| 1. | Pose sensing of agricultural wheeled mobile robot
农用轮式移动机器人相对位姿的求解方法 |
| 2. | Then , the forward position solution is researched
然后重点研究了振动台的位姿正解计算。 |
| 3. | Development of monitoring system for horizontal pose of tower crane
塔式起重机水平位姿监测系统的研制 |
| 4. | Pose adjustment of turning tool based on intelligent cutter grinding machine
基于智能化刃磨的车刀位姿调整 |
| 5. | Synthetically analysis of the robot pose error resulting from various factors
多因素影响下的机器人综合位姿误差分析方法 |
| 6. | In this thesis , the table ’ s inverse position solution is first analyzed
文中首先对振动台的位姿反解进行了分析和计算。 |
| 7. | Modeling of the optimal cutting position - pose of the rotary cutting drum for mining cobalt - rich crust
滚筒式采矿头最佳切削位姿的建模 |
| 8. | Human face detection is to locate the faces and determine their sizes in an image
人脸检测是确定人脸的位置、大小、位姿的图像处理过程。 |
| 9. | Computer simulation of tool - post ' s position - orientation for orthogonal virtual 6 - axis machine tool
正交式虚拟六轴机床刀架位姿的计算机模拟 |
| 10. | Control of a micro - mobile robot for position and orientation problem based on reinforcement learning
基于增强式学习的微小型移动机器人位姿控制 |
