时分多路复用(TDM)技术作为最简单有效的复用方案,广泛应用于光纤传感器阵列设计中。
As one of the simplest and most efficient schemes, time-division multiplexing (TDM) is applied to the design of fiber-optic sensor arrays widely.
本文先后介绍伪卫星应用中的远近效应问题和常用的解决方案,重点分析了采用时分多路复用技术来对伪卫星信号进行重新设计。
In the paper, firstly introduce the near-far effect of the pseudolites and traditional solutions, then mainly analysis the TDMA technology and redesign the signal of the pseudolites.
本文提出了一种定时脉冲间隔调制(TPIM)技术实现时分多路复用。
A new type of timed pulse-interval modulation (TPIM) technique in time-division multiplexing communications is proposed.
本发明采用视频技术、信号处理技术、图象存贮技术及编解码技术等对多路视频信号作时分模拟切换与拼接。
Video, signal processing, image storing, encoding and decoding techniques are used for time-share analog switching and splicing of multi-channel video signals.
解决这个问题可以采用时分多路存取技术,其相关的算法有aloha法、时隙aloha法、二进制搜索法、动态二进制搜索法等防碰撞算法。
The technique of TDMA can solve this problem. In TDMA, there are several anti - collision algorithms, such as ALOHA, Slotted ALOHA, binary search, dynamic binary search and so on.
本文先后介绍伪卫星应用中的远近效应问题和常用的解决方案,重点分析了采用时分多路复用技术来对伪卫星信号进行重新设计。
In the paper, firstly introduce the near-far effect of the pseudolites and traditional solutions, then mainly analyse the TDMA technology and redesign the signal of the pseudolites.
本文先后介绍伪卫星应用中的远近效应问题和常用的解决方案,重点分析了采用时分多路复用技术来对伪卫星信号进行重新设计。
In the paper, firstly introduce the near-far effect of the pseudolites and traditional solutions, then mainly analyse the TDMA technology and redesign the signal of the pseudolites.
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