For this article, I focus on the control system and the ways in which you can simulate and validate it before spending time embedding it in a physical robot.
对于本文来说,我们将着重介绍控制系统,以及在将其嵌入物理机器人之前可以对其进行仿真和验证的方法。
It facilitates the transformation of logical model object names into physical, and allows the users to validate their data objects to ensure their compliance with naming standards.
它有助于将逻辑模型对象名称转换为物理名称,并允许检验数据对象,确保它们符合命名标准。
This gives you the ability to validate the data model with business users before you actually perform any physical design.
这样就能够在进行任何物理设计之前,让业务用户检验数据模型。
You can use the VALIDATE command to confirm that all database files exist, are in their correct location, and are free of physical corruption.
可以用VALIDATE命令来确认数据库文件是否还存在——一方面是看它们是否在正确的路径上,另一方面是看它们是不是正常的文件。
Methods Pure physical process flow and spectrophotometry were used to extract flavones from Lophatheri Gracilis and validate the extracted flavones.
方法采用纯物理的工艺流程过程和分光光度法从淡竹叶中提取黄酮类物质,对所提取的黄酮类物质进行验证。
The paper present that validate the logic&arithmetic and confirm the system parameters of engine electronic control system, test the engine performance through simulating the physical circumstance.
本文的目的就是利用实物实时仿真技术验证发动机电子控制控制用的逻辑、算法以及确定各种控制参数,模拟发动机外部物理环境来调试、检测发动机性能。
The computing AGARD445.6 wing flutter results validate the physical law of a typical transonic flutter "dip" with the bottom near the domain which Mach number is 1.
通过跨声速标模算例AGARD445.6机翼的颤振计算,计算的颤振临界速度与实验值有5%左右的误差,验证本方法的正确性。
The computing AGARD445.6 wing flutter results validate the physical law of a typical transonic flutter "dip" with the bottom near the domain which Mach number is 1.
通过跨声速标模算例AGARD445.6机翼的颤振计算,计算的颤振临界速度与实验值有5%左右的误差,验证本方法的正确性。
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