Quantum Error Correction

August 25th, 2019
  1. 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.
  2. 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.
  3. 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.
  4. 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.
  5. 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.
  6. 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.
  7. 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.
  8. 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.
  9. 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.
  10. 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.
  11. 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.
  12. 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.
  13. 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.
  14. 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.
  15. 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.
  16. 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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