The capture effect caused by some of power assignment, Rayleigh fading, and near-far effect, can improve the performance of random-access techniques in mobile radio environment. Moreover, if we consider the overall effect of them, the system performance can be noticeably improved. In this paper, the combined effect of fixed power assignment scheme, Rayleigh fading, and near-far effect on the performance of slotted ALOHA are studied. Plus, the performance degradation caused by AWGN is also investigated. The type of signal capture to be considered is the one that a signal involved in a collision survives if its power level exceeds the sum of the other signals participating in the same collision. Numerical calculations are used to demonstrate the degree of improvement and degradation.
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Jyh-Horng WEN, Wen-Yung YANG, "Performance Analysis of Mobile Radio Network with Fixed Power Assignment, Rayleigh Fading, and Near-Far Effects over AWGN Channel" in IEICE TRANSACTIONS on Communications,
vol. E80-B, no. 11, pp. 1713-1721, November 1997, doi: .
Abstract: The capture effect caused by some of power assignment, Rayleigh fading, and near-far effect, can improve the performance of random-access techniques in mobile radio environment. Moreover, if we consider the overall effect of them, the system performance can be noticeably improved. In this paper, the combined effect of fixed power assignment scheme, Rayleigh fading, and near-far effect on the performance of slotted ALOHA are studied. Plus, the performance degradation caused by AWGN is also investigated. The type of signal capture to be considered is the one that a signal involved in a collision survives if its power level exceeds the sum of the other signals participating in the same collision. Numerical calculations are used to demonstrate the degree of improvement and degradation.
URL: https://global.ieice.org/en_transactions/communications/10.1587/e80-b_11_1713/_p
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@ARTICLE{e80-b_11_1713,
author={Jyh-Horng WEN, Wen-Yung YANG, },
journal={IEICE TRANSACTIONS on Communications},
title={Performance Analysis of Mobile Radio Network with Fixed Power Assignment, Rayleigh Fading, and Near-Far Effects over AWGN Channel},
year={1997},
volume={E80-B},
number={11},
pages={1713-1721},
abstract={The capture effect caused by some of power assignment, Rayleigh fading, and near-far effect, can improve the performance of random-access techniques in mobile radio environment. Moreover, if we consider the overall effect of them, the system performance can be noticeably improved. In this paper, the combined effect of fixed power assignment scheme, Rayleigh fading, and near-far effect on the performance of slotted ALOHA are studied. Plus, the performance degradation caused by AWGN is also investigated. The type of signal capture to be considered is the one that a signal involved in a collision survives if its power level exceeds the sum of the other signals participating in the same collision. Numerical calculations are used to demonstrate the degree of improvement and degradation.},
keywords={},
doi={},
ISSN={},
month={November},}
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TY - JOUR
TI - Performance Analysis of Mobile Radio Network with Fixed Power Assignment, Rayleigh Fading, and Near-Far Effects over AWGN Channel
T2 - IEICE TRANSACTIONS on Communications
SP - 1713
EP - 1721
AU - Jyh-Horng WEN
AU - Wen-Yung YANG
PY - 1997
DO -
JO - IEICE TRANSACTIONS on Communications
SN -
VL - E80-B
IS - 11
JA - IEICE TRANSACTIONS on Communications
Y1 - November 1997
AB - The capture effect caused by some of power assignment, Rayleigh fading, and near-far effect, can improve the performance of random-access techniques in mobile radio environment. Moreover, if we consider the overall effect of them, the system performance can be noticeably improved. In this paper, the combined effect of fixed power assignment scheme, Rayleigh fading, and near-far effect on the performance of slotted ALOHA are studied. Plus, the performance degradation caused by AWGN is also investigated. The type of signal capture to be considered is the one that a signal involved in a collision survives if its power level exceeds the sum of the other signals participating in the same collision. Numerical calculations are used to demonstrate the degree of improvement and degradation.
ER -