Quantum Error Correction
August 25th, 2019
- Z. Babar, D. Chandra, H. V. Nguyen, P. Botsinis, D. Alanis, S. X. Ng and L. Hanzo, “Duality of Quantum and Classical Error Correction Codes: Design Principles & Examples“, IEEE Communications Surveys Tutorials 2018.
- M. A. M. Izhar, Z. Babar, H. V. Nguyen, P. Botsinis, D. Alanis, D. Chandra, S. X. Ng and L. Hanzo, “Quantum Turbo Decoding for Quantum Channels Exhibiting Memory“, IEEE Access, March 2018.
- M. A. M. Izhar, Z. Babar, S. X. Ng and L. Hanzo, “Entanglement-Assisted Classical Communication Over Quantum Channels for Binary Markov Sources“, IEEE Transactions on Vehicular Technology, 2017.
- D. Chandra, Z. Babar, H. V. Nguyen, D. Alanis, P. Botsinis, S. X. Ng and L. Hanzo, “Quantum Topological Error Correction Codes: The Classical-to-Quantum Isomorphism Perspective“, IEEE Access, December 2017.
- M. A. M. Izhar, Z. Babar, S. X. Ng and L. Hanzo, “Entanglement-Assisted Classical Communication Over Quantum Channels for Binary Markov Sources“, IEEE Transactions on Vehicular Technology, November 2017.
- H. Nguyen, Z. Babar, D. Alanis, P. Botsinis, D. Chandra, M. A. M. Izhar, S. X. Ng and L. Hanzo, “Towards the Quantum Internet: Generalised Quantum Network Coding for Large-Scale Quantum Communication Networks“, IEEE Access, 5, 2017.
- D. Chandra, Z. Babar, H. Nguyen, D. Alanis, P. Botsinis, S. X. Ng and L. Hanzo, “Quantum Coding Bounds and a Closed-Form Approximation of the Minimum Distance Versus Quantum Coding Rate“, IEEE Access, 5, 2017.
- P. Botsinis, Z. Babar, D. Alanis, D. Chandra, H. Nguyen, S. X. Ng and L. Hanzo, “Quantum Error Correction Protects Quantum Search Algorithms Against Decoherence“, Nature Scientific Reports, 6, (38095), pp. 1-13, December 2016.
- Z. Babar, H. Nguyen, P. Botsinis, D. Alanis, D. Chandra, S. X. Ng and L. Hanzo, “Serially Concatenated Unity-Rate Codes Improve Quantum Codes Without Coding-Rate Reduction“, IEEE Communications Letters, Vol. 20, No. 10, October 2016.
- H. Nguyen, Z. Babar, D. Alanis, P. Botsinis, D. Chandra, S. X. Ng and L. Hanzo, “EXIT-Chart Aided Quantum Code Design Improves the Normalised Throughput of Realistic Quantum Devices“, IEEE Access, 4, 2016.
- Z. Babar, P. Botsinis, D. Alanis, S. X. Ng and L. Hanzo, “Construction of Quantum LDPC Codes From Classical Row-Circulant QC-LDPCs“, IEEE Communications Letters, Vol. 20, No. 1, January 2016.
- Z. Babar, H. Nguyen, P. Botsinis, D. Alanis, D. Chandra, S. X. Ng, R. G. Maunder and L. Hanzo, “Fully-Parallel Quantum Turbo Decoder“, IEEE Access, 4, 6073 – 6085, 2016.
- Z. Babar, P. Botsinis, D. Alanis, S. X. Ng and L. Hanzo, “Fifteen years of quantum LDPC coding and improved decoding strategies“, IEEE Access, vol. 3, pp. 2492-2519, 2015.
- Z. Babar, P. Botsinis, D. Alanis, S. X. Ng and L. Hanzo, “The road from classical to quantum codes: a hashing bound approaching design procedure“, IEEE Access, 3, 1-31, 2015.
- Z. Babar, S. X. Ng and L. Hanzo, “EXIT-Chart Aided Quantum Turbo Code Design“, IEEE Transactions on Vehicular Technology, no. 3, vol. 64, pp. 866-875, 2015.
- Z. Babar, S. X. Ng and L. Hanzo, “Near-Capacity Code Design for Entanglement-Assisted Classical Communication over Quantum Depolarizing Channels“, IEEE Transactions on Communications 2013.
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