Meanwhile, digital computers are increasing exponentially in processing power, memory storage and communications bandwidth.
同时,数字计算机的处理能力、存储空间和带宽正呈几何级数增长。
But it says "communications security, and specifically bandwidth protection [from both friendly interference and adversary action] is imperative."
但它说:“通信安全,具体的带宽保护[来自友好的干扰和对手的行动]是必要的。”
The actual speed may differ according to the LTE bandwidth, communications standard, and usage environment.
实际速度会根据lte的频带宽度、通信标准和使用环境有所不同。
Superficially, much less bandwidth is available with voice communications than with visual interaction.
大体上来说,语音通信使用的带宽比视频交互使用的带宽要小得多。
Higher bandwidth availability and networking requirements in Military Satellite Communications (MilSatCom) create new opportunities for advanced electronic components.
军事卫星通信(MilSatCom)更高的可用带宽和网络需求为高级电子元件创造了新的机会。
Batteries aside, another hurdle could be a lack of bandwidth, says Rick Hampton, wireless communications manager for Partners Healthcare System in Boston.
波士顿PartnersHealthcareSystem公司的无线通信经理RickHampton认为:除了电池,另一个障碍就是缺乏带宽。
The TCDL is a Ku-band digital data link that delivers wide-bandwidth communications using common data link, or CDL, waveform standards.
TCDL是一个Ku波段数字数据链,可提供采用通用数据链波形标准的宽带通信。
Thus, thousands of these devices can be built side-by-side with silicon transistors for high-bandwidth on-chip optical communications.
所以,数以千计的这类设备能够通过使用为芯片上光学通信的高带宽而设计的硅晶体管(silicontransistors)并行地进行生产。
The wideband system, with its first satellite launched in October 2007, increases the high-bandwidth communications capacity available to support U.S. military operations worldwide.
2007年10月发射了首颗卫星宽带系统,提高了高带宽的通信能力,支持美国军事行动。
Global communications business has shown explosive growth trends, and the requirements of network bandwidth are increasing.
全球通信业务呈现出爆炸式增长的趋势,因而对传输网络带宽的要求也就越来越高。
In setting allocation policy, the Federal Communications Commission seeks systems which need minimal bandwidth but provide high usage and consumer satisfaction.
在确定分配政策时,美联帮通信委员会寻求的是这样的系统:它需要最小的带宽却能提供很高的利用率和获得用户的满意。
The bandwidth efficiency and ability to combat the effects of frequency selective channels are critical issues in the design of wideband wireless digital communications system.
在宽带无线数字通信系统中,影响信息高速传输的最主要的一类干扰是由信道的多径效应所引起的频率选择性衰落。
In 2009, the us Federal Communications Commission warned of a looming spectrum crisis: because our mobile devices are so data-hungry we will soon run out of radio-frequency bandwidth.
2009年,美国联邦痛惜委员会警告,关于迫在眉睫的频谱危机:因为我们的移动设备耗费如此大量的数据带宽,我们很快就会用完我们的无线频率带宽。
The Federal Communications Commission (FCC) wants rules to prevent providers blocking or slowing down bandwidth-heavy usage such as streaming video.
联邦通信委员会希望规定网络供应商不得阻滞或延迟诸如流媒体等大带宽用户的使用。
It is well known that the optical fiber has the maximum bandwidth in all transmitting medium used in the network communications.
在网络通信的信息传递材料中,光纤被公认为是现今通信带宽最大的传输介质。
In the future broadband wireless communications, there will be two severe challenges to be faced, which are frequency selective fading channels and bandwidth efficiency.
在未来宽带移动通信中,存在两个最严峻的挑战:多径衰落信道和带宽效率。
In networked multimedia systems, the probing traffic generated by active measurement of available bandwidth might interfere with the audio-visual communications.
网络多媒体系统中,需要对可用带宽进行主动测量,但测试流会妨碍数据传输质量。
Key restrictions are the asymmetric bandwidth of the communications channel and latency.
关键是不对称的带宽限制和延迟的通信通道。
Since the bandwidth is limited in video communications, we must control the bit rate in a certain range to improve the quality of decoded pictures under the predefined target bit rate.
对于视频通信来说,由于通信带宽有限,必须将码率控制在一定的范围,以达到在给定目标码率的条件下,尽可能达到高质量的解码图像。
The issue that the scale and bandwidth of existing communications network do not adapt to the rapid growth of the communications services has been solved by the employment of the DWDM.
DWDM技术的运用正好解决了通信业务的快速增长和现有通信网络规模、传输能力不相适应等多方面的问题。
Continuous Phase Modulation (CPM) is widely used in wireless communications especially in military communications due to its high power and bandwidth efficiency.
连续相位调制(CPM)以其较高的功率有效性和带宽利用率,在无线通信领域尤其是军事通信领域得到广泛应用。
Finally, the space Optical Networking technology project develops the technology base for the next generation of ultra-wide-bandwidth, multi-channeled, air and space-based communications networks.
空间光学联网技术计划将为下一代超宽带宽、多信道空中与太空通信网络开发基础技术。
Finally, the space Optical Networking technology project develops the technology base for the next generation of ultra-wide-bandwidth, multi-channeled, air and space-based communications networks.
空间光学联网技术计划将为下一代超宽带宽、多信道空中与太空通信网络开发基础技术。
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