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Journal articles on the topic 'MPEG TRANSPORT STREAM'

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Author: Grafiati
Published: 26 October 2023

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1

Li, Rui Min, and Gao Fei Sun. "A Design and Implementation of Comprehensive MPEG-2 Transport Stream Analysis System for Large-Scale TV Station." Advanced Materials Research 219-220 (March 2011): 665–69. http://dx.doi.org/10.4028/www.scientific.net/amr.219-220.665.

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MPEG2 technology of Digital Video Broadcasting system has large difference than before, but their detection requirements are basically the same. Based on network detection, MPEG three-level alarm, screen layer alarm, demonstrates much channels, large-scale stream analysis, the mutual influence between the channel, and relationship between the stream. Through designed and compiled a test software, had get the results which verified previous analysis.Experiments have proved that this system is suitable for the provincial TV stream detection and network design and analysis.
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2

Ward, C., C. Pecota, X. Lee, and G. Hughes. "Seamless Splicing for MPEG-2 Transport Stream Video Servers." SMPTE Journal 108, no. 12 (December 1999): 873–79. http://dx.doi.org/10.5594/j04309.

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3

Takahashi, Takeshi, Tsuyoshi Hanamura, Hiroyuki Kasai, Isao Nagayoshi, and Hideyoshi Tominaga. "Remultiplexing scheme for MPEG-2 multiprogram transport stream transcoder." Electronics and Communications in Japan (Part I: Communications) 86, no. 2 (October 16, 2002): 1–13. http://dx.doi.org/10.1002/ecja.10066.

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4

Chaubet, Allan, George Henrique de Oliveira, Gustavo Valeira, and Cristiano Akamine. "Practical tests with MMT and ROUTE/DASH on the transport layer of ATSC 3.0." SET INTERNATIONAL JOURNAL OF BROADCAST ENGINEERING 2020, no. 6 (August 1, 2020): 56–65. http://dx.doi.org/10.18580/setijbe.2020.5.

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The development of new technologies allowed television systems to evolve over time. For the transport layer, the Movie Pictures Expert Group (MPEG) developed several standards to deliver multimedia content, including the MPEG-2 Transport Stream (TS), which has been widely explored for years. However, it was developed before the spread of the internet, which led to the interest in a new standard that could fulfill the needs from a connected world. One of these standards is the MPEG Multimedia Transport (MMT), which has inherited some features from the MPEG-2 TS, adapting them to be compatible with the Internet Protocol (IP). The broadband systems also needed a new standard compatible with Hypertext Transfer Protocol (HTTP), resulting in the development of the MPEG-Dynamic Adaptive Streaming over HTTP (DASH). To deliver DASH on broadcast channels, it was combined with the Real-time Object delivery over Unidirectional Transport (ROUTE) protocol. The Advanced Television Systems Committee 3.0 (ATSC 3.0) adopted many technologies to attend the requirements for the next generation of television systems, including both MMT and ROUTE/DASH. This paper presents a historic background of these delivery methods, as well as a brief technical review, focusing on a practical setup to test the methods mentioned, analyzing the differences and similarities of their properties.
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5

Wang Xingdong, Yu Songyu, and Liang Longfei. "Implementation of MPEG-2 transport stream remultiplexer for DTV broadcasting." IEEE Transactions on Consumer Electronics 48, no. 2 (May 2002): 329–34. http://dx.doi.org/10.1109/tce.2002.1010139.

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6

Park, Heung-Sik, Kyu-Heon Kim, Gun-Hee Lee, Kug-Jin Yun, Doug-Young Suh, and Gwang-Hoon Park. "Design of MPEG-2 Transport Stream specification for stereoscopic video broadcasting service." Journal of Broadcast Engineering 14, no. 6 (November 30, 2009): 769–82. http://dx.doi.org/10.5909/jbe.2009.14.6.769.

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7

DShah, Anali, Sudhir Agrawal, and Kapil Sharma. "Transport Stream Playout System for MPEG-TS using Program Clock Reference." International Journal of Computer Applications 117, no. 16 (May 20, 2015): 22–25. http://dx.doi.org/10.5120/20640-3324.

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8

Atzori, L., F. G. B. De Natale, M. Di Gregorio, and D. D. Giusto. "Private data broadcasting using digital TV and MPEG-2 transport stream." Computer Standards & Interfaces 20, no. 6-7 (March 1999): 406. http://dx.doi.org/10.1016/s0920-5489(99)90767-5.

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9

Liang Longfei, Yu Songyu, and Wang Xingdong. "Implementation of a new MPEG-2 transport stream processor for digital television broadcasting." IEEE Transactions on Broadcasting 48, no. 4 (December 2002): 348–52. http://dx.doi.org/10.1109/tbc.2002.806799.

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10

Ewald-Arostegui, Nimbe L., Gorry Fairhurst, and Ana Yun-Garcia. "A Framework for an IP-Based DVB Transmission Network." International Journal of Digital Multimedia Broadcasting 2010 (2010): 1–13. http://dx.doi.org/10.1155/2010/394965.

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One of the most important challenges for next generation all-IP networks is the convergence and interaction of wireless and wired networks in a smooth and efficient manner. This challenge will need to be faced if broadcast transmission networks are to converge with IP infrastructure. The 2nd generation of DVB standards supports the Generic Stream, allowing the direct transmission of IP-based content using the Generic Stream Encapsulation (GSE), in addition to the native Transport Stream (TS). However, the current signalling framework is based on MPEG-2 Tables that rely upon the TS. This paper examines the feasibility of providing a GSE signalling framework, eliminating the need for the TS. The requirements and potential benefits of this new approach are described. It reviews prospective methods that may be suitable for network discovery and selection and analyses different options for the transport and syntax of this signalling metadata. It is anticipated that the design of a GSE-only signalling system will enable DVB networks to function as a part of the Internet.
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11

Jae-Gon Kim, Hankyu Lee, Jinwoong Kim, and Joo-Hong Jeong. "Design and implementation of an MPEG-2 transport stream multiplexer for HDTV satellite broadcasting." IEEE Transactions on Consumer Electronics 44, no. 3 (1998): 672–78. http://dx.doi.org/10.1109/30.713179.

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12

Pan, Deng, Yu Hua, and Yu Xiang. "Research of Transport Stream and PCR Timestamp in the Satellite Digital TV Time Service System." Applied Mechanics and Materials 411-414 (September 2013): 799–802. http://dx.doi.org/10.4028/www.scientific.net/amm.411-414.799.

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The Satellite Digital TV Time Service is based on the DVB-S Satellite Digital TV system, using Program Clock Reference (PCR) in the MPEG-2 frame to capture timestamp and measure delay time. This paper, considering the PCR as the Time Synchronization Flag after researching Transport Stream (TS) frame and Asynchronous Serial Interface (ASI) in Satellite Digital TV system, recovers the asynchronous serial data from TS in Satellite Digital TV by oversampling technology. After that, PCR will be found from the recovered data, and the timestamp will be captured when PCR is detected. Finally, this method is tested by using E5710 Encoder and FPGA Cyclone II chip. The experimental results are satisfactory, and the precision of detecting bit synchronization excels 3.7ns.
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13

Schierl, T., K. Gruneberg, and T. Wiegand. "Scalable video coding over RTP and MPEG-2 transport stream in broadcast and IPTV channels." IEEE Wireless Communications 16, no. 5 (October 2009): 64–71. http://dx.doi.org/10.1109/mwc.2009.5300304.

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14

Yuh-Feng Hsu, Yung-Chang Chen, Chaur-Jia Huang, and Ming-Jyh Sun. "MPEG-2 spatial scalable coding and transport stream error concealment for satellite TV broadcasting using Ka-band." IEEE Transactions on Broadcasting 44, no. 1 (March 1998): 77–86. http://dx.doi.org/10.1109/11.713056.

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15

Yuh-Feng Hsu, Yung-Chang Chen, Chaur-Jia Huang, and Ming-Jyh Sun. "MPEG-2 spatial scalable coding and transport stream error concealment for satellite TV broadcasting using Ka-band." IEEE Transactions on Broadcasting 44, no. 2 (June 1998): 233–42. http://dx.doi.org/10.1109/11.713076.

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16

Hyung Kim, Chang, Seong Jeong, Kyoung Hak Lee, and Chae Bong Sohn. "DTV broadcasting failover switching system using PCR information." International Journal of Engineering & Technology 7, no. 2.12 (April 3, 2018): 101. http://dx.doi.org/10.14419/ijet.v7i2.12.11101.

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Background/Objectives: Major Terrestrial broadcasters, MSO (Multi-System Operator), IPTV (Internet Protocol Television) Operators have been putting effort to prevent the transmission stops such as transmission interruption.Methods/Statistical analysis: The main and spare signals of the digital broadcasting are monitored. If a problem occurs in the main signal, it automatically switched to a preliminary signal, preventing a broadcast accident before a failover switch is performed.In this paper, we propose a method that can automatically switch signal to minimize the resulting impacts on a broadcasting accident caused by a disconnection from the input or an accident from the network. Digital broadcasts transmission abides by MPEG-2 (Moving Picture Expert Group) TS (Transport Stream) standardization.Findings: This paper proposes a method to maintain the quality of broadcast such as transmission interruption within ETSI TR 101 290 (European Telecommunications Standards Institute Technical Report) standardization. Furthermore, with this proposed method, it would be possible to minimize the error from an automatically transferred stream that sent from the emergency link within ETSI TR 101 290 standardization.Improvements/Applications: A method for preventing broadcast transmission accidents
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17

Fibush, David K. "Timing and Synchronization Using MPEG-2 Transport Streams." SMPTE Journal 105, no. 7 (July 1996): 395–400. http://dx.doi.org/10.5594/j17209.

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18

Amreev, M., R. Safin, V. Yakubov, and T. Pavlova. "CHOOSING A COMPRESSION STANDARD FOR TRANSMITTING A TELEVISION IMAGE." PHYSICO-MATHEMATICAL SERIES 5, no. 333 (October 15, 2020): 5–9. http://dx.doi.org/10.32014/2020.2518-1726.76.

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With the advent of the MPEG-4 Visual and H.264 compression standards, the role of the MPEG-2 compression standard has not diminished at the present time, since these standards are largely compatible, especially for information highways. Today, in a number of countries, the MPEG-2 compression standard is actually the main one for broadcasting, the functioning of which is based on the operation of DVB-T terrestrial digital television systems. Due to the fact that the majority of the currently used STBs support the MPEG-2 standard, it will remain widespread for at least the next few years. The ITU-T H.264 /MPEG-4 Part 10 AVC standard (abbreviated as H.264/AVC) is a promising new technology for encoding and compressing audiovisual information. The compression efficiency of the H.264/AVC standard is higher than the MPEG-2 standard with equal visual perception. The H.264/AVC standard was developed independent of the transport layer of the transmission systems used. Therefore, information delivery in the H.264/AVC standard can be carried out using any existing transmission and broadcasting systems, including: systems with IP protocols (including streaming delivery), transport streams of broadcasting systems in the MPEG-2 standard, as well as specific formats H.264 / AVC files for storage and processing on servers.
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19

Hanna, C., D. Gillies, E. Cochon, A. Dorner, J. Alred, and M. Hinkle. "Demultiplexer IC for MPEG2 transport streams." IEEE Transactions on Consumer Electronics 41, no. 3 (1995): 699–706. http://dx.doi.org/10.1109/30.468020.

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20

Van der Auwera, Geert, Prasanth T. David, Martin Reisslein, and Lina J. Karam. "Traffic and Quality Characterization of the H.264/AVC Scalable Video Coding Extension." Advances in Multimedia 2008 (2008): 1–27. http://dx.doi.org/10.1155/2008/164027.

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The recent scalable video coding (SVC) extension to the H.264/AVC video coding standard has unprecedented compression efficiency while supporting a wide range of scalability modes, including temporal, spatial, and quality (SNR) scalability, as well as combined spatiotemporal SNR scalability. The traffic characteristics, especially the bit rate variabilities, of the individual layer streams critically affect their network transport. We study the SVC traffic statistics, including the bit rate distortion and bit rate variability distortion, with long CIF resolution video sequences and compare them with the corresponding MPEG-4 Part 2 traffic statistics. We consider (i) temporal scalability with three temporal layers, (ii) spatial scalability with a QCIF base layer and a CIF enhancement layer, as well as (iii) quality scalability modes FGS and MGS. We find that the significant improvement in RD efficiency of SVC is accompanied by substantially higher traffic variabilities as compared to the equivalent MPEG-4 Part 2 streams. We find that separately analyzing the traffic of temporal-scalability only encodings gives reasonable estimates of the traffic statistics of the temporal layers embedded in combined spatiotemporal encodings and in the base layer of combined FGS-temporal encodings. Overall, we find that SVC achieves significantly higher compression ratios than MPEG-4 Part 2, but produces unprecedented levels of traffic variability, thus presenting new challenges for the network transport of scalable video.
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21

Gozálvez, David, David Gómez-Barquero, Thomas Stockhammer, and Michael Luby. "AL-FEC for Improved Mobile Reception of MPEG-2 DVB-T Transport Streams." International Journal of Digital Multimedia Broadcasting 2009 (2009): 1–10. http://dx.doi.org/10.1155/2009/614178.

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We investigate the use of application layer FEC protection in DVB-T (Digital Video Broadcasting-Terrestrial) networks for the provision of mobile services. Mobile reception is characterized by variations of the received signal caused by fast fading and shadowing. DVB-T was originally designed for fixed and portable reception, and generally does not provide enough quality in mobile environments. The link layer protection mechanism MPE-FEC (Multi Protocol Encapsulation-Forward Error Correction) was standardized in DVB-H (Digital Video Broadcasting-Handheld) for the protection of mobile TV services. Although DVB-T itself does not incorporate any link or application layer protection mechanism, AL-FEC (Application layer Forward Error Correction) protection can be introduced in DVB-T in a backwards compatible way. By means of AL-FEC, it is possible to improve the robustness of DVB-T services for the provision of mobile TV. In this paper, we explain the concept of AL-FEC protection in DVB-T and evaluate its performance by means of laboratory measurements and dynamic simulations with shadowing. We study different configurations of AL-FEC and compare its performance with MPE-FEC. In this paper, we discuss some implementation aspects of AL-FEC in real scenarios and propose an implementation based on Raptor codes and hash sequences. We also present results obtained by a first AL-FEC prototype for DVB-T that demonstrates the feasibility of the approach.
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22

Wenwu Zhu, Y. T. Hou, Yao Wang, and Ya-Qin Zhang. "End-to-end modeling and simulation of MPEG-2 transport streams over ATM networks with jitter." IEEE Transactions on Circuits and Systems for Video Technology 8, no. 1 (1998): 9–12. http://dx.doi.org/10.1109/76.660823.

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23

Jain. "Novel Clock Recovery Module for MPEG-2 Transport Stream in Terrestrial Television." International Journal of Digital Content Technology and its Applications, 2009. http://dx.doi.org/10.4156/jdcta.vol3.issue4.9.

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24

"HEVC support in MPEG-2 transport stream and ISO base media file format." ACM SIGMultimedia Records 5, no. 3 (September 2013): 2–3. http://dx.doi.org/10.1145/2552972.2552977.

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25

Simanaitis, V., A. Liutkevicius, A. Vrubliauskas, E. Kazanavicius, and D. Imbrasas. "Efficient MPEG-2 Transport Stream Encryption Method for Low Processing Power Mobile Devices." Electronics and Electrical Engineering 118, no. 2 (February 9, 2012). http://dx.doi.org/10.5755/j01.eee.118.2.1180.

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