软件生存周期模型(Software Life Cycle Model)是用于描述软件从开始研制到退出应用全过程中,各种活动如何执行的范化模型。对于航天工程地面测控软件,瀑布模型、演化模型、螺旋模型、原型模型等传统模型往往不能非常有效地适应其特性,...软件生存周期模型(Software Life Cycle Model)是用于描述软件从开始研制到退出应用全过程中,各种活动如何执行的范化模型。对于航天工程地面测控软件,瀑布模型、演化模型、螺旋模型、原型模型等传统模型往往不能非常有效地适应其特性,存在一定的困难和问题。本文结合这些经典软件生存周期模型,在分析航天工程地面测控软件高可靠、需求易变等特点的基础上,提出了更具针对性的生存周期模型——构造增量模型。展开更多
Process pattern is an excellent method to express software process knowledge, it can express processknowledge in different granularity and realize the non-gap connection of process knowledge, it supports the reuse and...Process pattern is an excellent method to express software process knowledge, it can express processknowledge in different granularity and realize the non-gap connection of process knowledge, it supports the reuse andpersistent improvement of process knowledge. In this paper, we put forward a process Pattern Based Software Pro-cess Framework(PB-SPF), its three layer architecture has realized the high abstraction of software process and theseparation of its contents, so it have good reusability and adaptability. We can use it as a base for the research of soft-ware process, the building and enactment of process model.展开更多
文摘软件生存周期模型(Software Life Cycle Model)是用于描述软件从开始研制到退出应用全过程中,各种活动如何执行的范化模型。对于航天工程地面测控软件,瀑布模型、演化模型、螺旋模型、原型模型等传统模型往往不能非常有效地适应其特性,存在一定的困难和问题。本文结合这些经典软件生存周期模型,在分析航天工程地面测控软件高可靠、需求易变等特点的基础上,提出了更具针对性的生存周期模型——构造增量模型。
文摘Process pattern is an excellent method to express software process knowledge, it can express processknowledge in different granularity and realize the non-gap connection of process knowledge, it supports the reuse andpersistent improvement of process knowledge. In this paper, we put forward a process Pattern Based Software Pro-cess Framework(PB-SPF), its three layer architecture has realized the high abstraction of software process and theseparation of its contents, so it have good reusability and adaptability. We can use it as a base for the research of soft-ware process, the building and enactment of process model.