| 1. | 3 . the soc timing path is investigated in detail for static timing analysis
3 .详细研究了soc应用设计流程中的静态时序分析方法。 |
| 2. | Minimum time path
最小时路 |
| 3. | Real time path planning of mobile robot in dynamic world based on improved artificial potential field
动态环境下基于改进人工势场的机器人实时路径规划仿真研究 |
| 4. | In this section , i set up a theoretical model from which explanations how determinate optimal time path of firm ' s1 investment to project of innovation
1节的最后部分建立了一个理论模型说明厂商投资于技术创新项目的最优时间路径是如何决定的。本模型基于1 |
| 5. | We first recall the closed - time path formalism in real - time finite - temperature field theory and introduce two kinds of representations : single - time representation and physical representation
我们首先回顾了实时温度场论中的闭合时间路径方法,介绍了两种不同的表示:单时表示和物理表示。 |
| 6. | Section 2 . 2 analyzes some principles of the technological diffusion , characterizes main manners of diffusion , analyzes uncertainty in the process of diffusion and investigates problem of diffusion ' s time path
2节分析了技术扩散的某些规律,定性描述了技术扩散的主要方式,探讨技术扩散中存在的不确定性因素,并分析了技术扩散的时间路径问题。 |
| 7. | Analyze the critical path of the critical module , find out the most important signal that causes the delay of this timing path , try to modify the structure and improve the speed of the unit
在md32的片上存储系统设计中,进行了相应的低功牦设计考虑。由于md32采用了cache结构加片上ram组成面积较大的片上存储系统,其功耗成为整块芯片的最主要部分。 |
| 8. | To the question autonomous underwater vehicle local path planning , the real - time path planning system based on fuzzy control is designed . this system solves the path planning problem in the complicated environment . the simulation results verified the way presented in this paper is effective
针对水下机器人局部路径规划问题,设计了基于模糊控制规则的水下机器人实时运动规划系统,该系统能解决复杂环境下的运动规划问题,仿真实验验证了所提方法的有效性。 |
| 9. | In this paper , we give a brief introduction to the structure of an autonomous underwater vehicle ( auv ) for environmental protection firstly , secondly we discuss the control system of the auv , thirdly discusses the way of real - time path planning for auv by dynamic programming , finally we simulate the proposed control system and the path planning method by means of computer and give the simulation results of it
这促使人们开发无人水下环保机器人对水域进行勘察和监测。本文首先对自治型水下环保机器人的结构方案作了简要的介绍,然后重点讨论了水下环保机器人的运动控制系统以及利用动态规划方法进行实时的路径规划,最后对总的运动控制系统进行了计算机仿真。 |
