The establishment and the research of the virtual small sugarcane harvester have been consummated.
进一步完善小型甘蔗收割机虚拟数字样机的建立及研究。
Research of Intelligent Design System for Sugarcane Harvester Based on Object-relational Database;
为此,结合相关领域的研究现状,设计了一款草莓收获机器人的末端执行器。
To optimize operational parameters of push-over type sugarcane harvester, a test device of sugarcane lifter was designed.
为了优化推倒式甘蔗收获机的工作参数,设计了甘蔗扶起效果试验装置。
The paper introduces the fundamental ideas on building the collaborative design platform of virtual visualization for sugarcane harvester.
介绍了甘蔗收获机械可视化虚拟集成设计平台研究开发的基本思路。
By expounding the sugarcane harvester intelligent design system (SHIDS), this paper discusses the case-based reasoning in the reasoning module of SHIDS.
在阐述甘蔗收割机智能设计系统(SHIDS)的基础上,讨论了其推理机模块中的实例推理。
For the sake of consummate intelligence design system of sugarcane harvester, helping system is built up, improving knowledge engineer's work efficiency.
为了完善甘蔗收获机械智能设计系统,本文还建立帮助系统,提高设计人员与知识工程师工作效率。
Based on the design feature of sugarcane harvester, this paper aim to introduce the object-relation database managing system technology into the design system.
本文针对甘蔗收获机械的设计特点,将对象-关系数据库管理系统技术引入设计系统中。
The paper introduced a whole design frame of sugarcane harvester based on the virtual prototype technology and presented its basic thought of integration modeling on product development.
在分析基于可视化虚拟设计技术的甘蔗收获机械设计开发总体流程的基础上,介绍了其设计开发集成建模的基本思路。
An approach integrating fuzzy comprehensive evaluation with neural network is presented to study the cutting performance of sugarcane harvester constrained by multilateral criteria of requirements.
由于甘蔗收获机的切割性能受到多指标的影响,提出了结合模糊综合评价与神经网络的方法对切割性能进行综合评价。
The assembly simulation and the mechanism simulation of key parts of virtual prototyping of a small size sugarcane combine harvester were studied by virtual design.
采用计算机可视化虚拟设计方法,对小型甘蔗联合收获机虚拟样机的关键部件进行了装配仿真和运动仿真研究。
The assembly simulation and the mechanism simulation of key parts of virtual prototyping of a small size sugarcane combine harvester were studied by virtual design.
采用计算机可视化虚拟设计方法,对小型甘蔗联合收获机虚拟样机的关键部件进行了装配仿真和运动仿真研究。
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