Implementation of a Novel Audio Network Protocol

Lee, J.; Jeon, H.; Choi, P.; Kwon, S.; Lee, S.

doi:10.24425/aoa.2018.125157

Artykuł - szczegóły

Tytuł artykułu

Implementation of a Novel Audio Network Protocol

Autorzy

Lee J. , Jeon H. , Choi P. , Kwon S. , Lee S.

Treść / Zawartość

Pełne teksty:

Lee_Implementation of a Novel_4_2018.pdf

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Identyfikatory

DOI

10.24425/aoa.2018.125157

Warianty tytułu

Języki publikacji

Abstrakty

Recently, the rapid advancement of the IT industry has resulted in significant changes in audio-system configurations; particularly, the audio over internet protocol (AoIP) network-based audio-transmission technology has received favourable evaluations in this field. Applying the AoIP in a certain section of the multiple-cable zone is advantageous because the installation cost is lower than that for the existing systems, and the original sound is transmitted without any distortion. The existing AoIP-based technology, however, cannot control the audio-signal characteristics of every device and can only transmit multiple audio signals through a network. In this paper, the proposed Audio Network & Control Hierarchy Over peer-to-peer (Anchor) system enables all audio equipment to send and receive signals via a data network, and the receiving device can mix the signals of different IPs. Accordingly, it was possible to improve the system-application flexibility by simplifying the audio-system configuration. The research results confirmed that the received audio signals from different IPs were received, mixed, and output without errors. It is expected that Anchor will become a standard for audio-network protocols.

Słowa kluczowe

AoIP audio over internet protocol DANTE SR System audio mixer

Wydawca

Instytut Podstawowych Problemów Techniki PAN
Komitet Akustyki PAN
Polskie Towarzystwo Akustyczne

Czasopismo

Archives of Acoustics

Rocznik

2018

Tom

Vol. 43, No. 4

Strony

637--645

Opis fizyczny

Bibliogr. 15 poz., rys., tab.

Twórcy

autor

Lee J.

sound@kw.ac.kr

Department of Plasma Bio Display, Kwangwoon University, Seoul, Korea

autor

Jeon H.

fotojoon@gmail.com

Department of Plasma Bio Display, Kwangwoon University, Seoul, Korea

autor

Choi P.

phchoi@hotmail.com

Department of Plasma Bio Display, Kwangwoon University, Seoul, Korea

autor

Kwon S.

ksc0226@kw.ac.kr

Graduate School of Information and Contents, Kwangwoon University, Seoul, Korea

autor

Lee S.

shlee@kw.ac.kr

Graduate School of Information and Contents, Kwangwoon University, Seoul, Korea

Bibliografia

1. Cho J. H., Kim K. W., Kim D. I. (2017), Development of integrated mixer controller for digital public address [in Korean], Journal of Institute of Internet Broadcasting and Communication, 17, 1, 19-24.
2. Church S., Pizzi S. (2010), Audio over IP: building Pro AoIP systems with Livewire, Focal Press, pp. 113-141.
3. Kang J. A., Kim H. K. (2008), Implementation of a High-Quality Audio Collaboration System Over IP Networks [in Korean], Proceedings of The HCI Society of Korea Conference, pp. 218-223.
4. Kang M. S., Lee S. W., Park Y. S. (2008), Implementation of Local Distribution Audio System Based on AoIP [in Korean], Journal of Korean Institute of Maritime Information and Communication Sciences, 12, 11, 2165-2170.
5. Kim D. H., Wee J. W. (2013), A modem design for audio signal transmission [in Korean], Korea Electronics Technology Institute, 34, 1, 1468-1470.
6. Kim J. S., Song C. W. (2011), Development of integrated public address system for intelligent building [in Korean], Journal of Korea Intelligent Systems Society, 21, 2, 212-217.
7. Kim Y. M. (2007), A Study on the Audio Transmission Flow Control Using Mixing in real-time Communications [in Korean], Proceedings of Korean Institute of Communication Sciences, pp. 997-1000.
8. Kwon K. W., Park K. W., Wee J. H., Song B. C. (2015), Design and Implementation of an Embedded Media Storage System for AVB Networks [in Korean], Proceedings of Korean Institute of Communication Sciences, pp. 779-780.
9. Lee J. H., Kwon S. C., Lee S. H. (2017), Implementation of On-stie Audio Center based on AoIP, International Journal of Advanced Smart Convergence, 6, 2, 51-58.
10. Maciejko W. (2015), The effect of voice over IP transmission degradations on MAP-EM-GMM speaker verification performance, Archives of Acoustics, 40, 3, 407-417.
11. Park K. W., Kim D. H., Kwon K. W., Song B. C. (2015), AVB based IEEE 802.1AS performance test [in Korean], Proceedings of Korean Institute of Communication Sciences, pp. 1342-1343.
12. Rumsey F. (2012), Audio networking, AES: Journal of the Audio Engineering Society, 60, 4, 282-286.
13. Ryu S. H., Kim K. W., Kim H. G. (2012), Volume normalization algorithm for audio mixer in multiparticipant conference system [in Korean], Proceedings of Institute of Electronics Engineers of Korea, pp. 622-623.
14. Wee J. H., Park K. W., Song B. C. (2017), Implementation of control/management protocol based on audio/video bridging networks [in Korean], Proceedings of Korean Institute of Communication Sciences, pp. 1066-1067.
15. Wee J. H., Park Y. S., Park K. W., Song B. C., Jeun W. K., (2013), Audio/video bridging technology for real-time AV transmission [in Korean], The Journal of The Korea Institute of Communication Sciences, 30, 6, 69-76.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).

Typ dokumentu

Bibliografia

Identyfikator YADDA

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