Satellite communication can be operated with various levels of on-board processing in order to transmit the signal effectively. In this paper, the BER performances of the bent pipe transponder (BPT), dehop only transponder (DOT) and dehop and rehop transponder (DRT) systems with FH-MFSK modulation are investigated in the presence of broad band interference, narrow band interference and tone-type interference. In this case, the BER performances are compared for the variants of the data rates, spreading bandwidth and interference power. The numerical results show that DRT outperforms BPT and DOT. DOT is less sensitive to uplink interference power under broad band interference environment than DRT. In the case of narrow band interference, the DRT system is more sensitive to ρ value, i.e., the ratio of the interference bandwidth to the spreading bandwidth, than DOT. Among various interference types, the performance in n = 1 band multi-tone interference is shown to be the worst.
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Sungdon MOON, Yeomin YOON, Jeungmin JOO, Kiseon KIM, "BER Performance of Satellite On-Board Processing Techniques with FH-MFSK Modulation under Various Interferences" in IEICE TRANSACTIONS on Communications,
vol. E87-B, no. 5, pp. 1328-1333, May 2004, doi: .
Abstract: Satellite communication can be operated with various levels of on-board processing in order to transmit the signal effectively. In this paper, the BER performances of the bent pipe transponder (BPT), dehop only transponder (DOT) and dehop and rehop transponder (DRT) systems with FH-MFSK modulation are investigated in the presence of broad band interference, narrow band interference and tone-type interference. In this case, the BER performances are compared for the variants of the data rates, spreading bandwidth and interference power. The numerical results show that DRT outperforms BPT and DOT. DOT is less sensitive to uplink interference power under broad band interference environment than DRT. In the case of narrow band interference, the DRT system is more sensitive to ρ value, i.e., the ratio of the interference bandwidth to the spreading bandwidth, than DOT. Among various interference types, the performance in n = 1 band multi-tone interference is shown to be the worst.
URL: https://global.ieice.org/en_transactions/communications/10.1587/e87-b_5_1328/_p
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@ARTICLE{e87-b_5_1328,
author={Sungdon MOON, Yeomin YOON, Jeungmin JOO, Kiseon KIM, },
journal={IEICE TRANSACTIONS on Communications},
title={BER Performance of Satellite On-Board Processing Techniques with FH-MFSK Modulation under Various Interferences},
year={2004},
volume={E87-B},
number={5},
pages={1328-1333},
abstract={Satellite communication can be operated with various levels of on-board processing in order to transmit the signal effectively. In this paper, the BER performances of the bent pipe transponder (BPT), dehop only transponder (DOT) and dehop and rehop transponder (DRT) systems with FH-MFSK modulation are investigated in the presence of broad band interference, narrow band interference and tone-type interference. In this case, the BER performances are compared for the variants of the data rates, spreading bandwidth and interference power. The numerical results show that DRT outperforms BPT and DOT. DOT is less sensitive to uplink interference power under broad band interference environment than DRT. In the case of narrow band interference, the DRT system is more sensitive to ρ value, i.e., the ratio of the interference bandwidth to the spreading bandwidth, than DOT. Among various interference types, the performance in n = 1 band multi-tone interference is shown to be the worst.},
keywords={},
doi={},
ISSN={},
month={May},}
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TY - JOUR
TI - BER Performance of Satellite On-Board Processing Techniques with FH-MFSK Modulation under Various Interferences
T2 - IEICE TRANSACTIONS on Communications
SP - 1328
EP - 1333
AU - Sungdon MOON
AU - Yeomin YOON
AU - Jeungmin JOO
AU - Kiseon KIM
PY - 2004
DO -
JO - IEICE TRANSACTIONS on Communications
SN -
VL - E87-B
IS - 5
JA - IEICE TRANSACTIONS on Communications
Y1 - May 2004
AB - Satellite communication can be operated with various levels of on-board processing in order to transmit the signal effectively. In this paper, the BER performances of the bent pipe transponder (BPT), dehop only transponder (DOT) and dehop and rehop transponder (DRT) systems with FH-MFSK modulation are investigated in the presence of broad band interference, narrow band interference and tone-type interference. In this case, the BER performances are compared for the variants of the data rates, spreading bandwidth and interference power. The numerical results show that DRT outperforms BPT and DOT. DOT is less sensitive to uplink interference power under broad band interference environment than DRT. In the case of narrow band interference, the DRT system is more sensitive to ρ value, i.e., the ratio of the interference bandwidth to the spreading bandwidth, than DOT. Among various interference types, the performance in n = 1 band multi-tone interference is shown to be the worst.
ER -