Topology and size optimization for a flexure hinge using an integration of SIMP, deep artificial neural network, and water cycle algorithm
Author:
Publisher
Elsevier BV
Subject
Software
Reference82 articles.
1. The performance comparison of typical notched flexure hinges;Ma;Proc. Inst. Mech. Eng. C J. Mech. Eng. Sci.,2020
2. Multi-objective optimization design of a compliant microgripper based on hybrid teaching learning-based optimization algorithm;Ho;Microsyst. Technol.,2019
3. A compliant dual-axis gripper with integrated position and force sensing;Chen;Mechatronics,2017
4. Robust parameter design and analysis of a leaf compliant joint for micropositioning systems;Le Chau;Arab. J. Sci. Eng.,2017
5. Extended static modeling and analysis of compliant compound parallelogram mechanisms considering the initial internal axial force;Hao;J. Mech. Robot.,2016
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