| 1:Symposium of the International Association for Boundary Element Methods(IABEM2018). Paris, France. 6.26-6.28, 2018 |
1): Conference Program.pdf
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| 2:The 8th International Conference on Computational Methods (ICCM2017). Guilin, China. 7.25-7.29, 2017 |
1):Conference Program.pdf
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| 3:The 39th International Conference on Boundary Elements and other Mesh Reduction Methods. Siena, Italy. 9.20-9.22, 2016 |
1):Conference Program.pdf
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| 4:Asia-Pacific International Conference on Computational Methods in Engineering. Hangzhou, China. 10.11-10.13, 2015 |
1):Conference Program.pdf
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| 5:Domain Decomposition Methods for PDEs workshop. Halifax, Canada. 8.3-8.8, 2015 |
1):Multi-domain Boundary Face Method for thermal analysis of gravity dams and its possible implementation by DD.pdf
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| :6:International Conference on Computational Methods(ICCM2015), Auckland, New Zealand. 7.14-7.17, 2015 |
1):Conference Program.pdf
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| :7:37th International Conference on Boundary Elements and Other Mesh Reduction Methods. New Forest, UK. 9.8-9.10, 2014 |
1):An Adaptive Element Subdivision technique for Evaluating 3D Weakly Singular Boundary Integrals.pdf
2):Conference Programme.pdf
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| :8:Chinese Conference on Computational Mechanics 2014. Guiyang,China. 8.10-8.13, 2014 |
1):Boundary Face Method--a truely isogeometric method.pdf
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| :9:The 2014 Conference of the International Association for Boundary Element Methods. Zhengzhou, China. 8.13-8.15, 2014 |
1):Why the Boundary Face Method is a truely isogeometric method.pdf
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| :10:36th International Conference on Boundary Elements and Other Mesh Reduction Methods. Dalian, China. 10.22-10.24, 2013 |
1):An Automatic Simulation Tool for Thermal Analysis of Gravity Dams by BFM.pdf
2):Technical Program.pdf
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| 11:10th Global Chinese Workshop on Computational Methods in Engineering. Changsha, China. 5.25-5.28,2012 |
1):Advances in BFM (JianMing Zhang).pdf
2):Technical+Program.pdf
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| 12:Boundary Element Method: Bridging Education and Industrial Applications. Minneapolis,USA. 4.23-4.26,2012 |
1):Automatic analysis with BFM and ACA.pdf
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| :13:CCTAM-2011 . Harbin,China. 8.22-8.24,2011 |
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| :14:Third International Symposium on Computational Mechanics. Taipei, Taiwan. 12.5-12.7,2011 |
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| :15:The International Conference on Computational Methods. Zhangjiajie,China. 11.19-11.21,2010 |
1):It is time to develop analysis tools based on BIE.pdf
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| :16:Third Asia-Pacific international Conference on Computational Methods in Engineering. Nanjing, China.10.18-10.22,2009 |
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| :17:The Fourth ICCES Special Symposium on MESHLESS METHODS. Suzhou,China. 10.13-10.17,2008 |
1):The fast HdBNM_a way toward automatic simulation.pdf
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| :18:International Conference on Computational Methods 2007, Hiroshima, Japan, April 4-6, 2007 |
1):Effects of spatial decomposition and p-adaptivity on FMM.pdf
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| :19:Asia-Pacific international Conference on Computational Methods in Engineering-2006, Tokyo. 12.8,2006 |
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| 20: Second Asia-Pacific International Conference on Computational Methods in Engineering2006,Hefei,China 11.17-11.18,2006 |
1):Adaptive spatial decomposition in Fast Multipole Method.pdf
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| :21:WCCM 2006, Los Angeles,7.19, 2006 |
1):A new adaptive node-cluster algorithm in Fast Multipole Method.pdf
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| :22:International Association for Boundary Element Methods 2006, Graz, Austria, 7.10-7.12,2006 |
1):Fast HdBNM for prediction of thermal properties of CNTreinforced composites.pdf
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| :23:CTEC 2006, Nagoya,6.30, 2006 |
1):An effective tree data structure in Fast Multipole Method.pdf
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| 24:43th Hokushin 2006, Nagano |
1):Shape optimization of CNT for enhancine thermal conductance of CNT-based composites.pdf
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| 25:CTEC 2005, Nagoya |
1):Multi-Domain HdBNM with fast mutilpole method.pdf
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| 26:ACOME 2005, Ookayama |
1):Large-scale Thermal Analysis of Composites Embedded with CNTs of Arbitrary Shapes & Random Distribution.pdf
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| 27:JSME 18th CMC 2005, Tsukuba |
1):Advanced Simulation of CNT Composites by a Fast Multipole Hybrid Boundary Node Method.pdf
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| 28:JSME 17th CMD, Sendai, 11,17,2004 |
1):Boundary-only and fast meshless analysis of 3D potential problems.pdf
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| 29:JASCOME 21th BEM2004, Kyoto |
1):Fast Hybrid BNM Analysis of heat conduction properties of CNT-based composites.pdf
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| 30:CTEC 2004, Nagoya |
1):A Tree Data Structure for MLS Approximation of Boundary Variables in the Hybrid BNM.pdf
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| 31:WCCM VI 2004, Beijing, 9.7, 2004 |
1):Hybrid Boundary Node Method accelerated by Fast Multipole Method for 3D potential problems.pdf
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| 32:JSME 16th CMC, Kobe,2003 |
1):Investigation of the equivalent heat conductivity of CNT-based composites using a simplified approach.pdf
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| 33:JASCOME 20th BEM2003, Nagoya |
1):Boundary-type meshless solutions of potential problems:Comparison between singular and regular formulations in Hybrid BNM.pdf
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| 34:ICOME2003, Sapporo |
1):Multi-domain Hybrid BNM for predicting properties of CNT composites.pdf
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| 35:JSME2003, Tokushima |
1):An Application of the meshless BEM to Evaluation of the Thermal Properties of CNT Composites.pdf
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| 36:CTEC2003, Tokyo |
1):Evaluation of heat conducting properties of curved-CNT composites by the hybrid BNM.pdf
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| 37:M&M2003, Toyama |
1):Study on Heat Conduction Properties of CNT Composites.pdf
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