an inner bound for the two-receiver memoryless broadcast channel. We next prove that this inner bound is tight for the deterministic channel and the more capable channel, thereby establishing their capacity regions.We show that this inner bound is also tight for all classes of two-receiver broadcast channels whose capacity regions were known prior to this work. Our proposed scheme is consequently a unified capacity-achieving scheme for these classes of broadcast channels.

DOI 10.1109/ISIT.2015.7282482
Citations Scopus - 2Web of Science - 1
Co-authors Lawrence Ong, Sarah Johnson
2014 Asadi B, Ong L, Johnson SJ, 'The capacity of three-receiver AWGN broadcast channels with receiver message side information', IEEE International Symposium on Information Theory - Proceedings (2014) [E1]

This paper investigates the capacity region of three-receiver AWGN broadcast channels where the receivers (i) have private-message requests and (ii) know the messages requested by... [more]

This paper investigates the capacity region of three-receiver AWGN broadcast channels where the receivers (i) have private-message requests and (ii) know the messages requested by some other receivers as side information. We classify these channels based on their side information into eight groups, and construct different transmission schemes for the groups. For six groups, we characterize the capacity region, and show that it improves both the best known inner and outer bounds. For the remaining two groups, we improve the best known inner bound by using side information during channel decoding at the receivers. © 2014 IEEE.

DOI 10.1109/ISIT.2014.6875364
Citations Scopus - 6Web of Science - 6
Co-authors Lawrence Ong, Sarah Johnson
2014 Ong L, Asadi B, Johnson SJ, 'Coding schemes for a class of receiver message side information in AWGN broadcast channels', IEEE Information Theory Workshop (ITW) (2014) [E1]
DOI 10.1109/ITW.2014.6970896
Citations Scopus - 2
Co-authors Sarah Johnson, Lawrence Ong
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Research Supervision

Number of supervisions

Completed0
Current1

Total current UON EFTSL

Masters0.15

Current Supervision

Commenced Level of Study Research Title Program Supervisor Type
2017 Masters Cache-aided Noisy Channels: Optimisation and Security M Philosophy(Elec Engineering), Faculty of Engineering and Built Environment, The University of Newcastle Co-Supervisor
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Dr Behzad Asadi

Position

Postdoctoral Fellow
School of Electrical Engineering and Computing
Faculty of Engineering and Built Environment

Contact Details

Email behzad.asadi@newcastle.edu.au
Phone (02) 4921 5291

Office

Room ES214
Building ES Building
Location Callaghan
University Drive
Callaghan, NSW 2308
Australia
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