Candidate plans for adaptive digital transmission are briefly reviewed. It is suggested that adaptive format transmission with asynchronous multiplexing capability is attractive and promising from the standpoint of practical application. Feasibility and efficiency of this new transmission plan are investigated. A formula for predicting the minimum required transmission rate is derived. Upper and lower bounds of transmission efficiencies are analysed. A signal distributing technique for improving transmission efficiency is also developed. Investigation of memory requirements anticipates the possibility of simple implementations for format conversion and reconversion. Results of simulations prove the reliability of theoretical predictions. Fiber optic transmission is expected to be suitable for realizing this new communications concept.
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Yoshitaka TAKASAKI, Mitsuo TANAKA, Katsuyuki NAGANO, Yasushi TAKAHASHI, "Fundamental Properties of Asynchronous Multiplexing for Fiber Optic Adaptive Digital Transmission" in IEICE TRANSACTIONS on transactions,
vol. E64-E, no. 3, pp. 109-114, March 1981, doi: .
Abstract: Candidate plans for adaptive digital transmission are briefly reviewed. It is suggested that adaptive format transmission with asynchronous multiplexing capability is attractive and promising from the standpoint of practical application. Feasibility and efficiency of this new transmission plan are investigated. A formula for predicting the minimum required transmission rate is derived. Upper and lower bounds of transmission efficiencies are analysed. A signal distributing technique for improving transmission efficiency is also developed. Investigation of memory requirements anticipates the possibility of simple implementations for format conversion and reconversion. Results of simulations prove the reliability of theoretical predictions. Fiber optic transmission is expected to be suitable for realizing this new communications concept.
URL: https://global.ieice.org/en_transactions/transactions/10.1587/e64-e_3_109/_p
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@ARTICLE{e64-e_3_109,
author={Yoshitaka TAKASAKI, Mitsuo TANAKA, Katsuyuki NAGANO, Yasushi TAKAHASHI, },
journal={IEICE TRANSACTIONS on transactions},
title={Fundamental Properties of Asynchronous Multiplexing for Fiber Optic Adaptive Digital Transmission},
year={1981},
volume={E64-E},
number={3},
pages={109-114},
abstract={Candidate plans for adaptive digital transmission are briefly reviewed. It is suggested that adaptive format transmission with asynchronous multiplexing capability is attractive and promising from the standpoint of practical application. Feasibility and efficiency of this new transmission plan are investigated. A formula for predicting the minimum required transmission rate is derived. Upper and lower bounds of transmission efficiencies are analysed. A signal distributing technique for improving transmission efficiency is also developed. Investigation of memory requirements anticipates the possibility of simple implementations for format conversion and reconversion. Results of simulations prove the reliability of theoretical predictions. Fiber optic transmission is expected to be suitable for realizing this new communications concept.},
keywords={},
doi={},
ISSN={},
month={March},}
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TY - JOUR
TI - Fundamental Properties of Asynchronous Multiplexing for Fiber Optic Adaptive Digital Transmission
T2 - IEICE TRANSACTIONS on transactions
SP - 109
EP - 114
AU - Yoshitaka TAKASAKI
AU - Mitsuo TANAKA
AU - Katsuyuki NAGANO
AU - Yasushi TAKAHASHI
PY - 1981
DO -
JO - IEICE TRANSACTIONS on transactions
SN -
VL - E64-E
IS - 3
JA - IEICE TRANSACTIONS on transactions
Y1 - March 1981
AB - Candidate plans for adaptive digital transmission are briefly reviewed. It is suggested that adaptive format transmission with asynchronous multiplexing capability is attractive and promising from the standpoint of practical application. Feasibility and efficiency of this new transmission plan are investigated. A formula for predicting the minimum required transmission rate is derived. Upper and lower bounds of transmission efficiencies are analysed. A signal distributing technique for improving transmission efficiency is also developed. Investigation of memory requirements anticipates the possibility of simple implementations for format conversion and reconversion. Results of simulations prove the reliability of theoretical predictions. Fiber optic transmission is expected to be suitable for realizing this new communications concept.
ER -