FRD-FPRED: A Novel Re-Decode Based Error Compensation Method Using Fast Re-Decoding and Fast Prediction Algorithm

Hyunki Baik; Myong Soon Park

FRD-FPRED: A Novel Re-Decode Based Error Compensation Method Using Fast Re-Decoding and Fast Prediction Algorithm

Hyunki Baik, Myong Soon Park

* Honorary professors

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

This study aims at finding an efficient compensation method of transmission errors in low bit-rate mobile communications using the H.263 video codec. For this aim, we suggest a novel error compensation method in the encoder (or transmitter), that can remove visual quality degradation due to spatiotemporal error propagation by utilizing a feedback channel. Most of all, our proposed method can reduce the computational complexity of the re-decoding method and FRD(Fast Re-Decoding) method by using the characteristic for not error-propagated macroblocks. Experimental results show that the proposed error compensation method can give higher coding efficiency compared with the other two non redecoding based existing ones: the reference picture selection(RPS) method and the error tracking(ET) method. Finally, our proposed method requires only 30% in the amount of operations compare to fast re-decoding(FRD) procedure.

Original language	English
Title of host publication	Proceedings of the 6th Joint Conference on Information Sciences, JCIS 2002
Editors	J.H. Caulfield, S.H. Chen, H.D. Cheng, R. Duro, J.H. Caufield, S.H. Chen, H.D. Cheng, R. Duro, V. Honavar
Pages	1013-1016
Number of pages	4
Publication status	Published - 2002
Event	Proceedings of the 6th Joint Conference on Information Sciences, JCIS 2002 - Research Triange Park, NC, United States Duration: 2002 Mar 8 → 2002 Mar 13

Publication series

Name	Proceedings of the Joint Conference on Information Sciences
Volume	6

Other

Other	Proceedings of the 6th Joint Conference on Information Sciences, JCIS 2002
Country/Territory	United States
City	Research Triange Park, NC
Period	02/3/8 → 02/3/13

ASJC Scopus subject areas

Computer Science(all)

Cite this

Baik, H., & Park, M. S. (2002). FRD-FPRED: A Novel Re-Decode Based Error Compensation Method Using Fast Re-Decoding and Fast Prediction Algorithm. In J. H. Caulfield, S. H. Chen, H. D. Cheng, R. Duro, J. H. Caufield, S. H. Chen, H. D. Cheng, R. Duro, & V. Honavar (Eds.), Proceedings of the 6th Joint Conference on Information Sciences, JCIS 2002 (pp. 1013-1016). (Proceedings of the Joint Conference on Information Sciences; Vol. 6).

FRD-FPRED: A Novel Re-Decode Based Error Compensation Method Using Fast Re-Decoding and Fast Prediction Algorithm. / Baik, Hyunki; Park, Myong Soon.
Proceedings of the 6th Joint Conference on Information Sciences, JCIS 2002. ed. / J.H. Caulfield; S.H. Chen; H.D. Cheng; R. Duro; J.H. Caufield; S.H. Chen; H.D. Cheng; R. Duro; V. Honavar. 2002. p. 1013-1016 (Proceedings of the Joint Conference on Information Sciences; Vol. 6).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Baik, H & Park, MS 2002, FRD-FPRED: A Novel Re-Decode Based Error Compensation Method Using Fast Re-Decoding and Fast Prediction Algorithm. in JH Caulfield, SH Chen, HD Cheng, R Duro, JH Caufield, SH Chen, HD Cheng, R Duro & V Honavar (eds), Proceedings of the 6th Joint Conference on Information Sciences, JCIS 2002. Proceedings of the Joint Conference on Information Sciences, vol. 6, pp. 1013-1016, Proceedings of the 6th Joint Conference on Information Sciences, JCIS 2002, Research Triange Park, NC, United States, 02/3/8.

Baik H, Park MS. FRD-FPRED: A Novel Re-Decode Based Error Compensation Method Using Fast Re-Decoding and Fast Prediction Algorithm. In Caulfield JH, Chen SH, Cheng HD, Duro R, Caufield JH, Chen SH, Cheng HD, Duro R, Honavar V, editors, Proceedings of the 6th Joint Conference on Information Sciences, JCIS 2002. 2002. p. 1013-1016. (Proceedings of the Joint Conference on Information Sciences).

Baik, Hyunki ; Park, Myong Soon. / FRD-FPRED : A Novel Re-Decode Based Error Compensation Method Using Fast Re-Decoding and Fast Prediction Algorithm. Proceedings of the 6th Joint Conference on Information Sciences, JCIS 2002. editor / J.H. Caulfield ; S.H. Chen ; H.D. Cheng ; R. Duro ; J.H. Caufield ; S.H. Chen ; H.D. Cheng ; R. Duro ; V. Honavar. 2002. pp. 1013-1016 (Proceedings of the Joint Conference on Information Sciences).

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title = "FRD-FPRED: A Novel Re-Decode Based Error Compensation Method Using Fast Re-Decoding and Fast Prediction Algorithm",

abstract = "This study aims at finding an efficient compensation method of transmission errors in low bit-rate mobile communications using the H.263 video codec. For this aim, we suggest a novel error compensation method in the encoder (or transmitter), that can remove visual quality degradation due to spatiotemporal error propagation by utilizing a feedback channel. Most of all, our proposed method can reduce the computational complexity of the re-decoding method and FRD(Fast Re-Decoding) method by using the characteristic for not error-propagated macroblocks. Experimental results show that the proposed error compensation method can give higher coding efficiency compared with the other two non redecoding based existing ones: the reference picture selection(RPS) method and the error tracking(ET) method. Finally, our proposed method requires only 30% in the amount of operations compare to fast re-decoding(FRD) procedure.",

author = "Hyunki Baik and Park, {Myong Soon}",

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language = "English",

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note = "Proceedings of the 6th Joint Conference on Information Sciences, JCIS 2002 ; Conference date: 08-03-2002 Through 13-03-2002",

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AB - This study aims at finding an efficient compensation method of transmission errors in low bit-rate mobile communications using the H.263 video codec. For this aim, we suggest a novel error compensation method in the encoder (or transmitter), that can remove visual quality degradation due to spatiotemporal error propagation by utilizing a feedback channel. Most of all, our proposed method can reduce the computational complexity of the re-decoding method and FRD(Fast Re-Decoding) method by using the characteristic for not error-propagated macroblocks. Experimental results show that the proposed error compensation method can give higher coding efficiency compared with the other two non redecoding based existing ones: the reference picture selection(RPS) method and the error tracking(ET) method. Finally, our proposed method requires only 30% in the amount of operations compare to fast re-decoding(FRD) procedure.

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FRD-FPRED: A Novel Re-Decode Based Error Compensation Method Using Fast Re-Decoding and Fast Prediction Algorithm

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ASJC Scopus subject areas

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