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International Journal of Production Research Volume 50, 2012 - Issue 15
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Original Articles

Machining fixture layout optimisation under dynamic conditions based on evolutionary techniques

Jianping Dou School of Mechanical Engineering, Southeast University, ChinaCorrespondence[email protected]
,
Xingsong Wang School of Mechanical Engineering, Southeast University, China
&
Lei Wang School of Mechanical Engineering, Southeast University, China
Pages 4294-4315 | Received 29 Dec 2010, Accepted 25 Aug 2011, Published online: 16 Nov 2011

References

  • Andrews , PS . 2006. An investigation into mutation operators for particle swarm optimisation. IEEE congress on evolutionary computation (CEC 2006), 16–21 July, Vancouver, Canada. Piscataway, NJ: IEEE Press, 1044–1051
  • Asante , J . 2008 . A combined contact elasticity and finite element-based model for contact load and pressure distribution calculation in a frictional work piece-fixture system . International Journal of Advanced Manufacturing Technology , 39 ( 5 ) : 578 – 588 .
  • Cai , W , Hu , SJ and Yuan , JX . 1996 . Deformable sheet metal fixturing: Principles, algorithms, and simulations . Journal of Manufacturing Science and Engineering , 118 ( 3 ) : 318 – 324 .
  • Chen , W , Ni , L and Xue , J . 2008 . Deformation control through fixture layout design and clamping force optimisation . International Journal of Advanced Manufacturing Technology , 38 ( 9 ) : 860 – 867 .
  • Choubey , AM . 2005 . Solving a fixture configuration design problem using genetic algorithm with learning automata approach . International Journal of Production Research , 43 ( 22 ) : 4721 – 4743 .
  • De Meter , EC . 1998 . Fast support layout optimisation . International Journal of Machine Tools and Manufacture , 38 ( 10–11 ) : 1221 – 1239 .
  • Deep , K and Thakur , M . 2007a . A new crossover operator for real coded genetic algorithms . Applied Mathematics and Computation , 188 ( 1 ) : 895 – 911 .
  • Deep , K and Thakur , M . 2007b . A new mutation operator for real coded genetic algorithms . Applied Mathematics and Computation , 193 ( 1 ) : 211 – 230 .
  • Elbeltagi , E , Hegazy , T and Grierson , D . 2005 . Comparison among five evolutionary-based optimisation algorithms . Advanced Engineering Informatics , 19 ( 1 ) : 43 – 53 .
  • Fogarty , TC . 1989 . Varying the probability of mutation in the genetic algorithm . Proceedings of 3rd international conference on genetic algorithms . 4–7 June 1989 , Fairfax . VA. San Francisco, CA: Morgan Kaufmann, 104–109
  • Goldberg , DE . 2000 . Genetic algorithms in search optimisation and machine learning , Boston , MA : Addison-Wesley .
  • Hu , XH . Shi, Y. and Eberhart, R., 2004. Recent advances in particle swarm. Congress on evolutionary computation (CEC(2004)), 19–23 June, Portland, OR. Piscataway, NJ: IEEE Press, 90–97
  • Kaya , N . 2006 . Machining fixture locating and clamping position optimisation using genetic algorithms . Computers in Industry , 57 ( 2 ) : 112 – 120 .
  • Kaya , N and Öztürk , F . 2001 . Algorithms for grouping machining operations and planning work piece location under dynamic machining conditions . International Journal of Production Research , 39 ( 15 ) : 3329
  • Kaya , N and Öztürk , F . 2003 . The application of chip removal and frictional contact analysis for work piece–fixture layout verification . International Journal of Advanced Manufacturing Technology , 21 ( 6 ) : 411 – 419 .
  • Kennedy , J and Eberhart , R . 1995 . Particle swarm optimisation . Proceedings of the IEEE international conference on neural networks . 27 November–1 December 1995 , Perth . Australia. Piscataway, NJ: IEEE Service Center. IV, 1942–1948
  • Kennedy , J , Eberhart , RC and Shi , Y . 2001 . Swarm intelligence , San Mateo , CA : Morgan Kaufmann .
  • Krishnakumar , K and Melkote , SN . 2000 . Machining fixture layout optimisation using the genetic algorithm . International Journal of Machine Tools and Manufacture , 40 ( 4 ) : 579 – 598 .
  • Kumar , AS , Subramaniam , V and Seow , KC . 1999 . Conceptual design of fixtures using genetic algorithms . International Journal of Advanced Manufacturing Technology , 15 ( 2 ) : 79 – 84 .
  • Kumar , KS and Paulraj , G . 2011 . Genetic algorithm based deformation control and clamping force optimisation of work piece fixture system . International Journal of Production Research , 49 ( 7 ) : 1903 – 1935 .
  • Li , B and Melkote , SN . 1999 . Improved work piece location accuracy through fixture layout optimisation . International Journal of Machine Tools and Manufacture , 39 ( 6 ) : 871 – 883 .
  • Li , B and Melkote , SN . 2001 . Optimal fixture design accounting for the effect of work piece dynamics . International Journal of Advanced Manufacturing Technology , 18 ( 10 ) : 701 – 707 .
  • Liao , YJG and Hu , SJ . 2000 . Flexible multibody dynamics based fixture-work piece analysis model for fixturing stability . International Journal of Machine Tools and Manufacture , 40 ( 3 ) : 343 – 362 .
  • Meyer , RT and Liou , FW . 1997 . Fixture analysis under dynamic machining . International Journal of Production Research , 35 ( 5 ) : 1471 – 1489 .
  • Ozel , T and Altan , T . 2000 . Process simulation using finite element method – prediction of cutting forces, tool stresses and temperatures in high-speed flat end milling . International Journal of Machine Tools & Manufacture , 40 ( 5 ) : 713 – 738 .
  • Padmanaban , KP and Prabhaharan , G . 2008 . Dynamic analysis on optimal placement of fixturing elements using evolutionary techniques . International Journal of Production Research , 46 ( 15 ) : 4177 – 4214 .
  • Padmanaban , K , Arulshri , K and Prabhakaran , G . 2009 . Machining fixture layout design using ant colony algorithm based continuous optimisation method . International Journal of Advanced Manufacturing Technology , 45 ( 9 ) : 922 – 934 .
  • Poli , R . 2007 . An analysis of publications on particle swarm optimisation applications , Colchester , , UK : University of Essex .
  • Poli , R , Kennedy , J and Blackwell , T . 2007 . Particle swarm optimisation: An overview . Swarm Intelligence , 1 ( 1 ) : 33 – 57 .
  • Prabhaharan , G , Padmanaban , K and Krishnakumar , R . 2007 . Machining fixture layout optimisation using FEM and evolutionary techniques . International Journal of Advanced Manufacturing Technology , 32 ( 11 ) : 1090 – 1103 .
  • Ratchev , S . 2005 . An experimental investigation of fixture-work piece contact behaviour for the dynamic simulation of complex fixture-work piece systems . Journal of Materials Processing Technology , 164–165 ( 5 ) : 1597 – 1606 .
  • Ratchev , S , Phuah , K and Liu , S . 2007 . FEA-based methodology for the prediction of part-fixture behaviour and its applications . Journal of Materials Processing Technology , 191 ( 1–3 ) : 260 – 264 .
  • Shi , Y and Eberhart , R . 1998 . Parameter selection in particle swarm optimisation . Lecture Notes in Computer Science , 1447 ( 1998 ) : 591 – 600 .
  • Srinivas , M and Patnaik , LM . 1994 . Adaptive probabilities of crossover and mutation in genetic algorithms . IEEE Transactions on Systems, Man and Cybernetics , 24 ( 4 ) : 656 – 661 .
  • Vallapuzha , S . 2002 . An investigation into the use of spatial coordinates for the genetic algorithm based solution of the fixture layout optimisation problem . International Journal of Machine Tools and Manufacture , 42 ( 2 ) : 265 – 275 .
  • Vallapuzha , S . 2002 . An investigation of the effectiveness of fixture layout optimisation methods . International Journal of Machine Tools and Manufacture , 42 ( 2 ) : 251 – 263 .
  • Wang , H . 2010 . Computer aided fixture design: Recent research and trends . Computer-Aided Design , 42 ( 12 ) : 1085 – 1094 .
  • Wu , NH and Chan , KC . 1996 . A genetic algorithm based approach to optimal fixture configuration . Computers & Industrial Engineering , 31 ( 3–4 ) : 919 – 924 .
  • Yeh , JH and Liou , FW . 1999 . Contact condition modelling for machining fixture setup processes . International Journal of Machine Tools and Manufacture , 39 ( 5 ) : 787 – 803 .

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