Reading Materials
November 23rd, 2023
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- Reconfigurable Intelligent Surfaces (RIS) assisted Wireless Communications:
- E. Basar, M. Di Renzo, J. De Rosny, M. Debbah, M.-S. Alouini and R. Zhang, “Wireless Communications Through Reconfigurable Intelligent Surfaces“, IEEE Access, August 2019.
- Q. Wu and R. Zhang, “Intelligent Reflecting Surface Enhanced Wireless Network via Joint Active and Passive Beamforming“, IEEE Transactions on Wireless Communications, Vol. 18, No. 11, November 2019.
- Q. Li , M. El-Hajjar, I. Hemadeh, A. Shojaeifard, A. A. M. Mourad, B. Clerckx and L. Hanzo, “Reconfigurable Intelligent Surfaces Relying on Non-Diagonal Phase Shift Matrices“, IEEE Transactions on Vehicular Technology, Vol. 71, No. 6, June 2022.
- Simultaneous Wireless Information and Power Transfer (SWIPT):
- T. D. P. Perera et. al., “Simultaneous Wireless Information and Power Transfer (SWIPT): Recent Advances and Future Challenges“, IEEE COMMUNICATIONS SURVEYS & TUTORIALS, VOL. 20, NO. 1, FIRST QUARTER 2018.
- Z. Ding et. at., “Application of Smart Antenna Technologies in Simultaneous Wireless Information and Power Transfer“, IEEE Communications Magazine, April 2015.
- N. Ashraf, S. A. Sheikh, S. A. Khan, I. Shayea and M. Jalal, “Simultaneous Wireless Information and Power Transfer With Cooperative Relaying for Next-Generation Wireless Networks: A Review“, in IEEE Access, vol. 9, pp. 71482-71504, 2021, doi: 10.1109/ACCESS.2021.3078703.
- Physical Layer Security (PLS):
- Best readings from IEEE.
- B. Ali, N. Zamir, M. F. U. Butt and S. X. Ng, “Physical Layer Security: Friendly Jamming in an Untrusted Relay Scenario“, 24th European Signal Processing Conference (EUSIPCO), Budapest, Hungary, 29 Aug. – 2 Sept., 2016.
- Polar codes
- Z. Babar, Z. B. K. Egilmez, L. Xiang, D. Chandra, R. G. Maunder, S. X. Ng and L. Hanzo, “Polar Codes and Their Quantum-Domain Counterparts“, IEEE Communications Surveys & Tutorials, 21 August 2019.
- Z. B. Kaykac Egilmez, L. Xiang, R. G. Maunder and L. Hanzo, “The Development, Operation and Performance of the 5G Polar Codes,” in IEEE Communications Surveys & Tutorials, vol. 22, no. 1, pp. 96-122, Firstquarter 2020, doi: 10.1109/COMST.2019.2960746.
- Non-Orthogonal Multiple Access (NOMA):
- Y. Saito, Y. Kishiyama, A. Benjebbour, T. Nakamura, A. Li, K.Higuchi, “Non-Orthogonal Multiple Access (NOMA) for Cellular Future Radio Access“, VTC Spring 2013.
- A. Benjebbour, Y. Saito, Y. Kishiyama, A. Li, A. Harada, T. Nakamura, “Concept and practical considerations of non-orthogonal multiple access (NOMA) for future radio access“, ISPACS 2013.
- Z. Ding, X. Lei, G. K. Karagiannidis, R. Schober, J. Yuan and V. K. Bhargava, “A Survey on Non-Orthogonal Multiple Access for 5G Networks: Research Challenges and Future Trends,” in IEEE Journal on Selected Areas in Communications, vol. 35, no. 10, pp. 2181-2195, Oct. 2017, doi: 10.1109/JSAC.2017.2725519.
- Z. Ding, Y. Liu, J. Choi, Q. Sun, M. Elkashlan, Chih-Lin I; H. Vincent Poor ,”Application of Non-Orthogonal Multiple Access in LTE and 5G Networks“, IEEE Communications Magazine, vol 55, no 2, 2017.
- Z. Ding, M. Peng and V. Poor,”Cooperative Non-Orthogonal Multiple Access in 5G Systems“, IEEE Communications Letters, vol 19, no 8, 2015.
- J. Kim and I.-H. Lee, “Non-Orthogonal Multiple Access in Coordinated Direct and Relay Transmission“, IEEE Communications Letters, vol 11, no 8, 2015.
- 5G Standard
- Machine Learning
- Short-Length Codes:
- A. Ozcelikkale and T. M. Duman, “Short Length Trellis-Based Codes for Gaussian Multiple-Access Channels“, IEEE Signal Processing Letters, vol. 21, no. 10, pp. 1177–1181, Oct. 2014.
- S. Sharifi, M. Dabirnia, A. K. Tanc and T. M. Duman, “Short Block Length Code Design for Interference Channels“, IEEE International Symposium on Information Theory 2016.
- Nasruminallah and L. Hanzo, “EXIT-Chart Optimized Short Block Codes for Iterative Joint Source and Channel Decoding in H.264 Video Telephony“, IEEE Transactions On Vehicular Technology, vol. 58, no. 8, October 2009.
- Energy harvesting:
- Millimeter Wave (mmWave) technology:
- 5G_mmWave_presentation_ICC2013.pdf
- Other presentations here.
- Paper by Heath et al, especially Section II-B.
- Paper by Rappaport et al.
- Lecture slides on antenna and wave propagation.
- Beamforming:
- S. X. Ng, W. Liu, L.-L. Yang and L. Hanzo, “Channel Prediction Aided Coded Modulation Assisted Eigen-Beamforming“, Proceedings of IEEE VTC 2007 Spring, Dublin, Ireland, 22 – 25 April 2007, pp. 1742 – 1746.
- Hybrid Beamforming for Massive MIMO Phased Array Systems
- Game theory:
- M. J. Osborne, “An Introduction to Game Theory“, Oxford University Press, USA 2003.
- ELEC6063 Computational Game thoery and Application
- Turbo codes and MAP decoder
- Chapter 4 (it is Chapter 5 in actual book) of the following book:
- L. Hanzo, T. H. Liew, B. L. Yeap, R.Y.S. Tee, S. X. Ng, “Turbo Coding, Turbo Equalisation and Space Time Coding: EXIT-Chart-Aided Near-Capacity Designs for Wireless Channels“, New York, USA: John Wiley, IEEE Press, 2011.
- Complementary notes to the above chapter.
- Chapter 4 (it is Chapter 5 in actual book) of the following book:
- Low Density Parity Check codes
- The following tutorial: W. Ryan and B. Vasic, “An Introduction to LDPC Codes”.
- Chapter 2 of the following thesis: F. Guo, “Low Density Parity Check Coding”.
- Good proofs for Lemma 1: Poddar 2007, “Low Density Parity Check Codes“.
- Redundant Residue Number System (RRNS)
- Orthogonal Frequency Division Multiplexing (OFDM)
- The following tutorials: 01, 02.
- Chapter 2 of the following book:L. Hanzo, M. Münster, B. J. Choi and T. Keller, “OFDM and MC-CDMA for Broadband Multi-User Communications, WLANs and Broadcasting”, New York, USA: John Wiley, IEEE Press, 2003.
- Space Time Block Coding (STBC)
- Chapter 9 of the following book:
- L. Hanzo, T.H. Liew and B.L. Yeap, “Turbo Coding, Turbo Equalisation and Space Time Coding for Transmission over Wireless channels“, New York, USA: John Wiley, IEEE Press, 2002.
- Chapter 9 of the following book:
- Space Time Trellis Codes
- S. X. Ng, F. Guo and L. Hanzo, “Iterative Detection of Diagonal Block Space Time Trellis Codes, TCM and Reversible Variable Length Codes for Transmission over Rayleigh Fading Channels“, Proceedings of IEEE VTC 2004 Fall, Los Angeles, USA, September 26-29 2004, vol. 2, pp. 1348-1352.
- S. X. Ng, J. Wang, M. Tao, L.-L. Yang and L. Hanzo, “Iteratively Decoded Variable Length Space-Time Coded Modulation: Code Construction and Convergence Analysis“, IEEE Transactions on Wireless Communications, vol. 6, no. 5, pp. 1953-1963, May 2007.
- Chuyi Qian, “Distributed Space-Time Trellis Coding Schemes for Cooperative Communication”, MSc report 2009.
- Non-coherent detection:
- Star QAM:
- D. Liang, S. X. Ng and L. Hanzo,”Soft-decision Star-QAM aided BICM-ID“, IEEE Signal Processing Letters, vol. 18, no. 3, March 2011, pp. 169-172.
- D. Liang, S. X. Ng and L. Hanzo,”Soft-decision Star-QAM aided BICM-ID“, IEEE Signal Processing Letters, vol. 18, no. 3, March 2011, pp. 169-172.
- Differential Amplitude and Phase-Shift Keying (DAPSK):
- D. Liang, S. X. Ng and L. Hanzo, “Near-Capacity Turbo Coded Soft-decision Aided DAPSK/Star-QAM“, Proceedings of IEEE VTC 2011 Fall, San Francisco, USA, 5-8 September 2011.
- Differential Space Time Block Coding: the extract of the following thesis:
- N. Wu, “Generalized Space-Time Block Coding”.
- Star QAM:
- Joint source and channel coding
- Chapter 1 and 2 of the following thesis:
- Distributed source and channel coding
- “Distributed Source Coding: Theory and Applications“, invited talk at Eusipco 2010.
- “Distributed Source Coding: Theory and Applications“, invited talk at Eusipco 2010.
- Multi-User-Detection (MUD)
- Chapter 3 of the following book:
- L. Hanzo, L.-L. Yang, E.-L. Kuan and K. Yen, “Single- and Multi-Carrier DS-CDMA: Multi-User Detection, Space-Time Spreading, Synchronisation and Standards“, New York, USA: John Wiley, IEEE Press, 2003.
- Space Division Multiple Access (SDMA)
- Chapter 17 of the following book:
- L. Hanzo, M. Münster, B. J. Choi and T. Keller, “OFDM and MC-CDMA for Broadband Multi-User Communications, WLANs and Broadcasting”, New York, USA: John Wiley, IEEE Press, 2003.
- Chapter 17 of the following book:
- Interleave-Division Multiple-Access (IDMA)
- The following papers: Li Ping, L. Liu, K. Wu, and W. K. Leung, “Interleave-Division Multiple-Access”.
- A short extract of the following thesis: R. Zhang, “Non-orthogonal Multiuser Communications”
- Coded modulations (TCM, TTCM, BICM, BICM-ID)
- Chapter 2 of the following thesis:
- S. X. Ng, “Coded Modulation Schemes for Wireless Channels”, PhD 2002.
- Chapter 2 of the following thesis:
- Iterative demodulation:
- Chapter 2 of this notes.
- Chapter 4 of: Yan Jie Sun, “Turbo Coded MIMO scheme”, MSc report.
- Section 3.2.1 of: Hao Chen, “Iterative detection of Turbo Codes using High-level modulation schemes”, MSc report.
- Chapter 2 of this notes.
- Modulation and detection, QAM, PSK:
- Chapter 1 of the following book:
- L. Hanzo, S. X. Ng, W. T. Webb and T. Keller, “Quadrature Amplitude Modulation: From Basics to Adaptive Trellis-Coded, Turbo-Equalised and Space-Time Coded OFDM, CDMA and MC-CDMA Systems, Second Edition“, New York, USA: John Wiley, IEEE Press, 2004.
- Chapter 1 of the following book:
- Channel capacity:
- Chapter 23 of the following book:
- L. Hanzo, S. X. Ng, W. T. Webb and T. Keller, “Quadrature Amplitude Modulation: From Basics to Adaptive Trellis-Coded, Turbo-Equalised and Space-Time Coded OFDM, CDMA and MC-CDMA Systems, Second Edition“, New York, USA: John Wiley, IEEE Press, 2004.
- Chapter 23 of the following book:
- Near-capacity design using Irregular Convolutional Code (IRCC) and Unity-Rate Code (URC):
- S. X. Ng, J. Wang and L. Hanzo, “Unveiling Near-Capacity Code Design: The Realization of Shannon’s Communication Theory for MIMO Channels“, Proceedings of IEEE ICC 2008, Beijing, China, 19-23 May 2008, pp. 1415 – 1419 .
- S. X. Ng, W. Liu, J.-D. Li and L. Hanzo, “Near-Capacity FEC Codes for Non-Regenerative MIMO-Aided Relays“, Proceedings of IEEE VTC 2012 Spring, Yokohama, Japan , 6-9 May 2012.
- Code Doping, TSP 2003.
- Multiple-Input Multiple-Output (MIMO) schemes:
- Chapter 1 of the following book:
- L. Hanzo, O. Alamri, M. El-Hajjar, N. Wu, “Near-Capacity Multi-Functional MIMO Systems: Sphere-Packing, Iterative Detection and Cooperation“, John Wiley, IEEE Press, 2009.
- Chapter 1 of the following book:
- Cooperative communications:
- Chapter 4 of the following report: H. K. Neo, “Turbo Coded Cooperative Diversity for CDMA System”, MSc 2007.
- Chapter 3 of Caiyu Lan, “TTCM Aided Cooperative Communications in Millimetre Wave Channel”, MSc 2014.
- Chapter 2 of Sunan Ou, “Turbo Coded Base Station Cooperations”, MSc 2015.
- The following thesis: J. N. Laneman, “Cooperative Diversity in Wireless Networks: Algorithms and Architectures”.
- Full duplex implementation: J. Choi, M. Jain, K. Srivasan, P. Levis and S. Katti, “Achieving Single Channel, Full Duplex Wireless Communication“, MobiCom’10, 20-24 September 2010, Chicago, Illinois, USA.
- The following notes on path loss model: H. Sun and S. X. Ng, “Simplified Path-Loss Model“.
- The following paper (look especially at section II):
- S. X. Ng, K. Zhu and L. Hanzo, “Distributed Source-coding, Channel-coding and Modulation for Cooperative Communications”, Proceedings of IEEE VTC 2010 Fall, 6-9 September 2010, Ottawa, Canada.
- Cooperative Cognitive Radio
- W. Liang, S. X. Ng and L. Hanzo, “Cooperative Communication Between Cognitive and Primary Users“, IET Communications, 2013.
- W. Liang, S. X. Ng, J. Feng and L. Hanzo, “Pragmatic Distributed Algorithm for Spectral Access in Cooperative Cognitive Radio Networks“, IEEE Transactions on Communications, 2014.
- Relay channel and error propagation:
- D. Liang, S. X. Ng and L. Hanzo, “Relay-Induced Error Propagation Reduction for Decode-and-Forward Cooperative Communications“, Proceedings of IEEE Globecom 2010, 6-10 December 2010, Miami, Florida, USA.
- K. Q. Huynh, “Analysis of relay Channels and Improved Iterative decoders for Turbo-Coded Decode-and-Forward Relay Channels“, MPhil thesis 2011, Department of Computer Science and Engineering, Chalmers University of Technology and University of Gothenburg, Sweden.
- Two-Way Relaying (or Bi-Directional Relaying):
- M. F. U. Butt, R. Zhang, S. X. Ng and L. Hanzo, “Superposition Coding Aided Bi-directional Relay Transmission Employing Iteratively Decoded Self-Concatenated Convolutional Codes”, Proceedings of IEEE VTC 2010 Spring, Taipei, Taiwan, 16-19 May 2010.
- W. Liang, S. X. Ng and L. Hanzo, “TTCM-Aided SDMA-Based Two-Way Relaying“, Proceedings of IEEE VTC 2011 Fall, San Francisco, USA, 5-8 September 2011.
- Mutihop relaying:
- Q. You, Z. Chen, Y. Li, “A Multihop Transmission Scheme With Detect-and-Forward Protocol and Network Coding in Two-Way Relay Fading Channels“, IEEE Transactions on Vehicular Technology, vol 61, no 1, Jan. 2012, pp 433 – 438.
- B. Gui, L. Dai and L. J. J. Cimini, “Routing strategies in multihop cooperative networks,” IEEE Trans. Wireless Commun., vol. 8, pp. 843-855, Feb. 2009.
- J. Cui, D. Liu, J. Zhang, H. Yetgin, S. X. Ng, R. G. Maunder and L. Hanzo, “Minimum-Delay Routing for Integrated Aeronautical Ad Hoc Networks Relying on Real Flight Data in the North-Atlantic Region,” in IEEE Open Journal of Vehicular Technology, vol. 2, pp. 310-320, 2021
- Soft-Information Relaying in cooperative communications:
- Soft Decode-and-Forward in cooperative communications:
- H.H. Sneesens and L. Vandendorpe, “Soft Decode and Forward Improves Cooperative Communications“, 2005 1st IEEE International Workshop on Computational Advances in Multi-Sensor Adaptive Processing, pp. 157-160, 13 Dec 2005.
- M. H. Azmi, J. Li, J. Yuan and R. Malaney, “Soft decode-and-forward using LDPC coding in half-duplex relay channels“, IEEE ISIT Proceedings 2011.
- Network Coding example:
- J. L. Rebelatto, B. F. Uchoa-Filho, Y. Li and B, Vucetic, “Generalized Distributed Network Coding Based on Nonbinary Linear Block Codes for Multi-User Cooperative Communications”, Proceedings of IEEE ISIT, 13-18 June 2010, Austin, Texas.
- H. V. Nguyen, S. X. Ng, J. L. Rebelatto, Y. Li and L. Hanzo, “Near-Capacity Network Coding for Cooperative Multi-User Communications“, Proceedings of IEEE VTC 2011 Fall, San Francisco, USA, 5-8 September 2011.
- Physical-layer Network Coding (PNC):
- Differential PNC: PIERS 2012 KL (slides)
- VTC 2011 Spring
- ToW2010
- JSAC2009
- Mobile Computing and Networking conference 2006
- Analogue Network Coding (ANC):
- Energy and (Area) Spectral Efficiency tradeoffs
- Area Spectral Efficiency, 2011 IEEE Pacific Rim Conference of Comms, Comp and SP
- Area Spetral Efficiency of Cellular Mobile Radio System, TVT 1999.
- Area Spectral Efficiency, TVT 2012.
- Cell Spectral Efficiency of LTE-A, PIMRC 2010.
- Energy and Spectral Efficiency Tradeoff, VTC 2012 Fall.
- Spectrum Efficiency in Cellular, TVT 1989.
- Equalisation of Relay signals:
- M. Cheng, “Turbo-Coded Equalisation of Relay Signals in Cooperative Communications“, MSc Report 2010. [Trellis-based MAP equalisation]
- H. Ibrahim, “Channel Equalised Cooperative Communication System“, Third year project 2011. [LMS equalisation]
- M. Cheng, “Turbo-Coded Equalisation of Relay Signals in Cooperative Communications“, MSc Report 2010. [Trellis-based MAP equalisation]
- Channel model for WiMAX (IEEE 802.16)
- Stanford University Interim (SUI) Channel Models: V. Erceg, K. V. S. Hari, M. S. Smith, D. S. Baum et. al., “Channel Models for Fixed Wireless Applications”, IEEE 802.16 Broadband Wireless Access Working Group, IEEE 802.16a-03/01, June 2003.
- Section 1.3 of the following thesis: Sushanta Das, “EXPLOITING ALGEBRAIC STRUCTURE IN SPACE-TIME CODING FOR BROADBAND WIRELESS ACCESS”.
- Adaptive Wireless Transceivers and Equalisation
- Chapter 4 and 11 of the following book:
- L. Hanzo, C. H. Wong and M. S. Yee, “Adaptive Wireless Transceivers: Turbo-Coded, Turbo-Equalized and Space-Time Coded TDMA, CDMA, and OFDM Systems”, New York, USA: John Wiley, IEEE Press, 2002.
- Chapter 4 and 11 of the following book:
- Nakagami-m fading channel modelling:
- Jianxia Luo and J. R. Zeidler, “A statistical simulation model for correlated Nakagami fading channels”, International Conference on Communication Technology Proceedings (WCC – ICCT 2000), 21-25 August 2000, Beijing, China.
- Artificial Intelligence:
- Ant Colony optimization:
- C. Xu, “Suboptimal Transceiver Schemes For Wireless Communication Systems“, PhD thesis 2011. [slides]
- K. M. Sim and W. H. Sun, “Ant Colony Optimization for Routing and Load-Balancing: Survey and New Directions“, IEEE Transactions on Systems, Man and Cybernetics – Part A: Systems and Humans, Vol. 33, No. 5, September 2003.
- S. L. O. B. Correia, J. C. Junior and O. Cherkaoui, “Mobility-aware Ant Colony Optimization Routing for Vehicular Ad Hoc Networks“, IEEE WCNC, 28-31 March 2011, Quintana-Roo, Mexico.
- J.-K. Lain and J.-Y. Chen, “Near-MLD MIMO Detection Based on a Modified Ant Colony Optimization“, IEEE Communications Letters, Vol. 14, No. 8, August 2010.
- Particle Swarm Optimization:
- W. Yao, “Particle Swarm Optimization Aided MIMO Transceiver Design“, PhD thesis 2011.
- Genetric Algorithm:
- S. X. Ng, K. Yen and L. Hanzo, “Coded Modulation Assisted Genetic Algorithm Based Multiuser Detection for CDMA Systems“, Proceedings of Wireless 2002, Calgary, Canada, July 8-10, 2002, pp. 429-433.
- Ant Colony optimization:
- Fuzzy logic:
- J. Zuo, S. X. Ng and L. Hanzo, “Fuzzy Logic Aided Dynamic Source Routing in Cross-Layer Operation Assisted Ad Hoc Networks“, Proceedings of IEEE VTC 2010 Fall, Ottawa, Canada, 6-9 September 2010.
- J. Zuo, S. X. Ng and L. Hanzo, “Fuzzy Logic Aided Dynamic Source Routing in Cross-Layer Operation Assisted Ad Hoc Networks“, Proceedings of IEEE VTC 2010 Fall, Ottawa, Canada, 6-9 September 2010.
- Quantum communications tutorials
- “Quantum Communications Tutorial for Engineers“, Globecom 2016.
- https://arxiv.org/abs/1703.09278: Continuous-Variable Quantum Key Distribution with Gaussian Modulation – The Theory of Practical Implementations
- H. Nguyen, P. V. Trinh, A. T. Pham, Z. Babar, D. Alanis, P. Botsinis, D. Chandra, S. X. Ng and L. Hanzo, “Network Coding Aided Cooperative Quantum Key Distribution Over Free-Space Optical Channels“, IEEE Access, 5, 2017.
- Quantum Error Corrections:
- Zunaira Babar, “Quantum Error Correction“, MSc 2011.
- Zunaira Babar, “Quantum Error Correction Codes“, 1st Year PhD report 2013.
- Zunaira Babar, “Quantum Error Correction Codes“, mini Thesis 2014.
- Joel Frederico, “Shor’s Quantum Error Correcting code“, presentation, 30 June 2010, Standford University.
- Mathew Hayward, “Quantum Computing and Shor’s Algorithm“. (with example C++ codes)
- D. Gottesman, “Stabilizer Codes and Quantum Error Correction“, PhD thesis 2008.
- M. Grassl, P. W. Shor and B. Zeng, “Generalized Concatenation for Quantum Codes“, IEEE International Symposium on Information Theory (ISIT), 2009.
- P. Tan, J. Li, “Efficient Quantum Stabilzer Codes: LDPC and LDPC-Convolutional Constructions“, IEEE Transations on Information Theory, Vol 56, No 1, January 2010.
- Hierarchical Modulation:
- C. Hausl and J. Hagenauer, “Relay Communication with Hierarchical Modulation”, IEEE Communications Letters, No. 1, Vol. 11, January 2007.
- Super Position Modulation (SPM):
- H. Sun, S. X. Ng and L. Hanzo, “Superposition Coded Modulation for Cooperative Communications“, Proceedings of IEEE VTC 2012 Fall, Quebec City, Canada, 3-6 September 2012.
- 3GPP Long Term Evolution (LTE):
- MSc 2011 Guo and MSc 2011 Lu
- LTE Resource Guide
- J. Zyren, “Overview of the 3GPP Long Term Evolution Physical Layer“, White Paper, Freescale Semiconductor, July 2007.
- “LTE in a Nutshell: The Physical Layer“, 2010 Telesystem Innovatioons Inc.
- H. G. Myung, “Single Carrier FDMA“, technical presentation, 18th May 2008..
- M. Rumney, “3GPP LTE: Introducing Single-Carrier FDMA“, Agilent Technologies Journal, 1st Jan 2008.
- LTE simulator.
- Xcode implementation for iOS devices:
- Wireless sensor network:
- Other sample book chapters are available here.
- Various other research papers at my publication website.
- Reconfigurable Intelligent Surfaces (RIS) assisted Wireless Communications: