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Tim-Whittaker-Cambridge-Consultants.pdf

上传人: 芦苇 编号:1146353 2026-02-14 11页 999.16KB

1、10 Nov 2025S4989-P-480 v1.0Commercially ConfidentialHigh-quality comms and DECT NR+Tim Whittaker&Paolo Gatto210 Nov 2025S4989-P-480 v1.0Commercially ConfidentialHigh-quality communications is vital for professional users Telephony bandwidth(3.4kHz)in comms causes fatigue when used long-term BBC rese

2、arch in the 1960s reckoned 10kHz audio bandwidth was required for talkback and intercom Rodman,J,The effect of bandwidth on speech intelligibility,2003 More recent research suggests that there is a useful contribution for comms from audio bandwidth extended up to 14kHz If music is carried by the com

3、ms system(e.g.in foldback applications),full bandwidth audio could be desirable310 Nov 2025S4989-P-480 v1.0Commercially ConfidentialFully-functional wireless extension to matrix intercom system(2001)Before that,a small subset of users(e.g.TV floor manager)had a simple wireless transceiver The wirele

4、ss extension allowed all non-fixed staff to have a fully-functional terminal Cellular system allowed staff to roam across site(TV dressing rooms,technical areas,canteen)64kbit/s payload delivered 7.5kHz voice bandwidth(with the codecs available)and system signallingBreaking the cord:DECT has served

5、us well for over 25 yearsFull function410 Nov 2025S4989-P-480 v1.0Commercially ConfidentialPhilips Telemetry TransceiverHigh-quality audio distribution system(2010)Added true multicast functionality to DECT Upstream acknowledgement scheme from receivers met spectrum etiquette and regulatory requirem

6、ents Audio bandwidth 15kHz stereo or 2-language,using early CELT(now Opus)codecBreaking the cord:DECT has served us well for over 25 yearsTwo-way tour-guide(2015)Push-to-talk for participants sets up a duplex connection for the duration 15kHz mono audio with Opus codec Enhanced(2020)to add sub-group

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1. 高质量通信需扩展音频带宽:传统电话带宽(≈3.4kHz)易导致疲劳,研究建议提升至14kHz以增强语音清晰度,音乐应用需全带宽音频。 2. DECT技术演进:从2001年无线矩阵对讲系统(64kbit/s,7.5kHz带宽)到2010年15kHz立体声/双语言多播,2015年15kHz双向导览系统。 3. DECT优势与局限:优势包括清晰频谱、 robust共存机制(DFA)、低成本芯片;局限为短符号时长(890ns)多径性能差、帧结构导致最低延迟2.1ms。 4. NR+ MAC层需求:需支持低延迟(<5ms)、高用户数(每用户全双工链路)、多播(需RACK反馈),并解决不同频段(如915MHz ISM)共存问题。 5. 未来方向:推动音频标准化,优化共存机制,探索OTA更新及跨频段部署。
**音频带宽极限?** (针对专业通信用户,探讨高带宽音频对通信质量的影响) **DECT如何突破?** (针对无线通信技术爱好者,聚焦DECT NR+的革新潜力) **低延迟如何实现?** (针对音频工程师,追问超低延迟通信的技术挑战)
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