Overview:
While near-capacity classical communications have become a reality, ultimately secure near-hashing-bound quantum communications is far from wide-spread commercialization. Hence the research community is gradually turning to the exploration of the alluring quantum world relying on the somewhat weird rules of quantum physics, such as the entanglement and superposition of quantum bits, as well as the no-cloning theorem.
Hence we will highlight a few pivotal aspects, such as
- Quantum key distribution;
- Quantum coding mitigating decoherence in quantum computing;
- Quantum search algorithms harnessed for solving large-scale classical search problems, etc.
Please join this exciting journey valued Colleague!
Biography:
Lajos Hanzo (FIEEE'04) received Honorary Doctorates from the Technical University of Budapest (2009) and Edinburgh University (2015). He is a Foreign Member of the Hungarian Science-Academy, Fellow of the Royal Academy of Engineering (FREng), of the IET, of EURASIP and holds the IEEE Eric Sumner Technical Field Award. For further details please see http://www-mobile.ecs.soton.ac.uk, https://en.wikipedia.org/wiki/Lajos_Hanzo