在计算机工业的现在趋势中,有这样一些技术能成功地应用于潜艇电子设备系统的设计。例如: 硬件冗余,提供容错。 分布式软件结构,可用于冗余硬件。 高级语言,这意味着较高的程序员生产能力和代码质量更高。 多级标准接口,这就使它可能使用商业硬件和软件部件,并且使中期改进便宜。 总之,这些因素不但意味着在寿命期内具有更好的经济性,而且也具有更高的使命成功率。 根据9LV MK3系列的水面舰艇系统的经验正在研制SESUB潜艇综合指挥、控制、通信和武器系统。这篇报告将讨论水面舰艇系统的技术如何应用于潜艇设计,尤其是根据以上列出的特性。 Among the current trends in the computer industry, some of these technologies have been successfully applied to the design of submarine electronic equipment systems. For example: hardware redundancy, to provide fault tolerance. Distributed software architecture for redundant hardware. High-level language, which means higher programmer productivity and higher quality code. Multi-level standard interface, which makes it possible to use commercial hardware and software components, and make mid-term improvements cheaper. In short, these factors not only mean better economy over their life but also have higher mission success rates. The SESUB submarine integrated command, control, communications and weapon systems are being developed based on the experience of the 9LV MK3 series of surface ships. This report will discuss how the technology of surface ship systems can be applied to submarine design, especially based on the features listed above.