The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
Copyrights notice
The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
Kertas kerja ini membentangkan permintaan ulang automatik jenis-II hibrid (H-ARQ) untuk rangkaian kawasan badan boleh pakai wayarles (BAN) berdasarkan teknologi jalur lebar ultra (UWB). Model yang dicadangkan adalah berdasarkan tiga skim, iaitu, kod konvolusi tertusuk serasi kadar dioptimumkan tinggi (HRO-RCPC), kod boleh terbalik Reed Solomon (RS) dan penyatuannya. Pengekodan pembetulan ralat ke hadapan (FEC) digabungkan dengan pengesanan ralat semakan redundansi kitaran (CRC) mudah. Prestasi disiasat untuk dua saluran: CM3 (on-body to on-body) dan CM4 (on-body to a gateway) senario model saluran IEEE802.15.6 BAN untuk BAN. Ia menunjukkan bahawa peningkatan dalam prestasi dari segi daya pemprosesan dan keteguhan perlindungan ralat adalah sangat ketara. Oleh itu, skim H-ARQ yang dicadangkan boleh digunakan dan dioptimumkan untuk disesuaikan dengan aplikasi perubatan dan bukan perubatan. Khususnya kami mencadangkan penggunaan pengekodan FEC untuk aplikasi bukan perubatan kerana ia memerlukan kualiti perkhidmatan (QoS) yang kurang ketat, manakala lebihan tambahan dan konfigurasi ARQ hanya digunakan untuk aplikasi perubatan. Oleh itu, QoS yang lebih tinggi dijamin untuk aplikasi perubatan BAN sambil membenarkan kewujudan bersama dengan aplikasi bukan perubatan.
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Salinan
Haruka SUZUKI, Marco HERNANDEZ, Ryuji KOHNO, "Hybrid ARQ Error-Controlling Scheme for Robust and Efficient Transmission of UWB Body Area Networks" in IEICE TRANSACTIONS on Communications,
vol. E93-B, no. 4, pp. 826-832, April 2010, doi: 10.1587/transcom.E93.B.826.
Abstract: This paper presents hybrid type-II automatic repeat request (H-ARQ) for wireless wearable body area networks (BANs) based on ultra wideband (UWB) technology. The proposed model is based on three schemes, namely, high rate optimized rate compatible punctured convolutional codes (HRO-RCPC), Reed Solomon (RS) invertible codes and their concatenation. Forward error correction (FEC) coding is combined with simple cyclic redundancy check (CRC) error detection. The performance is investigated for two channels: CM3 (on-body to on-body) and CM4 (on-body to a gateway) scenarios of the IEEE802.15.6 BAN channel models for BANs. It is shown that the improvement in performance in terms of throughput and error protection robustness is very significant. Thus, the proposed H-ARQ schemes can be employed and optimized to suit medical and non-medical applications. In particular we propose the use of FEC coding for non-medical applications as those require less stringent quality of service (QoS), while the incremental redundancy and ARQ configuration is utilized only for medical applications. Thus, higher QoS is guaranteed for medical application of BANs while allowing coexistence with non-medical applications.
URL: https://global.ieice.org/en_transactions/communications/10.1587/transcom.E93.B.826/_p
Salinan
@ARTICLE{e93-b_4_826,
author={Haruka SUZUKI, Marco HERNANDEZ, Ryuji KOHNO, },
journal={IEICE TRANSACTIONS on Communications},
title={Hybrid ARQ Error-Controlling Scheme for Robust and Efficient Transmission of UWB Body Area Networks},
year={2010},
volume={E93-B},
number={4},
pages={826-832},
abstract={This paper presents hybrid type-II automatic repeat request (H-ARQ) for wireless wearable body area networks (BANs) based on ultra wideband (UWB) technology. The proposed model is based on three schemes, namely, high rate optimized rate compatible punctured convolutional codes (HRO-RCPC), Reed Solomon (RS) invertible codes and their concatenation. Forward error correction (FEC) coding is combined with simple cyclic redundancy check (CRC) error detection. The performance is investigated for two channels: CM3 (on-body to on-body) and CM4 (on-body to a gateway) scenarios of the IEEE802.15.6 BAN channel models for BANs. It is shown that the improvement in performance in terms of throughput and error protection robustness is very significant. Thus, the proposed H-ARQ schemes can be employed and optimized to suit medical and non-medical applications. In particular we propose the use of FEC coding for non-medical applications as those require less stringent quality of service (QoS), while the incremental redundancy and ARQ configuration is utilized only for medical applications. Thus, higher QoS is guaranteed for medical application of BANs while allowing coexistence with non-medical applications.},
keywords={},
doi={10.1587/transcom.E93.B.826},
ISSN={1745-1345},
month={April},}
Salinan
TY - JOUR
TI - Hybrid ARQ Error-Controlling Scheme for Robust and Efficient Transmission of UWB Body Area Networks
T2 - IEICE TRANSACTIONS on Communications
SP - 826
EP - 832
AU - Haruka SUZUKI
AU - Marco HERNANDEZ
AU - Ryuji KOHNO
PY - 2010
DO - 10.1587/transcom.E93.B.826
JO - IEICE TRANSACTIONS on Communications
SN - 1745-1345
VL - E93-B
IS - 4
JA - IEICE TRANSACTIONS on Communications
Y1 - April 2010
AB - This paper presents hybrid type-II automatic repeat request (H-ARQ) for wireless wearable body area networks (BANs) based on ultra wideband (UWB) technology. The proposed model is based on three schemes, namely, high rate optimized rate compatible punctured convolutional codes (HRO-RCPC), Reed Solomon (RS) invertible codes and their concatenation. Forward error correction (FEC) coding is combined with simple cyclic redundancy check (CRC) error detection. The performance is investigated for two channels: CM3 (on-body to on-body) and CM4 (on-body to a gateway) scenarios of the IEEE802.15.6 BAN channel models for BANs. It is shown that the improvement in performance in terms of throughput and error protection robustness is very significant. Thus, the proposed H-ARQ schemes can be employed and optimized to suit medical and non-medical applications. In particular we propose the use of FEC coding for non-medical applications as those require less stringent quality of service (QoS), while the incremental redundancy and ARQ configuration is utilized only for medical applications. Thus, higher QoS is guaranteed for medical application of BANs while allowing coexistence with non-medical applications.
ER -