Abstract
The purpose of this study is to develop the method and tools for changing the software structure flexibly along with the continuous continuous change of its environment and conditions of use. The goal is the software of very high adaptability by using soft-software components and flexible assembly. The CASE tool platform Sapid based on a fine-grained repository was developed and enforced for raising the abstraction level of program code and for mining potential flexible components. To reconstruct the software adaptable to a required environment, the SQM (Software Quark Model) was used in managing interconnectivity and other semantic relationships of among components. On these two basic systems, we developed various methods and tools such as those for static and dynamic analysis of very flexible software structures, program transformation description, program pattern extraction and composition component optimization by partial evaluation, component extraction by function slicing, code encapsulation, and component navigation and application. (NEDO)
Citation Formats
None.
FY1995 study of very flexible software structures based on soft-software components; 1995 nendo yawarankana software buhin ni motozuku software no choju kozo ni kansuru kenkyu.
Japan: N. p.,
1997.
Web.
None.
FY1995 study of very flexible software structures based on soft-software components; 1995 nendo yawarankana software buhin ni motozuku software no choju kozo ni kansuru kenkyu.
Japan.
None.
1997.
"FY1995 study of very flexible software structures based on soft-software components; 1995 nendo yawarankana software buhin ni motozuku software no choju kozo ni kansuru kenkyu."
Japan.
@misc{etde_20085372,
title = {FY1995 study of very flexible software structures based on soft-software components; 1995 nendo yawarankana software buhin ni motozuku software no choju kozo ni kansuru kenkyu}
author = {None}
abstractNote = {The purpose of this study is to develop the method and tools for changing the software structure flexibly along with the continuous continuous change of its environment and conditions of use. The goal is the software of very high adaptability by using soft-software components and flexible assembly. The CASE tool platform Sapid based on a fine-grained repository was developed and enforced for raising the abstraction level of program code and for mining potential flexible components. To reconstruct the software adaptable to a required environment, the SQM (Software Quark Model) was used in managing interconnectivity and other semantic relationships of among components. On these two basic systems, we developed various methods and tools such as those for static and dynamic analysis of very flexible software structures, program transformation description, program pattern extraction and composition component optimization by partial evaluation, component extraction by function slicing, code encapsulation, and component navigation and application. (NEDO)}
place = {Japan}
year = {1997}
month = {Mar}
}
title = {FY1995 study of very flexible software structures based on soft-software components; 1995 nendo yawarankana software buhin ni motozuku software no choju kozo ni kansuru kenkyu}
author = {None}
abstractNote = {The purpose of this study is to develop the method and tools for changing the software structure flexibly along with the continuous continuous change of its environment and conditions of use. The goal is the software of very high adaptability by using soft-software components and flexible assembly. The CASE tool platform Sapid based on a fine-grained repository was developed and enforced for raising the abstraction level of program code and for mining potential flexible components. To reconstruct the software adaptable to a required environment, the SQM (Software Quark Model) was used in managing interconnectivity and other semantic relationships of among components. On these two basic systems, we developed various methods and tools such as those for static and dynamic analysis of very flexible software structures, program transformation description, program pattern extraction and composition component optimization by partial evaluation, component extraction by function slicing, code encapsulation, and component navigation and application. (NEDO)}
place = {Japan}
year = {1997}
month = {Mar}
}