研究了本体驱动的MES应用工程。
The paper investigates MES application engineering driven by ontology.
该文提出建立基于本体驱动的智能知识导航图。
This paper proposes an ontology-driven intelligent knowledge navigation map.
构建了MES领域本体之后,本文研究了本体驱动的MES领域工程。
The paper studies on ontology-driven MES domain engineering after constructing MES ontology.
通过本体驱动的知识管理技术,在文献检索实际应用中,能够实现从传统的基于字符层面的查询提高到基于语义层面的查询。
Through knowledge management technology of ontology driving, literature searching is able to realize inquiring from character level to semantic level in application.
在此基础上,为了验证系统体系框架的可实现性,论文基于上述内容及相关技术,实现了本体驱动的城市空间信息服务的原型系统。
On the basis of the contents and techniques discussed above, this paper shows an urban space information service prototype driven by ontology, which proves the feasibility of system framework.
驱动元件是借由这些卡合结构固定于本体上,且驱动元件是固定于这些卡合结构的一侧。
The drive element is fixed on the body by the fastening structures and fixed at one side of the fastening structures.
最后对本课题研制的电机本体及其驱动控制系统,进行了电机旋转总调试,实验取得了比较理想的参数波形和调速曲线。
Finally, the ideal waveform and speed curve was achieved after the motor speed experiments with developed ontology and drive control systems.
各关节驱动电机的选择满足了机器人本体本身的重量尺寸大和负载有限对电机输出力矩大、重量轻、体积小的要求。
Because of the large size and weight, limited payload of the body, the joint-driving motors have to be powerful, small in size and light in weight.
本论文设计了双电机驱动的四轮移动机器人,并分三步进行机器人本体的开发。
A four-wheel mobile robot driving with two motors is designed, and three stages are taken to develop the robot body.
生物医学本体论提供了必要的领域知识以驱动数据整合、信息检索、数据注释、自然语言处理和决策支持。
Biomedical ontologies provide essential domain knowledge to drive data integration, information retrieval, data annotation, natural-language processing and decision support.
生物医学本体论提供了必要的领域知识以驱动数据整合、信息检索、数据注释、自然语言处理和决策支持。
Biomedical ontologies provide essential domain knowledge to drive data integration, information retrieval, data annotation, natural-language processing and decision support.
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