The paper indicates that wireless multimedia communication is the main trends of personal mobile communication.
指出移动通信的明确方向是由个人便携终端实现无线多媒体通信。
By theoretical analysis and simulation, some conclusions are obtained which are significant and valuable for the design of access control of wireless multimedia communication systems.
通过理论分析和实验仿真得出了一些对无线多媒体业务接入控制的设计具有一定借鉴意义的结论。
The goal of next generation wireless mobile communication system is to support high quality, high speed mobile multimedia services.
下一代无线移动通信系统的目标是支持高质量高速率的移动多媒体业务。
Wireless ATM (WATM) networks as one of techniques to provide broadband multimedia communication have been studied extensively in recent years.
无线at M网络作为宽带多媒体通信的一种解决方案,近年来得到了广泛的研究。
Future wireless networks will support Gigabit per second multimedia communication between people and devices with high reliability and uniform coverage indoors and out.
未来的无线网络将支持每秒千兆比特、高可靠性和均匀覆盖室内和室外的多媒体通信。
This paper presents the implementation of a wireless multimedia DSP chip for mobile communication.
叙述了一种用于移动通信的无线电多媒体DSP芯片的实现。
The next generation wireless mobile communication system is expected to provide ubiquitous, high-quality, and high-rate mobile multimedia transmission.
下一代移动无线通信系统的目标是实现无所不在的、高质量的、高速率的宽带多媒体通信。
Wireless Asynchronous Transfer Mode (ATM) network communication system will be applied widely in broad band and multimedia personal communication.
无线异步传输模式(atm)网络通信系统将在宽带和多媒体个人通信得到广泛应用。
Wireless communication is becoming a main part of multimedia communication services and the video coding and transmission are turning into the new research focus.
无线通信正在成为多媒体通信业务的一个新的主体,其视频的编码和传输问题也正在形成新的研究热点。
Wireless technology is the focus in communication field because of people's high demand on multimedia capability of multi-services.
基于人类对通信的高要求,即实现多种业务的多媒体能力,无线技术已成为整个通信领域的最大热点。
The next-generation wireless personal communication systems are expected to provide ubiquitous, high-quality, and high-rate mobile multimedia transmission.
下一代移动无线通信系统的目标是实现无所不在的、高质量的、高速率的移动多媒体传输。
Multimedia mobile services afforded in the 4th generation wireless communication require high bit-rate transmission technology.
第四代无线通信中,多媒体移动服务需要高速率的传输机制。
In the past decade, a rapid development of wireless communication and multimedia communication techniques has been achieved, and it resulted in great commercial success.
在过去十年中,无线通信和多媒体通信技术取得了飞速发展,并获得了巨大的商业成功。
For the different requirement of various multimedia communication conditions, the heterogeneity exists in multimedia communication and wireless network.
为了适应不同通信条件下不同的需求,目前多媒体通信和无线网络普遍存在异构性。
The next generation wireless communication systems are expected to provide higher data rate and better quality of service in order to support the multimedia service in the complex mobile environment.
下一代无线通信系统要求能够在复杂的移动环境下提供更高的传输数据速率和更好的服务质量,以满足人们对多媒体业务日益增长的需求。
The future wireless mobile communication systems are expected to provide ubiquitous, high-quality, and high-rate mobile multimedia transmission.
未来无线通信系统的目标是实现随时无缝的高质量、高速率的多媒体和数据业务传输。
The future wireless mobile communication systems are expected to provide ubiquitous, high-quality, and high-rate mobile multimedia transmission.
未来无线通信系统的目标是实现随时无缝的高质量、高速率的多媒体和数据业务传输。
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