Optimal Control of a Mackerel-Mimicking Robot for Energy Efficient Trajectory Tracking 被引量：7

Optimal Control of a Mackerel-Mimicking Robot for Energy Efficient Trajectory Tracking

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摘要 A robotic fish, BASEMACK1, is designed and fabricated by mimicking the shape of a live mackerel. Three DC servo-motors are serially linked together and actuated to mimic the mackerel＇s Carangiform motion. Hydrodynamic characteristics of a fish-mimetic test model are experimentally identified and utilized in order to numerically simulate fish swimming. The discrete set of kinematic and dynamic parameters are obtained by considering required horizontal and lateral forces and minimum energy consumption. Using the optimized parameter set, optimal control of the robot is studied. A robotic fish, BASEMACK1, is designed and fabricated by mimicking the shape of a live mackerel. Three DC servo-motors are serially linked together and actuated to mimic the mackerel＇s Carangiform motion. Hydrodynamic characteristics of a fish-mimetic test model are experimentally identified and utilized in order to numerically simulate fish swimming. The discrete set of kinematic and dynamic parameters are obtained by considering required horizontal and lateral forces and minimum energy consumption. Using the optimized parameter set, optimal control of the robot is studied.

作者 Seunghee Lee Jounghyun Park Cheolheui Han

机构地区 Department of Mechanical Engineering Hanyang University Department of Aeronautical and Mechanical Design Engineering

出处《Journal of Bionic Engineering》 SCIE EI CSCD 2007年第4期209-215,共7页 仿生工程学报（英文版）

关键词 mackerel-mimicking robot optimal control trajectory tracking mackerel-mimicking robot, optimal control, trajectory tracking

分类号 TP242 [自动化与计算机技术—检测技术与自动化装置]

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参考文献10

1Jindong Liu,Huosheng Hu.A 3D Simulator for Autonomous Robotic Fish[J].International Journal of Automation and computing,2004,1(1):42-50. 被引量：9
2Gray J.Studies in animal locomotion VI. The propulsive powers of the dolphin[].Journal of Experimental Biology.1936
3Fish F E,Lauder G V.Passive and active flow control by swimming fishes and mammals[].Annual Review of Fluids Mechanics.2006
4Rozhdestvensky K V,Ryzhov V A.Aerohydrodynamics of flapping-wing propulsors[].Progress in Aerospace Sciences.2003
5Yu J Z,Wang L.Parameter optimization of simplified pro- pulsive model for biomimetic robot fish[].Proceeding of the IEEE International Conference Robotic and Automation.2005
6Mason R.Fluid Locomotion and Trajectory Planning for Shape-Changing Robots[]..2003
7Yu J Z,Liu L Z,Wang L.Dynamic modeling and experi- mental validation of biomimetic robotic fish[].Proceedings of the American Control Conference.2006
8Triantafyllou MS,Techet AH,Hover FS.Review of experimental work in biomimetic foils[].IEEE Journal of Oceanic Engineering.2004
9P.R.Bandyopadhyay.Trends in Biorobotic Autonomous Undersea Vehicles[].IEEE Journal of Oceanic Engineering.2005
10Lighthill M J.Note on the swimming of slender fish[].Journal of Fluid Mech.1960

共引文献8

1Jin-Dong Liu,Huosheng Hu.Biologically Inspired Behaviour Design for Autonomous Robotic Fish[J].International Journal of Automation and computing,2006,3(4):336-347. 被引量：2
2Dai-bing Zhang De-wen Hu Lin-cheng Shen Hai-bin Xie.A Bionic Neural Network for Fish-Robot Locomotion[J].Journal of Bionic Engineering,2006,3(4):187-194. 被引量：2
3Seok Heo,Tedy Wiguna,Hoon Cheol Park,Nam Seo Goo.Effect of an Artificial Caudal Fin on the Performance of a Biomimetic Fish Robot Propelled by Piezoelectric Actuators[J].Journal of Bionic Engineering,2007,4(3):151-158. 被引量：17
4Qin Yan Zhen Han Shi-wu Zhang Jie Yang.Parametric Research of Experiments on a Carangiform Robotic Fish[J].Journal of Bionic Engineering,2008,5(2):95-101. 被引量：14
5陈伟,谢广明,孔峰.一种机器鱼仿真平台场地与动态实体的实时绘制方法[J].兵工自动化,2011,30(12):79-82.
6武珅,曾志波,徐良浩.柔性随边螺旋桨水动力和空泡性能模型实验研究[J].水动力学研究与进展（A辑）,2020,35(6):675-680. 被引量：5
7苏博越,翟树成,白亚强,张军.尾鳍摆动推进水动力与流动涡结构特征分析[J].船舶力学,2024,28(2):220-228.
8徐加行,言勇华,于佳琳.多关节自主游动机器鱼的设计与控制[J].机电一体化,2015,21(2):36-39 66. 被引量：1

同被引文献46

1王田苗.走向产业化的先进机器人技术[J].中国制造业信息化（学术版）,2005,34(10):24-25. 被引量：13
2孟伟,韩学东,洪炳镕.蜜蜂进化型遗传算法[J].电子学报,2006,34(7):1294-1300. 被引量：78
3雷静桃,高峰,崔莹.多足步行机器人的研究现状及展望[J].机械设计,2006,23(9):1-3. 被引量：37
4孙敏,范守文.基于能耗指标的拟人机器人步态优化与分析[J].机械设计与研究,2007,23(2):52-54. 被引量：7
5徐凯,陈小平.一种有腿机器人步态轨迹生成算法[J].小型微型计算机系统,2008,29(5):854-858. 被引量：4
6霍炜,刘大维,王江涛.基于局部最小能量的移动机器人路径规划[J].青岛理工大学学报,2008,29(4):99-104. 被引量：9
7李东洁,邱江艳,尤波.一种机器人轨迹规划的优化算法[J].电机与控制学报,2009,13(1):123-127. 被引量：58
8李智国,李萍萍,刘继展,李伟.不同加减速控制算法的能耗分析与比较[J].农业机械学报,2009,40(8):193-197. 被引量：13
9夏必忠,汪劲松,谢海波,杨华勇.单组元发动机——能量自给机器人的新型动力源[J].机械工程学报,2009,45(8):155-162. 被引量：1
10徐海黎,解祥荣,庄健,王孙安.工业机器人的最优时间与最优能量轨迹规划[J].机械工程学报,2010,46(9):19-25. 被引量：140

引证文献7

1党培,谭云福,申利民.基于多关节机器人的能量最小消耗控制策略[J].计算机应用研究,2010,27(12):4575-4577. 被引量：11
2苏学满,孙丽丽.矿井搜救探测机器人驱动系统最小能耗建模与影响因素分析[J].计算机工程与应用,2015,51(22):77-84. 被引量：2
3邓乾旺,罗正平,张丽科,崔巍.点焊机器人轨迹能耗模型及其优化算法研究[J].中国机械工程,2016,27(1):14-20. 被引量：18
4苏学满,孙丽丽,陈玉,许德章.基于Hamiltonian和最小值定理的矿井搜救探测机器人驱动系统最小能耗研究[J].机械设计,2016,33(1):95-100.
5操鹏飞,许德章,汪步云,张家敏,杨伟超.工业机器人工作过程中能耗最小控制策略[J].组合机床与自动化加工技术,2016(8):157-160. 被引量：3
6梅江平,孙玉德,贺莹,臧家炜,方志炜.基于能耗最优的4自由度并联机器人轨迹优化[J].机械设计,2018,35(7):14-22. 被引量：3
7姚江云,吴方圆.膜计算下自主机器人轨迹智能跟踪算法[J].西安工程大学学报,2024,38(4):81-88.

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1徐伟锋,胡俊武,叶佳佳,祝新军.基于视觉检测的口罩枕包并联机器人动态抓取[J].国外电子测量技术,2022,41(3):152-157. 被引量：5
2梅成才,潘修强,陈军杰.应用DCNLP法求解五连杆机器手臂对接问题[J].小型微型计算机系统,2012,33(12):2749-2752. 被引量：5
3潘修强,梅成才,陈军杰.基于DCNLP的机器手臂最优化控制及拉格朗日因子研究[J].计算机应用与软件,2013,30(5):140-144. 被引量：3
4苏学满,孙丽丽.矿井搜救探测机器人驱动系统最小能耗建模与影响因素分析[J].计算机工程与应用,2015,51(22):77-84. 被引量：2
5苏学满,孙丽丽,陈玉,许德章.基于Hamiltonian和最小值定理的矿井搜救探测机器人驱动系统最小能耗研究[J].机械设计,2016,33(1):95-100.
6操鹏飞,许德章,汪步云,张家敏,杨伟超.工业机器人工作过程中能耗最小控制策略[J].组合机床与自动化加工技术,2016(8):157-160. 被引量：3
7马莉丽.分块建模关节机器人的PI鲁棒滑模控制[J].辽宁工程技术大学学报（自然科学版）,2016,35(11):1305-1311.
8马莉丽,蒋猛.基于名义模型的机械手PI鲁棒滑模控制研究[J].西南大学学报（自然科学版）,2016,38(12):133-139. 被引量：6
9葛国华.关于白车身装焊夹具的设计及点焊机器人的焊接仿真分析[J].电子世界,2017,0(19):44-45. 被引量：1
10侯仰强,王天琪,李亮玉,张志臣,赵娜.基于蚁群算法-粒子群算法的白车身侧围点焊机器人路径规划[J].中国机械工程,2017,28(24):2990-2994. 被引量：12

1WANG Bangping LI Zhenxing ZHENG Lina LIU Yixuan LIN Hong.Identification and Characterization of a New IgE-binding Protein in Mackerel (Scomber japonicus) by MALDI-TOF-MS[J].Journal of Ocean University of China,2011,10(1):93-98. 被引量：5
2周卫枫,汤海青,贺林娟,杨华,欧昌荣.鲭鱼鱼肉中组胺产生菌的筛选与鉴定[J].食品科学,2012,33(13):225-229. 被引量：7
3陶志华,张宏梅,佐藤实.鲭鱼鱼肉中组胺菌的分离及其理化性质分析[J].现代农业科技,2009(19):331-332. 被引量：5
4呼吸记忆法[J].初中生优秀作文,2012(8):70-70.
5呼吸记忆法[J].初中生优秀作文,2012(1):19-19.
6欧昌荣,汤海青,张宇琼,郑洁,李海波.鲭鱼中组胺降解酶产生菌的分离筛选和基本酶学性质研究[J].宁波大学学报（理工版）,2012,25(3):1-6. 被引量：5
7王雪芹,邢荣娥,刘松,于华华,李克成,陈作元,李鹏程.Purification and characterization of novel antioxidant peptides of different molecular weights from mackerel Pneumatophorus japonicus protein hydrolysate[J].Chinese Journal of Oceanology and Limnology,2015,33(1):159-168. 被引量：4
8鱼类可以放牧吗？[J].农村青年,2013(3):62-62.
9高峰.鱼类可以放牧吗？[J].少年发明与创造（小学版）,2013(6):34-35.
10Aida Mojaver,HosseinKheiri.Dynamical analysis of a class of hepatitis C virus infection models with application of optimal control[J].International Journal of Biomathematics,2016,9(3):97-119. 被引量：1

Journal of Bionic Engineering

2007年第4期

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