We continue to be concerned with interprocess communications systems (such as those described in references 1, 2, and 3 and called "thin-wire" communications systems in reference 4) which are suitable for communication between processes that are not co-located in the same operating system but rather reside in different operating systems on different computers connected by a computer communications network. Further, the systems with which we are concerned are assumed to communicate using addressed messages (e.g., reference 5) which are multiplexed onto the logical communications channel between the source process and the destination process, rather than using such traditional methods as shared memory (an impossibility for distributed communicating processes) or dedicated physical communications channels between pairs of processes desiring to communicate (which is considered to be prohibitively expensive).
我们继续关注进程间通信系统(例如,参考文献1、2和3中描述的系统,以及参考文献4中称为“细线”通信系统的系统),该系统适用于非协同进程之间的通信它们位于同一操作系统中,而位于由计算机通信网络连接的不同计算机上的不同操作系统中。此外,我们所关心的系统假定使用寻址消息(例如,参考5)进行通信,这些消息被复用到源进程和目标进程之间的逻辑通信通道上,而不是使用诸如共享内存(不可能进行分布式通信进程)或希望进行通信的成对进程之间的专用物理通信通道(这被认为是非常昂贵的)。 P>
Bolt Beranek and Newman Inc., Cambridge, Massachusetts;
机译:实时系统中进程间通信的分析和保护
机译:移动分布式系统中高效分布式进程间通信的软件体系结构
机译:实时系统接口通信设计的新方法
机译:优化进程间通信以在实时系统中获得最佳性能
机译:CDMA无线通信系统中的同信道干扰注意事项。
机译:异构物联网系统中基于消息的通信
机译:问:用于软件环境实现的多语言进程间通信系统; CU-CS-476-90