基于粒子群优化方法的同心管连续型机器人运动学算法

谢红; 王涛; 沈越锋; 汪旭红; 何斌; 程黎明

doi:10.13433/j.cnki.1003-8728.2015.0101

基于粒子群优化方法的同心管连续型机器人运动学算法

doi: 10.13433/j.cnki.1003-8728.2015.0101

1.
同济大学机械与能源工程学院, 上海 201804;
2.
同济大学电子与信息工程学院, 上海 201804;
3.
同济大学附属同济医院, 上海 200065

基金项目:

上海市科委科技攻关重点项目（11JC1412100）资助

详细信息

作者简介:
谢红（1959-），副教授，博士，研究方向为并联机构以及仿生机器人，xiehongjx@tongji.edu.cn

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- 文章访问数: 221
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- 被引次数: 0
出版历程
- 收稿日期: 2013-07-10
- 刊出日期: 2015-01-05

Kinematics Algorithm of Continuous Concentric-tube Robot Based on Particle Swarm Optimization

1.
Department of Mechanical Engineering, Tongji University, Shanghai 201804;
2.
Department of Control Science & Engineering, Tongji University, Shanghai 201804;
3.
Tongji Hospital Affiliated to Tongji University, Shanghai 200065

摘要

摘要: 针对一种应用于微创手术的同心管连续型机器人运动学算法展开研究，通过几种不同运动学算法比较，在兼顾精度以及计算复杂程度的前提下，选用最小能量法建立其运动学数学模型，并选择利用粒子群优化算法强大的寻优能力对相关能量函数寻求最优解。建立了从驱动空间参数到关节空间所有参数的映射关系，通过坐标变换和参数拟合，得到同心管连续型机器人从基点到末端点空间姿态的表达式。通过运动学算例和三维模型的运动学仿真获得的运动轨迹进行对比验证，说明了算法模型的可行性和准确性。
- 同心管 /
- 连续型机器人 /
- 最小能量法 /
- 粒子群优化方法 /
- 运动学
Abstract: Aiming at the kinematics algorithm study of the concentric tube continuous robot applied in minimally invasive surgery, this paper compares several different kinematics algorithms and selects the minimum energy method to establish the kinematics mathematical model on the premise of both accuracy and computational complexity. Then the particle swarm optimization algorithm is used to optimize relevant energy function for the optimal solution because of its powerful optimization ability. Finally, the mapping relation of all parameters from drive space to joint space is set up, and the posture expression from basis point to end point of the robot is obtained through coordinate transformation and parameters fitting. At last, this paper compares the simulation results with the algorithm model by the use of Adams kinematics simulation, which shows the feasibility and accuracy of the kinematics model.
- algorithms /
- bending(deformation) /
- computational complexity /
- computer simulation /
- computer software

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参考文献(9)

[1]	Webster R J, Romano J M, Cowan N J. Mechanics of precurved tube continium robots[J]. IEEE Transactions on Robotics,2009,25(1):67-78
[2]	Rucker D C, Webster R J. Parsimonious evaluation of concentric-tube continuum robot equilibrium conformation[J]. IEEE Transactions on Biomedical Engineering,2009,56(9):2308-2311
[3]	Jones B A, Walker I D. Practical kinematics for real-time implementation of continuum robots[J]. IEEE Transactions on Robotics, 2006, 22(6):1087-1099
[4]	Jones B A, Walker I D. Kinematics for multisection continuum robot[J]. Advanced Robotics,2006,22(1):43-55
[5]	Webster III R J, Romano J M, Cowan N J. Kinematics and calibration of active cannulas[C]// IEEE International Conference on Robotics and Automation Pasadena, CA, USA, May 19-23,2008,3888-3895
[6]	Rucker D C, Webster R J. Parsimonious evaluation of concentric-tube continuum robot equilibrium conformation[J]. IEEE Transactions on Biomedical Engineering,2009,56(9):2308-2311
[7]	Dupont P, Lock J, Itkowitz B, et al. Design and control of concentric tube robots[J]. IEEE Trans. Robot.,2010,26(2):209-225
[8]	Kennedy J. The particle swarm:social adaptation of knowledge[C]// Proc. IEEE Int. Conf. Evol. Comput., Apr,1997:303-308
[9]	Shi Y H, Eberhart R C. Fuzzy adaptive particle swarm optimization[C]// IEEE Congress on Evolutionary Computation, Seoul, South Korea,2001:101-106