Hybrid digital-analog source and channel coding with adaptation

Minh Quang Nguyen; Hang Nguyen; Eric Renault; Yusheng Ji

doi:10.1109/CCNC.2017.7983262

Hybrid digital-analog source and channel coding with adaptation

Minh Quang Nguyen, Hang Nguyen, Eric Renault, Yusheng Ji

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

Abstract

Hybrid analog digital (HDA) architectures have been widely used in communication systems for analog source over discrete-time memoryless Gaussian channels. They employ a linear coding scheme in the analog parts, while considering separately the design of source and channel codes in the digital parts. To the best of our knowledge, none of the previous HDA schemes exploit the advantages of maintaining a joint source and channel coding design in the digital segment. In this paper, we investigate the effect of the analog parts on various outputs of the digital modules in a HDA communication system, and introduce a novel HDA architecture with adaptation for the digital parts. Such adaptation allows our system to exploit the joint effect of the analog components and the channel noise on outputs of the digital components, while simultaneously taking into consideration the unequal distribution of source code outputs. Our simulations illustrate that the proposed HDA system provides robust and graceful performance (on both bandwidth compression and expansion modes) for a wide range of channel conditions.

Original language	English
Title of host publication	2017 14th IEEE Annual Consumer Communications and Networking Conference, CCNC 2017
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	957-962
Number of pages	6
ISBN (Electronic)	9781509061969
DOIs	https://doi.org/10.1109/CCNC.2017.7983262
Publication status	Published - 17 Jul 2017
Externally published	Yes
Event	14th IEEE Annual Consumer Communications and Networking Conference, CCNC 2017 - Las Vegas, United States Duration: 8 Jan 2017 → 11 Jan 2017

Publication series

Name	2017 14th IEEE Annual Consumer Communications and Networking Conference, CCNC 2017

Conference

Conference	14th IEEE Annual Consumer Communications and Networking Conference, CCNC 2017
Country/Territory	United States
City	Las Vegas
Period	8/01/17 → 11/01/17

Keywords

Analog part
Gaussian sources
Hybrid digital-analog coding
Joint source-channel coding
Unequal error protection

Access to Document

10.1109/CCNC.2017.7983262

Cite this

Nguyen, M. Q., Nguyen, H., Renault, E., & Ji, Y. (2017). Hybrid digital-analog source and channel coding with adaptation. In 2017 14th IEEE Annual Consumer Communications and Networking Conference, CCNC 2017 (pp. 957-962). Article 7983262 (2017 14th IEEE Annual Consumer Communications and Networking Conference, CCNC 2017). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/CCNC.2017.7983262

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title = "Hybrid digital-analog source and channel coding with adaptation",

abstract = "Hybrid analog digital (HDA) architectures have been widely used in communication systems for analog source over discrete-time memoryless Gaussian channels. They employ a linear coding scheme in the analog parts, while considering separately the design of source and channel codes in the digital parts. To the best of our knowledge, none of the previous HDA schemes exploit the advantages of maintaining a joint source and channel coding design in the digital segment. In this paper, we investigate the effect of the analog parts on various outputs of the digital modules in a HDA communication system, and introduce a novel HDA architecture with adaptation for the digital parts. Such adaptation allows our system to exploit the joint effect of the analog components and the channel noise on outputs of the digital components, while simultaneously taking into consideration the unequal distribution of source code outputs. Our simulations illustrate that the proposed HDA system provides robust and graceful performance (on both bandwidth compression and expansion modes) for a wide range of channel conditions.",

keywords = "Analog part, Gaussian sources, Hybrid digital-analog coding, Joint source-channel coding, Unequal error protection",

author = "Nguyen, \{Minh Quang\} and Hang Nguyen and Eric Renault and Yusheng Ji",

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doi = "10.1109/CCNC.2017.7983262",

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Nguyen, MQ, Nguyen, H, Renault, E & Ji, Y 2017, Hybrid digital-analog source and channel coding with adaptation. in 2017 14th IEEE Annual Consumer Communications and Networking Conference, CCNC 2017., 7983262, 2017 14th IEEE Annual Consumer Communications and Networking Conference, CCNC 2017, Institute of Electrical and Electronics Engineers Inc., pp. 957-962, 14th IEEE Annual Consumer Communications and Networking Conference, CCNC 2017, Las Vegas, United States, 8/01/17. https://doi.org/10.1109/CCNC.2017.7983262

Hybrid digital-analog source and channel coding with adaptation. / Nguyen, Minh Quang; Nguyen, Hang; Renault, Eric et al.
2017 14th IEEE Annual Consumer Communications and Networking Conference, CCNC 2017. Institute of Electrical and Electronics Engineers Inc., 2017. p. 957-962 7983262 (2017 14th IEEE Annual Consumer Communications and Networking Conference, CCNC 2017).

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

TY - GEN

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AU - Renault, Eric

AU - Ji, Yusheng

PY - 2017/7/17

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N2 - Hybrid analog digital (HDA) architectures have been widely used in communication systems for analog source over discrete-time memoryless Gaussian channels. They employ a linear coding scheme in the analog parts, while considering separately the design of source and channel codes in the digital parts. To the best of our knowledge, none of the previous HDA schemes exploit the advantages of maintaining a joint source and channel coding design in the digital segment. In this paper, we investigate the effect of the analog parts on various outputs of the digital modules in a HDA communication system, and introduce a novel HDA architecture with adaptation for the digital parts. Such adaptation allows our system to exploit the joint effect of the analog components and the channel noise on outputs of the digital components, while simultaneously taking into consideration the unequal distribution of source code outputs. Our simulations illustrate that the proposed HDA system provides robust and graceful performance (on both bandwidth compression and expansion modes) for a wide range of channel conditions.

AB - Hybrid analog digital (HDA) architectures have been widely used in communication systems for analog source over discrete-time memoryless Gaussian channels. They employ a linear coding scheme in the analog parts, while considering separately the design of source and channel codes in the digital parts. To the best of our knowledge, none of the previous HDA schemes exploit the advantages of maintaining a joint source and channel coding design in the digital segment. In this paper, we investigate the effect of the analog parts on various outputs of the digital modules in a HDA communication system, and introduce a novel HDA architecture with adaptation for the digital parts. Such adaptation allows our system to exploit the joint effect of the analog components and the channel noise on outputs of the digital components, while simultaneously taking into consideration the unequal distribution of source code outputs. Our simulations illustrate that the proposed HDA system provides robust and graceful performance (on both bandwidth compression and expansion modes) for a wide range of channel conditions.

KW - Analog part

KW - Gaussian sources

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KW - Unequal error protection

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Nguyen MQ, Nguyen H, Renault E, Ji Y. Hybrid digital-analog source and channel coding with adaptation. In 2017 14th IEEE Annual Consumer Communications and Networking Conference, CCNC 2017. Institute of Electrical and Electronics Engineers Inc. 2017. p. 957-962. 7983262. (2017 14th IEEE Annual Consumer Communications and Networking Conference, CCNC 2017). doi: 10.1109/CCNC.2017.7983262

Hybrid digital-analog source and channel coding with adaptation

Abstract

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Keywords

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