Network Video Interface: A High-fidelity and Low-latency Transmission Solution for Professional Live Video Production
Metadata
- Publisher
- SMPTE — Hollywood, CA
- Doc Type
- Conference Paper
- Content Type
- Original Research
- Volume
- 00, pp. 1–21
- Abstract
- The Network Video Interrace(NVI) technology addresses critical challenges in the field of professional live video production and broadcasting, where the requirements for low latency, high reliability, and efficient bandwidth utilization are paramount. Existing IP-based transmission standards such as Secure Reliable Transport (SRT),Network Device Intetlace(NDI) and SMPTE ST 2110 provide foundational capabilities but face limitations in handling diverse network environments. To overcome these challenges, we introduce NVI, an advanced transmission protocol that extends SRT by incorporating innovative features for low- latency and high-bitrate video transmission across both internet and local area networks (LAN). Through comprehensive evaluations in simulated network conditions, our results demonstrate that NVI achieves significant latency reductions, meeting the stringent demands of live production and broadcasting. These findings establish NVI as a vital advancement in media transport technologies, offering a scalable, adaptable, and high-performance solution for future broadcasting infrastructures.
- Publication Date
- 2024-10-21
- DOI
10.5594/MOO/3006- ISBN
[object Object]- Link
- https://doi.org/10.5594/MOO/3006
- Author(s)
- Zhenzhong WangWei WangJinsu ChenJun DuTian LuoJuan Wang
- Keyword(s)
- Low-latency, High-fidelity, Media Transport Protocol, IP-based Media Solutions
- Copyright
- © 2024 SMPTE
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Zhenzhong Wang, Wei Wang, Jinsu Chen, Jun Du, Tian Luo, and Juan Wang; Network Video Interface: A High-fidelity and Low-latency Transmission Solution for Professional Live Video Production, MTS 2024, Article 6 (pp. 1 to 21); SMPTE, 2024, ISBN: [object Object]. Available at https://doi.org/10.5594/MOO/3006
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Zhenzhong Wang, Wei Wang, Jinsu Chen, Jun Du, Tian Luo, and Juan Wang; Network Video Interface: A High-fidelity and Low-latency Transmission Solution for Professional Live Video Production, MTS 2024, Article 6 (pp. 1 to 21); SMPTE, 2024, ISBN: [object Object]. Available at https://doi.org/10.5594/MOO/3006
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Zhenzhong Wang, Wei Wang, Jinsu Chen, Jun Du, Tian Luo, and Juan Wang; Network Video Interface: A High-fidelity and Low-latency Transmission Solution for Professional Live Video Production, MTS 2024, Article 6 (pp. 1 to 21); SMPTE, 2024, ISBN: [object Object]. Available at https://doi.org/10.5594/MOO/3006
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<span class="citation">Zhenzhong Wang, Wei Wang, Jinsu Chen, Jun Du, Tian Luo, and Juan Wang; <cite>Network Video Interface: A High-fidelity and Low-latency Transmission Solution for Professional Live Video Production</cite>, MTS 2024, Article 6 (pp. 1 to 21); SMPTE, 2024, ISBN: [object Object]. Available at <a href="https://doi.org/10.5594/MOO/3006" target="_blank" rel="noopener">https://doi.org/10.5594/MOO/3006</a></span>
SMPTE's HTML Pub
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Zhenzhong Wang, Wei Wang, Jinsu Chen, Jun Du, Tian Luo, and Juan Wang; Network Video Interface: A High-fidelity and Low-latency Transmission Solution for Professional Live Video Production, MTS 2024, Article 6 (pp. 1 to 21); SMPTE, 2024, ISBN: [object Object]
doi: 10.5594/MOO/3006
url: https://doi.org/10.5594/MOO/3006
doi: 10.5594/MOO/3006
url: https://doi.org/10.5594/MOO/3006
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<li> Zhenzhong Wang, Wei Wang, Jinsu Chen, Jun Du, Tian Luo, and Juan Wang; <cite id="bib-10-5594-moo-3006">Network Video Interface: A High-fidelity and Low-latency Transmission Solution for Professional Live Video Production</cite>, MTS 2024, Article 6 (pp. 1 to 21); SMPTE, 2024, ISBN: [object Object] <span class="doi">10.5594/MOO/3006</span> </li>