1) ATM-PON
异步传输模式光无源网
2) asynchronous
异步
1.
Application of asynchronous pattern PSO in QoS multicast routing;
异步粒子群优化算法在QoS组播路由中的应用
2.
Design Foundation of Function Module of Asynchronous System;
异步系统功能模块的设计基础
3.
Analyses of Asynchronous Mode in Winsock;
Winsock的异步模式探讨
3) asynchronization
异步
1.
The paper recounts the method that makes the sampler and A/D translator to synchronize returning to zero problem when thoroughfare of itinerant decting instrument is designed by core of the microcomputer so that the measuring values approach the reality value and don t lead into measuring error by the sampler and A/D translator asynchronization.
从而使装置测出的显示值接近真实值,而不会引起由于采样器与A/D转换器异步时产生的测量误差。
4) asynchronism
异步
1.
Synchronism and Asynchronism Based on BPEL;
BPEL中同步与异步机制
2.
Computer serial communication signal is compliant to asynchronism start/stop control protocol,however,the telephone sampling signal is periodic.
本文介绍了用FPGA实现异步信号与同步信号进行数字复接的一种方法。
3.
Distributed object technology is a good solution of software development and integration,but traditional invocation models based on distributed objects restrict the application of distributed object technology in high performance distributed computing due to the lack of asynchronism.
分布对象技术是分布异构环境下软件开发和系统集成的良好解决方案 ,然而在高性能分布计算领域 ,传统调用模型在异步特性方面的不足限制了分布对象技术在该领域的应用。
5) differential speed rolling
异步轧制
1.
Research on drawability of AZ31 magnesium alloy sheet processed by differential speed rolling at room temperature;
异步轧制AZ31镁合金板材室温冲压性能研究
2.
Microstructure of AZ31 magnesium alloy sheets processed by differential speed rolling;
异步轧制AZ31镁合金板材组织
3.
The objective of this study on microstructure and grain orientation of AZ31 magnesium alloy sheets produced by differential speed rolling was to investigate the possibility of improving deformability of AZ31 magnesium alloy sheets.
主要对异步轧制AZ31镁合金板材的显微组织和晶粒取向进行了研究,以探讨提高镁合金板材塑性变形能力的途径。
6) Asynchronous spectrum
异步光谱
参考词条
补充资料:异步转移模式
异步转移模式(ATM)是一种以固定长度的分组方式,并以异步时分复用方式,传送任意速率的宽带信号和数字等级系列信息的交换设备。异步转移模式是用于实现宽带综合业务数字网(B-ISDN)的基础技术。它可综合任意速率的话音、数据、图像和视频的业务。是未来21世纪的主要交换设备。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。