This paper clarifies properties of the quantum state control communication systems such as the quantum coherent communication systems (QCCS) and the photon communication systems (PCS). We compare properties of these two systems in the case of uncoded and coded schemes. In the former case, the energy-information efficiencies of both systems are given, taking into quantum state control account, and the Fano factor of PCS which corresponds to the same performance to the ideal QCCS is given. In the latter case, the reliability functions of both systems are considered. As a result, it is shown that effects of error correcting code in the PCS are much larger than that in the QCCS.
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Kouichi YAMAZAKI, Osamu HIROTA, Masao NAKAGAWA, "Comparison between Photon Communication Systems and Quantum Coherent Communication Systems" in IEICE TRANSACTIONS on transactions,
vol. E70-E, no. 9, pp. 835-840, September 1987, doi: .
Abstract: This paper clarifies properties of the quantum state control communication systems such as the quantum coherent communication systems (QCCS) and the photon communication systems (PCS). We compare properties of these two systems in the case of uncoded and coded schemes. In the former case, the energy-information efficiencies of both systems are given, taking into quantum state control account, and the Fano factor of PCS which corresponds to the same performance to the ideal QCCS is given. In the latter case, the reliability functions of both systems are considered. As a result, it is shown that effects of error correcting code in the PCS are much larger than that in the QCCS.
URL: https://global.ieice.org/en_transactions/transactions/10.1587/e70-e_9_835/_p
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@ARTICLE{e70-e_9_835,
author={Kouichi YAMAZAKI, Osamu HIROTA, Masao NAKAGAWA, },
journal={IEICE TRANSACTIONS on transactions},
title={Comparison between Photon Communication Systems and Quantum Coherent Communication Systems},
year={1987},
volume={E70-E},
number={9},
pages={835-840},
abstract={This paper clarifies properties of the quantum state control communication systems such as the quantum coherent communication systems (QCCS) and the photon communication systems (PCS). We compare properties of these two systems in the case of uncoded and coded schemes. In the former case, the energy-information efficiencies of both systems are given, taking into quantum state control account, and the Fano factor of PCS which corresponds to the same performance to the ideal QCCS is given. In the latter case, the reliability functions of both systems are considered. As a result, it is shown that effects of error correcting code in the PCS are much larger than that in the QCCS.},
keywords={},
doi={},
ISSN={},
month={September},}
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TY - JOUR
TI - Comparison between Photon Communication Systems and Quantum Coherent Communication Systems
T2 - IEICE TRANSACTIONS on transactions
SP - 835
EP - 840
AU - Kouichi YAMAZAKI
AU - Osamu HIROTA
AU - Masao NAKAGAWA
PY - 1987
DO -
JO - IEICE TRANSACTIONS on transactions
SN -
VL - E70-E
IS - 9
JA - IEICE TRANSACTIONS on transactions
Y1 - September 1987
AB - This paper clarifies properties of the quantum state control communication systems such as the quantum coherent communication systems (QCCS) and the photon communication systems (PCS). We compare properties of these two systems in the case of uncoded and coded schemes. In the former case, the energy-information efficiencies of both systems are given, taking into quantum state control account, and the Fano factor of PCS which corresponds to the same performance to the ideal QCCS is given. In the latter case, the reliability functions of both systems are considered. As a result, it is shown that effects of error correcting code in the PCS are much larger than that in the QCCS.
ER -