可重构的 meaning in Chinese
reconfigurable
Examples
- To resolve the above - mentioned problems , we put forward the frame of cost plan and control system which is suitable for large - scale intermittent manufacture , and give the key work patterns further in support of realizing , i . e . cost plan of bi - standard , cost control of variance analysis , cost responsibility flow management along with the computer - aided system for the whole system
为解决上述问题,提出了一种适用于大型离散制造企业的全员全方位全过程的成本计划与控制体系框架,并进一步给出支持其实现的关键组成:双基标准成本计划模式、基于差异分析的成本控制模式、成本责任流的管理模式及其整个体系的可重构的计算机支持系统结构。 - At last gave out the implementation of lacking material bill creating and parts state querying function unit chapter 6 , on the basis of the system frame of supported re - configuration pms presented in chapter 3 , the implementation mechanism of re - configurable pms is discussed on re - development of function unit , business process reengineering , integration of different system , function reengineering etc , and function registering mechanism and function reengineering technology is analyzed in detail
第六章围绕本论文提出的支持可重构的生产管理系统的体系结构,从功能单元二次开发、业务流程重组、与异构系统集成、功能重组等方面初步探讨了可重构生产管理系统的实现机制,并详细分析了功能注册机制、功能动态重组的具体实现技术。 - Based on the doris development process model , we design and implement a reconfigurable document management system ( rdmis ) by using business component development method , uml technology and ejb technology . this rdmis includes a domain framework , a group of business components and some hot point subsystems . in addition , advanced ship management system ( amos ) of nanjing ocean shipping company is implemented by using the rdmis
本文依照doris的开发过程模型,运用业务构件开发方法,采用uml和ejb等技术,设计和实现了可重构的公文管理系统(包括领域框架、领域构件和热点子系统) ,并应用于南京远洋“现代船舶管理信息系统” ( amos ) ;最后结合实际应用需求,论文给出了重构案例和解决方法,验证了系统的可重构特性。 - In this paper , a reconfigurable and extendable virtual machining architecture is put forward based on the detail analysis of the request for virtual machining made by virtual manufacturing . the key technologies related to realize virtual machining are also discussed , among which the modeling of reconfigurable virtual machining environment is the base and the difficult point
本文在详细分析了虚拟制造对虚拟加工的技术要求基础上,提出了可重构、可扩展的虚拟加工系统体系结构,并分析讨论了实现虚拟加工的关键技术,指出可重构的虚拟加工环境的建立是实现虚拟加工系统的基础和难点。 - Here , system integration is not only simple heap which has already had the system , adopt advanced integrated technology large manufacturers , multi - platform , different traditional application system and specific software part which construct the network , different operating system are conbined together organically , form a complete system , the ability that improves every part and operates each other and can be constructed again , and make systematic adaptability , expanding nature strengthen greatly
在这里,系统集成并不只是已有系统的简单堆集,而是采用先进的集成技术将多厂商、多平台、异构网络、不同操作系统的传统应用系统与特定的软件部件有机地结合在一起,形成一个完备的系统,提高各部件互操作和可重构的能力,并使系统的适应性、拓展性大大增强。