International Transactions on Data Science, Engineering and Technology
Vol. 3, No. 1, Mar. 2020
The Behavior of Additive White Gaussian Noise Multiple Access Channel | Short Letter
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a North China Electric Power University, Beijing, P.R.China b North China Electric Power University, Beijing, P.R.China c Central University of Finance and Economics, Beijing, P.R.China
Mr. Yuanpei MA
Corresponding Author Affiliation: North China Electric Power University, Beijing, P.R.China Tel: 13864426666 E-mail: mayuanpei@ncepu.cn Mr. Yuanpei MA's publications in ICSES
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This article has been retracted by International Computer Science and Engineering Society (ICSES) because of ethical misconduct, scientific distortion, or administrative error, and cannot be downloaded and used for any purpose based on the violation in ICSES Ethics in Publicationcall_made |
Retraction Note by the Editor-in-Chief
Highlights and Novelties
1- This paper studies the behavior of users in a classical Additive White Gaussian Noise Multiple Access Channel (AWGN MAC) with users who are subject to a maximum average power constraint.
2- It provides a curious example of a situation where having more participants does not necessarily lead to worse performance.
3- Our motivating question is how users in an AWGN MAC choose their operating point in the absence of any regulating authority.
4- This is in contrast to the standard communication setup that implicitly assumes that users already agreed on the individual rates.
Manuscript Abstract
In this paper, we study the behavior of users in a classical Additive White Gaussian Noise Multiple Access Channel (AWGN MAC) with users who are subject to a maximum average power constraint. This is one of the simplest multiple-user channel, and its capacity region is known and well defined. It also provides a curious example of a situation where having more participants does not necessarily lead to worse performance. Namely, a user can be added to an AWGN MAC with users in such a way that the rates of the incumbent users stay the same. This is so since the capacity of an AWGN MAC with users is a subset of the capacity region with users. Our motivating question is how users in an AWGN MAC choose their operating point in the absence of any regulating authority. This is in contrast to the standard communication setup that implicitly assumes that users already agreed on the individual rates.
Keywords
Game Theory White Gaussian Noise Multiple Channels Capacity
Copyright and Licence
© Copyright was transferred to International Computer Science and Engineering Society (ICSES) by all the Authors. This manuscript is published in Open-Access manner based on the copyright licence of Creative Commons Attribution Non Commercial 4.0 International (CC BY-NC 4.0).
Cite this manuscript as
Yuanpei MA, Zhuoxuan YANG, Guan Yan, "The Behavior of Additive White Gaussian Noise Multiple Access Channel," International Transactions on Data Science, Engineering and Technology, vol. 3, no. 1, pp. 5-8, Mar. 2020.
For External Scientific Databeses
--BibTex--
@article{al._329 title="The Behavior of Additive White Gaussian Noise Multiple Access Channel", author="Yuanpei MA", author="Zhuoxuan YANG", author="Guan Yan", journal="International Transactions on Data Science, Engineering and Technology (ITDSET)", volume="3", number="1", pages="5-8", year="2020", month="03", day="30", publisher= "International Computer Science and Engineering Society (ICSES)", doi="", url="http://www.i-cses.com/files/download.php?pID=329"}
--EndNote--
%0 Journal Article %T The Behavior of Additive White Gaussian Noise Multiple Access Channel %A Yuanpei MA %A Zhuoxuan YANG %A Guan Yan %J International Transactions on Data Science, Engineering and Technology (ITDSET) %V 3 %N 1 %P 5-2020 %D 2020-03-30 %I International Computer Science and Engineering Society (ICSES) %U http://www.i-cses.com/files/download.php?pID=329 %8 2020-03-30 %R %@ 2467-297X
--Dublin--
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