On the Performance of Frequency-Hopped Spread- Spectrum Systems Utilizing Near-Orthogonal Hopping Patterns

Jyh-Horng WEN; Jee-Wey WANG

On the Performance of Frequency-Hopped Spread- Spectrum Systems Utilizing Near-Orthogonal Hopping Patterns

Jyh-Horng WEN, Jee-Wey WANG

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A simple near-orthogonal code is used as frequency-hopping patterns for the frequency-hopped multiple access systems. Extended RS code is used as channel coding to deplete the effects of hits from simultaneous users. Packet error probability and channel throughput for the system utilizing the near-orthogonal code are evaluated and compared to the corresponding values obtained from the system utilizing random patterns. Results show that the former can provide substantial improvement over the latter. In our illustrated examples, we also show that under the constraint of packet error probability P_E 10^-2, the maximum achievable number of users with most (n,k) RS codes of interest is less than the number of distinct codewords in the near-orthogonal code. Thus, the number of codewords of the near-orthogonal code is large enough to support the practical application.

Publication: IEICE TRANSACTIONS on Communications Vol.E81-B No.11 pp.2191-2196

Publication Date: 1998/11/25

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Category: Mobile Communication

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Jyh-Horng WEN, Jee-Wey WANG, "On the Performance of Frequency-Hopped Spread- Spectrum Systems Utilizing Near-Orthogonal Hopping Patterns" in IEICE TRANSACTIONS on Communications, vol. E81-B, no. 11, pp. 2191-2196, November 1998, doi: .
Abstract: A simple near-orthogonal code is used as frequency-hopping patterns for the frequency-hopped multiple access systems. Extended RS code is used as channel coding to deplete the effects of hits from simultaneous users. Packet error probability and channel throughput for the system utilizing the near-orthogonal code are evaluated and compared to the corresponding values obtained from the system utilizing random patterns. Results show that the former can provide substantial improvement over the latter. In our illustrated examples, we also show that under the constraint of packet error probability P_E 10^-2, the maximum achievable number of users with most (n,k) RS codes of interest is less than the number of distinct codewords in the near-orthogonal code. Thus, the number of codewords of the near-orthogonal code is large enough to support the practical application.
URL: https://global.ieice.org/en_transactions/communications/10.1587/e81-b_11_2191/_p

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@ARTICLE{e81-b_11_2191,
author={Jyh-Horng WEN, Jee-Wey WANG, },
journal={IEICE TRANSACTIONS on Communications},
title={On the Performance of Frequency-Hopped Spread- Spectrum Systems Utilizing Near-Orthogonal Hopping Patterns},
year={1998},
volume={E81-B},
number={11},
pages={2191-2196},
abstract={A simple near-orthogonal code is used as frequency-hopping patterns for the frequency-hopped multiple access systems. Extended RS code is used as channel coding to deplete the effects of hits from simultaneous users. Packet error probability and channel throughput for the system utilizing the near-orthogonal code are evaluated and compared to the corresponding values obtained from the system utilizing random patterns. Results show that the former can provide substantial improvement over the latter. In our illustrated examples, we also show that under the constraint of packet error probability P_E 10^-2, the maximum achievable number of users with most (n,k) RS codes of interest is less than the number of distinct codewords in the near-orthogonal code. Thus, the number of codewords of the near-orthogonal code is large enough to support the practical application.},
keywords={},
doi={},
ISSN={},
month={November},}

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TY - JOUR
TI - On the Performance of Frequency-Hopped Spread- Spectrum Systems Utilizing Near-Orthogonal Hopping Patterns
T2 - IEICE TRANSACTIONS on Communications
SP - 2191
EP - 2196
AU - Jyh-Horng WEN
AU - Jee-Wey WANG
PY - 1998
DO -
JO - IEICE TRANSACTIONS on Communications
SN -
VL - E81-B
IS - 11
JA - IEICE TRANSACTIONS on Communications
Y1 - November 1998
AB - A simple near-orthogonal code is used as frequency-hopping patterns for the frequency-hopped multiple access systems. Extended RS code is used as channel coding to deplete the effects of hits from simultaneous users. Packet error probability and channel throughput for the system utilizing the near-orthogonal code are evaluated and compared to the corresponding values obtained from the system utilizing random patterns. Results show that the former can provide substantial improvement over the latter. In our illustrated examples, we also show that under the constraint of packet error probability P_E 10^-2, the maximum achievable number of users with most (n,k) RS codes of interest is less than the number of distinct codewords in the near-orthogonal code. Thus, the number of codewords of the near-orthogonal code is large enough to support the practical application.
ER -