[Invited Paper] End-to-end Verification of the Advanced Broadcasting System

We are currently developing the advanced broadcasting system for the next generation of digital terrestrial television broadcasting (DTTB). Its physical layer, Advanced Integrated Services Digital Broadcasting-Terrestrial (Advanced ISDB-T), is based on frequency division multiplexing, and large-scal...

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Published inITE TRANSACTIONS ON MEDIA TECHNOLOGY AND APPLICATIONS Vol. 11; no. 3; pp. 113 - 122
Main Authors Nagata, Hiroyasu, Asakura, Shingo, Kabutomori, Ryo, Otsuki, Kazuhiro, Onishi, Masayoshi, Kambara, Kohei, Tsuchida, Kenichi
Format Journal Article
LanguageEnglish
Published The Institute of Image Information and Television Engineers 2023
Subjects
Advanced ISDB-T
an integrated broadcast and broadband service
MMT
Online AccessGet full text
ISSN2186-7364
2186-7364
DOI10.3169/mta.11.113

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Abstract We are currently developing the advanced broadcasting system for the next generation of digital terrestrial television broadcasting (DTTB). Its physical layer, Advanced Integrated Services Digital Broadcasting-Terrestrial (Advanced ISDB-T), is based on frequency division multiplexing, and large-scale field tests have been conducted at experimental transmitter stations. Its transport layer, MPEG Media Transport (MMT), is based on Internet protocol (IP) and already used in ultra-high definition television (UHDTV) satellite broadcasting, and it enables to provide integrated broadcast and broadband services such as multi-view videos, content replacement, and augmented reality (AR)/virtual reality (VR) in TV programs. In order to show the feasibility of the advanced broadcasting system, complete verifications of it were conducted in four metropolitan cities of Japan. These verifications confirmed that basic services such as UHD content for fixed reception and HD content for mobile reception can be provided simultaneously. Furthermore, MMT/IP-based integrated broadcast-broadband services were verified using data both broadcast and broadband.
AbstractList We are currently developing the advanced broadcasting system for the next generation of digital terrestrial television broadcasting (DTTB). Its physical layer, Advanced Integrated Services Digital Broadcasting-Terrestrial (Advanced ISDB-T), is based on frequency division multiplexing, and large-scale field tests have been conducted at experimental transmitter stations. Its transport layer, MPEG Media Transport (MMT), is based on Internet protocol (IP) and already used in ultra-high definition television (UHDTV) satellite broadcasting, and it enables to provide integrated broadcast and broadband services such as multi-view videos, content replacement, and augmented reality (AR)/virtual reality (VR) in TV programs. In order to show the feasibility of the advanced broadcasting system, complete verifications of it were conducted in four metropolitan cities of Japan. These verifications confirmed that basic services such as UHD content for fixed reception and HD content for mobile reception can be provided simultaneously. Furthermore, MMT/IP-based integrated broadcast-broadband services were verified using data both broadcast and broadband.
Author Asakura, Shingo
Tsuchida, Kenichi
Onishi, Masayoshi
Otsuki, Kazuhiro
Nagata, Hiroyasu
Kabutomori, Ryo
Kambara, Kohei
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  fullname: Kabutomori, Ryo
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  fullname: Tsuchida, Kenichi
  organization: NHK Science and Technology Research Laboratories
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Cites_doi 10.1109/EnT50460.2021.9681789
10.1109/EnT.2016.036
10.1109/BMSB47279.2019.8971852
10.3169/mta.9.180
10.1109/ICCE.2018.8326084
10.1109/BMSB53066.2021.9547184
10.1109/BMSB47279.2019.8971915
10.1109/TBC.2019.2954058
10.3169/mta.10.110
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References 24) K. Furuya et al.: “Transmission performance evaluation of an Advanced ISDB-T -Evaluation of FFT size and scattered pilot pattern in fixed reception-,” ITE Tech. Rep., 45, 15, pp. 1-4 (Jun. 2021), in Japanese
28) Information technology-High efficiency coding and media delivery in heterogeneous environments-part 2: High Efficiency Video Coding, ISO/IEC DIS 23008-2 (2017
44) T. Ijiguchi et al.: “Development of signal analyzer for the advanced system of ISDB-T,” ITE Tech. Rep., 43, 10, pp. 1-4 (Mar. 2019), in Japanese
23) H. Miyasaka et al.: “A study on the interleaver of partial reception toward the proposed specification of the next generation terrestrial broadcasting,” ITE Tech. Rep., 41, 11, pp. 29-32 (Mar. 2017), in Japanese
41) S. Kawashima et al.: “Field experiments of fixed reception for evaluating Advanced ISDB-T in Nagoya area,” ITE Tech. Rep., 43, 17, pp. 5-9 (Jun. 2019), in Japanese
40) SMPTE Standard: “12 Gb/s signal/data serial interface-electrical,” ST2082-1 (Mar. 2015
47) Y. Hirabayashi et al.: “A study on received signal quality index for an advanced ISDB-T,” ITE Tech. Rep., 46, 1, pp. 41-44 (Jan. 2022), in Japanese
5) N. Shirai et al.: “Laboratory experiments and large-scale field trials for evaluating the advanced ISDB-T,” in Proc. 14th IEEE Int. Symp. on BMSB, 4A-4 (Jun. 2019
38) T. Sugimoto et al.: “Advancement of 22.2 multichannel sound broadcasting based on MPEG-H 3D Audio,” IEEE Trans. Broadcast. 66, 2, pp. 365-371 (Jun. 2020
36) Information Technology-Coded Representation of Immersive Media-Part 3: Versatile Video Coding, ISO/IEC DIS 23090-3 (2019
22) T. Shitomi et al.: “Transmission performance evaluation of an Advanced ISDB-T -Evaluation of time interleaving in fixed reception-,” ITE Tech. Rep., 45, 15, pp. 5-8 (Jun. 2021), in Japanese
32) M. Onishi et al.: “The prototype of the home gateway for advanced terrestrial broadcasting and its consideration of issues,” ITE Tech. Rep., 45, 10, pp. 29-32 (Mar. 2021), in Japanese
17) S. Asakura et al.: “A study on low-latency channel for Advanced ISDB-T,” ITE Trans. MTA, 10, 3, pp. 110-119 (Jul. 2022
43) N. Shirai et al.: “Transmission performance evaluation of an Advanced ISDB-T -Fixed reception performance of practical field trials-,” ITE Tech. Rep., 44, 16, pp. 33-36 (Jul. 2020), in Japanese
13) J. Song et al.: “Technical review on DTMB-Advanced (DTMB-A) standard,” in Proc. 2016 Int. Conf. EnT, (Nov. 2016
31) Y. Kawamura et al.: “Adaptation of CMAF to advanced terrestrial broadcasting,” ITE Tech. Rep., 45, 5, pp.25-29 (Feb. 2021), in Japanese
7) ARIB standard: “MMT-based transport scheme in digital broadcasting systems,” ARIB STD-B60 Version 1.14 (Dec. 2019
35) T. Iwasaki et al.: “End-to-end verification of broadcast system for live production with object-based audio,” in Proc. ITE Annual Conv., 32C-6 (Aug. 2022), in Japanese
8) Y. Kawamura and K. Otsuki: “An implementation of a cooperative broadcast and cellular network system for mobile reception of next-generation terrestrial broadcasting,” in Proc. ITE Annual Conv., 14C-4 (Aug. 2017), in Japanese
26) T. Koyama et al.: “Development of IP flow real-time monitoring device for IP-based program production system,” ITE Tech. Rep., 43, 35, pp. 69-72 (Oct. 2019), in Japanese
29) Y. Kawamura et al.: “Real-time distribution of dynamic volumetric data for augmented reality synchronized with broadcasting,” ITE Tech. Rep., 43, 10, pp. 41-44 (Mar. 2019), in Japanese
42) Report ITU-R: “Collection of field trials of UHDTV over DTT networks,” BT.2343-8, in press
20) T. Shitomi et al.: “Transmission performance evaluation of an Advanced ISDB-T -Fixed reception performance of bit-interleaved coded modulation-,” ITE Tech. Rep., 44, 16, pp. 25-28 (Jul. 2020), in Japanese
16) N. Shirai et al.: “A study on bandwidth extension for the proposed specification of the next generation terrestrial broadcasting,” ITE Tech. Rep., 42, 11, pp.43-46 (Mar. 2018), in Japanese
3) M. Okano: “Research and development of advanced terrestrial television broadcasting technology,” J. Institute of ITE, 75, 2, pp. 161-165 (Mar. 2021), in Japanese
14) ATSC Standard: “ Physical Layer Protocol, ” Doc. A/322 (Jan. 2021
27) H. Nagata et al.: “A study of master control system for future IBB services,” in Proc. ITE 70th Annual Conv., 22D-6 (Dec. 2020), in Japanese
15) H. Yim et al.: “8K-UHD service platform using SHVC for ATSC 3.0-based terrestrial broadcasting,” in Proc. 2021 IEEE Int. Symp. on BMSB (Aug. 2021
25) A. Sato et al.: “Transmission performance evaluation of an Advanced ISDB-T -Comparison with fixed reception performance of current ISDB-T-,” ITE Tech. Rep., 44, 16, pp. 21-24 (Jul. 2020), in Japanese
19) S. Asakura et al.: “FPGA-based performance evaluation of FEC codes for an Advanced ISDB-T,” ITE Trans. MTA, 9, 3, pp. 180-187 (Jul. 2020
33) M. Onishi et al.: “The examination of the home gateway for advanced terrestrial broadcasting,” ITE Tech. Rep., 45, 35, pp. 41-44 (Nov. 2021), in Japanese
30) Multimedia application format (MPEG-A) Part 19: Common media application format (CMAF) for segment data, ISO/IEC 23000-19 (Jan. 2018
10) H. Nagata et al.: “Development of a software-based broadcasting control system for advanced integrated broadcast-broadband services,” ITE Tech. Rep., 44, 16, pp.9-12 (Jul. 2020), in Japanese
45) H. Nagata et al.: “An examination of multiplexing scheme of low latency emergency information for the advanced STL/TTL,” ITE Tech. Rep., 46, 11, pp. 33-36 (Mar. 2022), in Japanese
18) H. Miyasaka et al.: “A study on the robust transmission of TMCC for the proposed specification of the next generation terrestrial broadcasting,” ITE Tech. Rep., 42, 36, pp.69-72 (Oct. 2018), in Japanese
2) M. Nakamura et al.: “A study on the transmission system for an advanced ISDB-T,” in Proc. 14th IEEE Int. Symp. on BMSB, 4A-2 (Jun. 2019
12) C. Pan et al.: “The transmission test and demonstration for 8K ultra-high definition TV series using DTMB-A,” in Proc. 2021 Int. Conf. EnT, (Nov. 2021
39) H. Kubo et al.: “Next-generation audio console supporting the SADM for live production of immersive and personalized sound,” in Proc. 2021 NAB Broad. Eng. and Inf. Tech. Conf. (2021
46) R. Kabutomori et al.: “Verification of an integrated broadcast and broadband system for practical use of advanced digital terrestrial television broadcasting,” ITE Tech. Rep., in press (Mar. 2023), in Japanese
1) ARIB standard: “Transmission system for advanced wide band digital satellite broadcasting,” ARIB STD-B44 Version 2.0 (Jul. 2014
34) R. Kabutomori et al.: “Construction of an open network distribution environment for verification of integrated broadcasting and communication services,” in Proc. ITE Annual Conv., 32C-1 (Aug. 2022), in Japanese
4) ARIB standard: “Transmission system for digital terrestrial television broadcasting,” ARIB STD-B31 Version 2.2 (Mar. 2014
6) Recommendation ITU-R: “Transmission system for UHDTV satellite broadcasting,” BO.2098-0 (Dec. 2016
9) Y. Kawamura and K. Otsuki: “Field experiment of hybrid video delivery using next-generation terrestrial broadcasting and a cellular network,” in Proc. 2018 IEEE ICCE. (Jan. 2018
11) S. Aoki et al.: “A study on IP multiplexing scheme in next-generation terrestrial broadcasting system,” in Proc. ITE Annual Conv., 14C-1 (Aug. 2017), in Japanese
21) S. Asakura et al.: “Transmission performance evaluation of an Advanced ISDB-T -Non-uniform constellation performance in an echo channel-,” ITE Tech. Rep., 44, 16, pp. 21-24 (Jul. 2020), in Japanese
37) Information Technology-High efficiency coding and media delivery in heterogeneous environments-part 3: 3D Audio, 2nd ed., ISO/IEC DIS 23008-3 (2019
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References_xml – reference: 18) H. Miyasaka et al.: “A study on the robust transmission of TMCC for the proposed specification of the next generation terrestrial broadcasting,” ITE Tech. Rep., 42, 36, pp.69-72 (Oct. 2018), in Japanese
– reference: 12) C. Pan et al.: “The transmission test and demonstration for 8K ultra-high definition TV series using DTMB-A,” in Proc. 2021 Int. Conf. EnT, (Nov. 2021)
– reference: 22) T. Shitomi et al.: “Transmission performance evaluation of an Advanced ISDB-T -Evaluation of time interleaving in fixed reception-,” ITE Tech. Rep., 45, 15, pp. 5-8 (Jun. 2021), in Japanese
– reference: 13) J. Song et al.: “Technical review on DTMB-Advanced (DTMB-A) standard,” in Proc. 2016 Int. Conf. EnT, (Nov. 2016)
– reference: 21) S. Asakura et al.: “Transmission performance evaluation of an Advanced ISDB-T -Non-uniform constellation performance in an echo channel-,” ITE Tech. Rep., 44, 16, pp. 21-24 (Jul. 2020), in Japanese
– reference: 40) SMPTE Standard: “12 Gb/s signal/data serial interface-electrical,” ST2082-1 (Mar. 2015)
– reference: 28) Information technology-High efficiency coding and media delivery in heterogeneous environments-part 2: High Efficiency Video Coding, ISO/IEC DIS 23008-2 (2017)
– reference: 1) ARIB standard: “Transmission system for advanced wide band digital satellite broadcasting,” ARIB STD-B44 Version 2.0 (Jul. 2014)
– reference: 3) M. Okano: “Research and development of advanced terrestrial television broadcasting technology,” J. Institute of ITE, 75, 2, pp. 161-165 (Mar. 2021), in Japanese
– reference: 16) N. Shirai et al.: “A study on bandwidth extension for the proposed specification of the next generation terrestrial broadcasting,” ITE Tech. Rep., 42, 11, pp.43-46 (Mar. 2018), in Japanese
– reference: 30) Multimedia application format (MPEG-A) Part 19: Common media application format (CMAF) for segment data, ISO/IEC 23000-19 (Jan. 2018)
– reference: 45) H. Nagata et al.: “An examination of multiplexing scheme of low latency emergency information for the advanced STL/TTL,” ITE Tech. Rep., 46, 11, pp. 33-36 (Mar. 2022), in Japanese
– reference: 11) S. Aoki et al.: “A study on IP multiplexing scheme in next-generation terrestrial broadcasting system,” in Proc. ITE Annual Conv., 14C-1 (Aug. 2017), in Japanese
– reference: 15) H. Yim et al.: “8K-UHD service platform using SHVC for ATSC 3.0-based terrestrial broadcasting,” in Proc. 2021 IEEE Int. Symp. on BMSB (Aug. 2021)
– reference: 31) Y. Kawamura et al.: “Adaptation of CMAF to advanced terrestrial broadcasting,” ITE Tech. Rep., 45, 5, pp.25-29 (Feb. 2021), in Japanese
– reference: 41) S. Kawashima et al.: “Field experiments of fixed reception for evaluating Advanced ISDB-T in Nagoya area,” ITE Tech. Rep., 43, 17, pp. 5-9 (Jun. 2019), in Japanese
– reference: 36) Information Technology-Coded Representation of Immersive Media-Part 3: Versatile Video Coding, ISO/IEC DIS 23090-3 (2019)
– reference: 42) Report ITU-R: “Collection of field trials of UHDTV over DTT networks,” BT.2343-8, in press
– reference: 5) N. Shirai et al.: “Laboratory experiments and large-scale field trials for evaluating the advanced ISDB-T,” in Proc. 14th IEEE Int. Symp. on BMSB, 4A-4 (Jun. 2019)
– reference: 37) Information Technology-High efficiency coding and media delivery in heterogeneous environments-part 3: 3D Audio, 2nd ed., ISO/IEC DIS 23008-3 (2019)
– reference: 4) ARIB standard: “Transmission system for digital terrestrial television broadcasting,” ARIB STD-B31 Version 2.2 (Mar. 2014)
– reference: 44) T. Ijiguchi et al.: “Development of signal analyzer for the advanced system of ISDB-T,” ITE Tech. Rep., 43, 10, pp. 1-4 (Mar. 2019), in Japanese
– reference: 7) ARIB standard: “MMT-based transport scheme in digital broadcasting systems,” ARIB STD-B60 Version 1.14 (Dec. 2019)
– reference: 14) ATSC Standard: “ Physical Layer Protocol, ” Doc. A/322 (Jan. 2021)
– reference: 38) T. Sugimoto et al.: “Advancement of 22.2 multichannel sound broadcasting based on MPEG-H 3D Audio,” IEEE Trans. Broadcast. 66, 2, pp. 365-371 (Jun. 2020)
– reference: 17) S. Asakura et al.: “A study on low-latency channel for Advanced ISDB-T,” ITE Trans. MTA, 10, 3, pp. 110-119 (Jul. 2022)
– reference: 47) Y. Hirabayashi et al.: “A study on received signal quality index for an advanced ISDB-T,” ITE Tech. Rep., 46, 1, pp. 41-44 (Jan. 2022), in Japanese
– reference: 24) K. Furuya et al.: “Transmission performance evaluation of an Advanced ISDB-T -Evaluation of FFT size and scattered pilot pattern in fixed reception-,” ITE Tech. Rep., 45, 15, pp. 1-4 (Jun. 2021), in Japanese
– reference: 43) N. Shirai et al.: “Transmission performance evaluation of an Advanced ISDB-T -Fixed reception performance of practical field trials-,” ITE Tech. Rep., 44, 16, pp. 33-36 (Jul. 2020), in Japanese
– reference: 46) R. Kabutomori et al.: “Verification of an integrated broadcast and broadband system for practical use of advanced digital terrestrial television broadcasting,” ITE Tech. Rep., in press (Mar. 2023), in Japanese
– reference: 29) Y. Kawamura et al.: “Real-time distribution of dynamic volumetric data for augmented reality synchronized with broadcasting,” ITE Tech. Rep., 43, 10, pp. 41-44 (Mar. 2019), in Japanese
– reference: 33) M. Onishi et al.: “The examination of the home gateway for advanced terrestrial broadcasting,” ITE Tech. Rep., 45, 35, pp. 41-44 (Nov. 2021), in Japanese
– reference: 8) Y. Kawamura and K. Otsuki: “An implementation of a cooperative broadcast and cellular network system for mobile reception of next-generation terrestrial broadcasting,” in Proc. ITE Annual Conv., 14C-4 (Aug. 2017), in Japanese
– reference: 20) T. Shitomi et al.: “Transmission performance evaluation of an Advanced ISDB-T -Fixed reception performance of bit-interleaved coded modulation-,” ITE Tech. Rep., 44, 16, pp. 25-28 (Jul. 2020), in Japanese
– reference: 27) H. Nagata et al.: “A study of master control system for future IBB services,” in Proc. ITE 70th Annual Conv., 22D-6 (Dec. 2020), in Japanese
– reference: 25) A. Sato et al.: “Transmission performance evaluation of an Advanced ISDB-T -Comparison with fixed reception performance of current ISDB-T-,” ITE Tech. Rep., 44, 16, pp. 21-24 (Jul. 2020), in Japanese
– reference: 6) Recommendation ITU-R: “Transmission system for UHDTV satellite broadcasting,” BO.2098-0 (Dec. 2016)
– reference: 32) M. Onishi et al.: “The prototype of the home gateway for advanced terrestrial broadcasting and its consideration of issues,” ITE Tech. Rep., 45, 10, pp. 29-32 (Mar. 2021), in Japanese
– reference: 10) H. Nagata et al.: “Development of a software-based broadcasting control system for advanced integrated broadcast-broadband services,” ITE Tech. Rep., 44, 16, pp.9-12 (Jul. 2020), in Japanese
– reference: 2) M. Nakamura et al.: “A study on the transmission system for an advanced ISDB-T,” in Proc. 14th IEEE Int. Symp. on BMSB, 4A-2 (Jun. 2019)
– reference: 9) Y. Kawamura and K. Otsuki: “Field experiment of hybrid video delivery using next-generation terrestrial broadcasting and a cellular network,” in Proc. 2018 IEEE ICCE. (Jan. 2018)
– reference: 19) S. Asakura et al.: “FPGA-based performance evaluation of FEC codes for an Advanced ISDB-T,” ITE Trans. MTA, 9, 3, pp. 180-187 (Jul. 2020)
– reference: 34) R. Kabutomori et al.: “Construction of an open network distribution environment for verification of integrated broadcasting and communication services,” in Proc. ITE Annual Conv., 32C-1 (Aug. 2022), in Japanese
– reference: 26) T. Koyama et al.: “Development of IP flow real-time monitoring device for IP-based program production system,” ITE Tech. Rep., 43, 35, pp. 69-72 (Oct. 2019), in Japanese
– reference: 39) H. Kubo et al.: “Next-generation audio console supporting the SADM for live production of immersive and personalized sound,” in Proc. 2021 NAB Broad. Eng. and Inf. Tech. Conf. (2021)
– reference: 23) H. Miyasaka et al.: “A study on the interleaver of partial reception toward the proposed specification of the next generation terrestrial broadcasting,” ITE Tech. Rep., 41, 11, pp. 29-32 (Mar. 2017), in Japanese
– reference: 35) T. Iwasaki et al.: “End-to-end verification of broadcast system for live production with object-based audio,” in Proc. ITE Annual Conv., 32C-6 (Aug. 2022), in Japanese
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Snippet We are currently developing the advanced broadcasting system for the next generation of digital terrestrial television broadcasting (DTTB). Its physical layer,...
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SubjectTerms Advanced ISDB-T
an integrated broadcast and broadband service
MMT
Title [Invited Paper] End-to-end Verification of the Advanced Broadcasting System
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