本体的对象特征(Object Property,OP)的运算语境在《生物医学知识整合论》一书中被称为"概念的语境变量框架"(Frame of Contextual Variable of Concept,FCVC),简称为对象特征的"运算框架"(Computing Frame,CF)。当...本体的对象特征(Object Property,OP)的运算语境在《生物医学知识整合论》一书中被称为"概念的语境变量框架"(Frame of Contextual Variable of Concept,FCVC),简称为对象特征的"运算框架"(Computing Frame,CF)。当用Protege建立本体时,一般只能根据对象特征的数学特征加以定义,这些数学特征包括定义域,值域,反关系,是否为函数,是否具有对称性,反对称性,自返性和传递性等,因而事实上用传统的Protege方法是无法表达CF的。根据这类定义,计算机和应用程序是无法理解和处理一个OP的运算语境,因而只能对由该OP驱动的相应的断言"一知半解"。探索的一种新方法引入一种新型的认知和操作类Ob jectPropertyEntityConcept-OPEC作为OP的对应体,并放置于实体类树结构中;借助这种新型类,就能利用Protege对实体类的强大的定义功能(与对OP类的定义功能相比较而言)对相应的0P的CF作定义,从而使计算机和应用程序获得阅读和理解0P的运算语境的机会,并进而对由该OP驱动的断言获得更深的理解。展开更多
This paper introduced the following new concepts:the cognitive goal, the cognitive goal for the declarative data of the patient records (PRs), The basic attributes of PR’s data at the sides of generation, constructio...This paper introduced the following new concepts:the cognitive goal, the cognitive goal for the declarative data of the patient records (PRs), The basic attributes of PR’s data at the sides of generation, construction and cognition, the generalized data creator (GDC), type Ⅰ to Ⅵ+ of GDC, the cognitive directions of data: forward direction and backward direction, the apparent cognitive orientation and inapparent cognitive orientation, the cognitive granularity difference principle between the natural intelligence and the artificial intelligence, the generalized variable(GVAR) and the generalized value(GVAL), the variable and value transitivity law(V-V transitivity law), the attribute-combination irreversibility between the concept abstracting and embodying, an open model of the launching engine of bio-medical cognition,展开更多
From the integrated view of cognitive and noetic sciences, a set of meta- dimensions and their com- binations, covering almost all of general linkage and modifiers of SNOMED, has been presented. Some examples for reas...From the integrated view of cognitive and noetic sciences, a set of meta- dimensions and their com- binations, covering almost all of general linkage and modifiers of SNOMED, has been presented. Some examples for reasoning and operating for this set have been illustrated. Therefore the article has proved theoretically that it is possible to significantly increase the abilities of reasoning or operating and being- understood by computer in data mining of EMR, etc for a terminology system including relation (or linkage) or restriction (or modifier) items such as SNOMED. It is believed also the realizations of these tasks expected by this article are not difficult in technologic aspects for the modern software and data base technologies and the good IT engineers.展开更多
This paper presented the profile of Intrinsic Medical Informatics(IMI), which consists of Medical Cognition Informatics(MCI) and Organism Informatics(OI). MCI and OI are taken as two cornerstones of the Theory of BioM...This paper presented the profile of Intrinsic Medical Informatics(IMI), which consists of Medical Cognition Informatics(MCI) and Organism Informatics(OI). MCI and OI are taken as two cornerstones of the Theory of BioMedical Knowledge Integration(BMKI). Additionally, so called Meta-dimension architecture of SNOMED is discussed in order to venture its context computing.展开更多
文摘本体的对象特征(Object Property,OP)的运算语境在《生物医学知识整合论》一书中被称为"概念的语境变量框架"(Frame of Contextual Variable of Concept,FCVC),简称为对象特征的"运算框架"(Computing Frame,CF)。当用Protege建立本体时,一般只能根据对象特征的数学特征加以定义,这些数学特征包括定义域,值域,反关系,是否为函数,是否具有对称性,反对称性,自返性和传递性等,因而事实上用传统的Protege方法是无法表达CF的。根据这类定义,计算机和应用程序是无法理解和处理一个OP的运算语境,因而只能对由该OP驱动的相应的断言"一知半解"。探索的一种新方法引入一种新型的认知和操作类Ob jectPropertyEntityConcept-OPEC作为OP的对应体,并放置于实体类树结构中;借助这种新型类,就能利用Protege对实体类的强大的定义功能(与对OP类的定义功能相比较而言)对相应的0P的CF作定义,从而使计算机和应用程序获得阅读和理解0P的运算语境的机会,并进而对由该OP驱动的断言获得更深的理解。
文摘This paper introduced the following new concepts:the cognitive goal, the cognitive goal for the declarative data of the patient records (PRs), The basic attributes of PR’s data at the sides of generation, construction and cognition, the generalized data creator (GDC), type Ⅰ to Ⅵ+ of GDC, the cognitive directions of data: forward direction and backward direction, the apparent cognitive orientation and inapparent cognitive orientation, the cognitive granularity difference principle between the natural intelligence and the artificial intelligence, the generalized variable(GVAR) and the generalized value(GVAL), the variable and value transitivity law(V-V transitivity law), the attribute-combination irreversibility between the concept abstracting and embodying, an open model of the launching engine of bio-medical cognition,
文摘From the integrated view of cognitive and noetic sciences, a set of meta- dimensions and their com- binations, covering almost all of general linkage and modifiers of SNOMED, has been presented. Some examples for reasoning and operating for this set have been illustrated. Therefore the article has proved theoretically that it is possible to significantly increase the abilities of reasoning or operating and being- understood by computer in data mining of EMR, etc for a terminology system including relation (or linkage) or restriction (or modifier) items such as SNOMED. It is believed also the realizations of these tasks expected by this article are not difficult in technologic aspects for the modern software and data base technologies and the good IT engineers.
文摘This paper presented the profile of Intrinsic Medical Informatics(IMI), which consists of Medical Cognition Informatics(MCI) and Organism Informatics(OI). MCI and OI are taken as two cornerstones of the Theory of BioMedical Knowledge Integration(BMKI). Additionally, so called Meta-dimension architecture of SNOMED is discussed in order to venture its context computing.
