Analysis and Design Optimization of a Robotic Gripper Using Multiobjective Genetic Algorithm

Datta, Rituparna; Pradhan, Shikhar; Bhattacharya, Bishakh

doi:10.1109/tsmc.2015.2437847

Cited by 73 publications

(33 citation statements)

References 16 publications

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“…As it can be seen in Table 10 the quality of the solutions between the algorithms is similar, showing that the reduction in the number of evaluations 1.1E41 9.2E51 0.0E+00 f 3 1.2E26 2.2E37 1.7E-08 f 4 1.9E02 3.2E71 4.6E-09 f 5 5.6E01 4.0E01 3.9E01 f 6 1.1E+02 1.2E+02 0.0E+00 f 7 1.1E03 7.8E04 6.5E04 f 8 8.9E+03 8.6E+03 0.0E+00 f 9 1.9E01 2.0E01 0.0E+00 f 1 0 7.9E06 4.2E07 0.0E+00 of fitness function in the PMIM, does not affect the final quality of the solutions.…”

Section: Statistcal Analysis Of Experimental Resultsmentioning

confidence: 85%

A New Efficient Entropy Population-Merging Parallel Model for Evolutionary Algorithms

Arellano‐Verdejo¹,

Godoy-Calderón²,

Alonso-Pecina³

et al. 2017

IJCIS

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In this paper a coarse-grain execution model for evolutionary algorithms is proposed and used for solving numerical and combinatorial optimization problems. This model does not use migration as the solution dispersion mechanism, in its place a more efficient population-merging mechanism is used that dynamically reduces the population size as well as the total number of parallel evolving populations. Even more relevant is the fact that the proposed model incorporates an entropy measure to determine how to merge the populations such that no valuable information is lost during the evolutionary process. Extensive experimentation, using genetic algorithms over a well-known set of classical problems, shows the proposed model to be faster and more accurate than the traditional one.

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Section: Statistcal Analysis Of Experimental Resultsmentioning

confidence: 85%

A New Efficient Entropy Population-Merging Parallel Model for Evolutionary Algorithms

Arellano‐Verdejo¹,

Godoy-Calderón²,

Alonso-Pecina³

et al. 2017

IJCIS

View full text Add to dashboard Cite

show abstract

“…There are varieties of optimal methods to choose, such as GA and particle swarm optimization (PSO). GA is one of the global optimization algorithms, which has been widely used in many areas in recent years [31][32][33]. In [31], optimization of a robotic gripper using multi-objective GA was performed.…”

Section: Introductionmentioning

confidence: 99%

“…GA is one of the global optimization algorithms, which has been widely used in many areas in recent years [31][32][33]. In [31], optimization of a robotic gripper using multi-objective GA was performed. In [32], to improve the classification performance of a polynomial neural network, a novel approach with real-coded GA was proposed.…”

Section: Introductionmentioning

confidence: 99%

Integrated Design and Optimization Method of an Asymmetric Hybrid Thrust Magnetic Bearing With Secondary Air-Gap

Ren¹,

Le²,

Wang³

2017

PIER B

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Abstract-In this paper, an asymmetric thrust magnetic bearing (MB) design principle and method are introduced. Different from the general design method of magnetic bearing, the asymmetric magnetic bearing design method focuses on the effect of asymmetric factor. A permanent magnet biased asymmetric hybrid thrust magnetic bearing (AHTMB) with secondary air-gap is designed in detail. A multi-objective optimization is conducted with genetic algorithm (GA) to get smaller mass and less loss. According to optimized model parameters, magnetic field distribution, stiffness and effect of asymmetry factor on stiffness are also analyzed. For stability of the system, equivalent stiffness and equivalent damping and current characteristics are deduced. Based on the analysis results and design methods, appropriate asymmetry factor asymmetric can be chosen to satisfy the different bias force requirement. With small number of coils and current, AHTMB with secondary air-gap is beneficial for decreasing the copper loss and enhancing dynamic performance of control system.

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“…The force/torque transmission from the actuator to robotic fingers [110] determines the grasping forces/torques that exert an object. The models of force/torque transmission are built for optimizing the dimensions of robotic fingers, to a lesser extent, to reduce the subjective considerations from the topology of anthropomorphic hand.…”

Section: Problem Modellingmentioning

confidence: 99%

“…Finally, to achieve the maximum objective value, the fitness function with the geometric constraints is If the grasp is successful, 3 becomes 1 and otherwise 0. Since the actuated force is a constant in the fitness function and different from the reference[110], it has no effect on the change amount of and will not be optimized.The formula is amplified times to compensate the difference of 1 and 1 in the numeral magnitude. In this work, the actuator in the gripper prototype can execute a known force to the active tendon based on the positive transmission mechanism.…”

mentioning

confidence: 99%

Robotic perception and grasp in unstructured environments

Dong¹

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Analysis and Design Optimization of a Robotic Gripper Using Multiobjective Genetic Algorithm

Cited by 73 publications

References 16 publications

A New Efficient Entropy Population-Merging Parallel Model for Evolutionary Algorithms

A New Efficient Entropy Population-Merging Parallel Model for Evolutionary Algorithms

Integrated Design and Optimization Method of an Asymmetric Hybrid Thrust Magnetic Bearing With Secondary Air-Gap

Robotic perception and grasp in unstructured environments

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