1、国外大学数控一 国外:1Department of Mechanical Engineering, University of Auckland, Auckland 1142, New Zealand-新西兰奥克兰大学机械工程系 简介:The Intelligent and Interoperable Manufacturing Systems (IIMS) research unit within the group aims to provide solutions for industry in achieving intelligent and interoperable manufa
2、cturing environments. A key to these environments is a STEP-compliant CAPP-CAM-CNC platform where STEP-NC is the enabling data model for CNC systems.论文:1 434 Strategic advantages of interoperability for global manufacturing using CNC technology 2 306 STEP-NC enabled on-line inspection in support of
3、closed-loop machining 2 3 858 A novel open CNC architecture based on STEP-NC data model and IEC 61499 function blocks 3 4 805 An Open CNC System Based on Component Technology 45 905 Research into integrated design and manufacturing based on STEP5 6 2008 Virtual machine tools and virtual machining-A
4、technological review67 285 Development of an NC controller for next generation CNCS78 868 A novel CNC system for turning operations based on a high-level data model 8 9 284 Special issue on recent advances in flexible automation 910 469 Feature-based Machining Using Function Block Technology 10 11 8
5、74 A reliability assessment method based on support vector machines for CNC equipment 1112 886 STEP-NC BASED INTELLIGENT COMPUTING AND MACHINING 1213 1838 SMART MACHINING SIMULATION BASED ON HIGH-LEVEL DATA 1314 1951 Machining precedence of 21/2D interacting features in a feature-based data model 14
6、15 2046 Towards High-Fidelity Machining Simulation 1516 2325 DIMP: an interoperable solution for software integration and product data exchange 1617 2451 Realization CNC Controller Enable Machine Condition Monitoring Architecture Based on STEP-NC Data Model17 18 2657 From cloud computing to cloud ma
7、nufacturing 1819 3109 A CNC system based on real-time Ethernet and Windows NT 1920 3172 Advanced CNC system with in-process feed-rate optimisation 202Department of Mechanical Engineering, University of Bath, Bath BA2 7AY, UK-英国巴斯大学机械工程系简介:In modern manufacturing the definition, manufacture and verif
8、ication of the product are intimately interlinked, and each aspect must be undertaken in full recognition of the importance of the other two. The IdMRCs research programme reflects this importance, with research themes in advanced machining processes and systems, in constraint-based design and optim
9、isation, in design information and knowledge, and in metrology and assembly systems and technologies.论文:1 434 Strategic advantages of interoperability for global manufacturing using CNC technology 12 435An intelligent approach for the prediction of surface roughness in ball-end machining of polyprop
10、ylene213 267 Surface roughness prediction model for CNC machining of polypropylene22 4 831 A unified manufacturing resource model for representation of computerized numerically controlled machine tools23 5 144Toward interoperable CNC manufacturing24 6 957 A Unified Manufacturing Resource Model for r
11、epresenting CNC machining systems257 1442A methodology for the determination of foamed polymer contraction rates as a result of cryogenic CNC machining 263 新加坡国立大学机械工程系http:/www.nus.edu.sg/education/academic/faculties-and-schoolshttp:/www.eng.nus.edu.sg/research/Research_Focus/Departments.htm简介: 网站维
12、护中论文:1 810 Improving contouring accuracy by tuning gains for a bi-axial CNC machine 522 1917 Experimental implementation of Taylor series expansion error compensation on a bi-axial CNC machine323 2643 Generalized Taylor series expansion for free-form two-dimensional contour error compensation334 132
13、7Improving CNC contouring accuracy by integral sliding mode control535 1345 Tracking error-based static friction compensation for a bi-axial CNC machine546 3040 Precision contouring control of machine tools7 30 Taylor Series Expansion Error Compensation for a Bi-axial CNC Machine8 239 Characteristic
14、s of ultrasonic vibration-assisted ductile mode cutting of tungsten carbide9 836 Micro-spike EEG electrode and the vacuum-casting technology for mass production10 2303 Augmented reality applications in design and manufacturing11 2876 Improving contouring accuracy by using generalized cross-coupled c
15、ontrol12 3113 Nonlinear autoregressive network with exogenous inputs based contour error reduction in CNC machines4 Manufacturing Automation Laboratory, The University of British Columbia, Vancouver, BC, Canada简介:The Manufacturing Automation Laboratory (MAL) conducts research in the mechanics and dy
16、namics of metal cutting operations, spindle design and analysis, micro-machining, virtual simulation of machining operations and CNC machine tools, design and digital control of high speed feed drives, precision machining, sensor assisted intelligent machining, chatter stability of cutting processes
17、. Our academic articles receive the highest citation in the world in the field of manufacturing. The laboratory designs and builds sophisticated but industry-friendly machining simulation algorithms which have milling, turning, boring, drilling, cutting temperature, spindle design and analysis, expe
18、rimental modal analysis, modal testing and data acquisition modules(CUTPRO); virtual CNC, Virtual High Performance Machining System (MACHPRO). More than one hundred fifty leading companies and universities around the world licensed the unique and advanced engineering tools developed in our laborator
19、y (). We conduct joint projects with several national and international universities, research centers and leading machine tool, cutting tool, automotive and aerospace companies in North and South America, Asia and Europe.论文:1 336 Feed optimization for five-axis CNC machine tools with drive constrai
20、nts2 854 Modeling and Control of Contouring Errors for Five-Axis Machine Tools-Part II: Precision Contour Controller Design3 1029 High speed contouring control strategy for five-axis machine tools5 Department of Mechanical and Aeronautical Engineering, University of California, Davis, CA 95616, USAh
21、ttp:/www.ucdavis.edu/论文:1 269 Time-optimal traversal of curved paths by Cartesian CNC machines under both constant and speed-dependent axis acceleration bounds2 357 Topological criterion for selection of quintic Pythagorean-hodograph Hermite interpolants3 632 Development of a computer assistant prog
22、ramming system for micro/nano milling tool fabrication by multi-axis wire EDM4 813 Time-optimal traversal of curved paths by Cartesian CNC machines under both constant and speed-dependent axis acceleration bounds (vol 24, pg 16, 2008)5 1339 Solution of inverse dynamics problems for contour error min
23、imization in CNC machines6 1361 An accurate adaptive NURBS curve interpolator with real-time flexible acceleration/deceleration control7 2715 A universal NC program processor design and prototype implementation for CNC systems8 295 The design of a NURBS pre-interpolator for five-axis machining9 574D
24、esign optimization and development of CNC lathe headstock to minimize thermal deformation6Department of Power Mechanical Engineering, National Tsing Hua University, Hsinchu 300, Taiwan, ROChttp:/www.nthu.edu.tw/english/content_adm.phphttp:/www.nthu.edu.tw/english/content_edu.php简介:内容更新论文:1 288 NURBS
25、-based fast geometric error compensation for CNC machine tools2 826 Total ballbar dynamic tests for five-axis CNC machine tools3 850 Robust real-time NURBS path interpolators4 1981 Microfluidic cell culture chip with multiplexed medium delivery and efficient cell/scaffold loading mechanisms for high
26、-throughput perfusion 3-dimensional cell culture-based assays5 2745 Tool path planning for 5-axis flank milling of ruled surfaces considering CNC linear interpolation6 3218 Dual-Dexterous-Vises: Preliminary Design and Tests of a Flexible Fixturing System7 Precision Controls Laboratory, Department of
27、 Mechanical & Mechatronics Engineering, University of Waterloo, Waterloo, Canadahttp:/www.pcl.uwaterloo.ca/ https:/uwaterloo.ca/mechanical-mechatronics-engineering/简介:The Precision Controls Laboratory conducts research on design, modeling, and control of precision motion delivery systems. Our key st
28、rengths are in the development of high-speed, high-accuracy tracking control laws, efficient and robust identification techniques for drive parameter estimation, and smooth trajectory planning algorithms for jerk-continuous spline interpolation and feedrate optimization. The main focus of our resear
29、ch concentrates on enabling the execution of complex movements in minimum time with highest accuracy, in multi-axis machines. Application areas include systems such as high speed machine tools, robots, and electronic/semiconductor manufacturing equipment.If you have an interest in precision motion d
30、elivery systems, and would like to share ideas or conduct research with us, we welcome you to contact us.论文:1 100 A heuristic feedrate optimization strategy for NURBS toolpaths2 256 Dimensional error analysis and its intelligent pre-compensation in cnc grinding3 1985A genetic algorithm for optimizat
31、ion of laminated dies manufacturing4 2104 Optimal tool shape selection based on surface geometry for three-axis CNC machining5 2124An evaluation testbed for wind turbine blade tip designs-baseline case6 2931 Optimization of slicing direction in laminated tooling for volume deviation reduction8 Depar
32、tment of Industrial and Systems Engineering, LehighUniversity, Bethlehem, PA 18015, USAhttp:/www.upenn.edu/programs/论文:1 152 Single CNC machine scheduling with controllable processing times and multiple due dates2 153 Scheduling preventive maintenance on a single CNC machine3 425 Optimization of a Flow Shop System of Initially Controllable Machines4 430 Bicriteria robotic cell scheduling5 769 Pure cycles in flexible robotic cells6
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