Remote Operation of CNC Milling Through Virtual Simulation and Remote Desktop Interface
Increasing the demand for effectively use of the
production facility requires the tools for sharing the manufacturing
facility through remote operation of the machining process. This
research introduces the methodology of machining technology for
direct remote operation of networked milling machine. The
integrated tools with virtual simulation, remote desktop protocol and
Setup Free Attachment for remote operation of milling process are
proposed. Accessing and monitoring of machining operation is
performed by remote desktop interface and 3D virtual simulations.
Capability of remote operation is supported by an auto setup
attachment with a reconfigurable pin type setup free technology
installed on the table of CNC milling machine to perform unattended
machining process. The system is designed using a computer server
and connected to a PC based controlled CNC machine for real time
monitoring. A client will access the server through internet
communication and virtually simulate the machine activity. The
result has been presented that combination between real time virtual
simulation and remote desktop tool is enabling to operate all machine
tool functions and as well as workpiece setup..
[1] Web-based manufacturing systems: a review, Int. journal. prod. res.,
2003, vol. 41, no. 15, 3601-3629.
[2] QIANG, L., ZHANG, Y. F. and NEE, A. Y. C., 2001, A distributive and
collaborative concurrent product design system through the
WWW/Internet. International Journal of Advanced Manufacturing
Technology, 17, 315-322.
[3] KIM, Y., CHOI, Y. and YOO, S. B., 2001, Brokering and 3D
collaborative viewing of mechanical part modelson the Web.
International Journal of Computer Integrated Manufacturing, 14, 28-40.
http://www.presshelpkey.com/remotemachining/MMS-Online-2.pdf
[4] Afzeri, R. Muhida, Darmawan, and A. N. Berahim, 2008, International
Journal of Computer, Information, and Systems Science, and
Engineering Vol 2 No.1.
[5] J.H. Yeh, F.W. Liou, 1999, Contact condition modelling for machining
fixture setup processes, Int. J. Mach. Tools Manuf. 39 787-803.
[6] R.O. Mittal, P.H. Cohen, B.J. Gilmore, 199, Dynamic modelling of the
fixture-workpiece system, Robot. Comput.-Integr. Manuf. 8 (4) 204-
2171.
[7] Shane P. Siebenaler, Shreyes N. Melkote, Prediction of workpiece
deformation in a fixture system using the finite element method,
International Journal of Machine Tools & Manufacture 4651-58, 2006.
[8] Afzeri, Nukhaie. B, International Journal of Computer Science and
Security, volume (2) issue (3), 34-41, 2008
[9] N. Amaral, J.J. Rencis, Y. Rong, 2004, Development of a finite element
analysis tool for fixture design integrity verification and optimisation,
International Journal of Advanced Manufacturing Technology 21 411-
419.
[10] E.Y.T. Tan, A.S. Kumar, J.Y.H. Fuh, A.Y.C. Nee, 2004, Modeling,
analysis and verification of optimal fixturing design, IEEE Transactions
on Automation Science and Engineering 1 (2) 121-132.
[11] A.S. Kumar, V. Subramaniam, K.C. Seow, 1999, Conceptual design of
fixtures using genetic algorithms, International Journal of Advanced
Manufacturing Technology 15, pp 79-84.
[12] Afzeri, A.G. E. Sutjipto, A.K.M. Nurul Amin, Riza Muhida, 2005,
Determination of pin configuration for clamping fixture by means of
solid model contact analysis, Proceedings of the International
Conference on Mechanical Engineering (ICME), Dhaka, Bangladesh.
[1] Web-based manufacturing systems: a review, Int. journal. prod. res.,
2003, vol. 41, no. 15, 3601-3629.
[2] QIANG, L., ZHANG, Y. F. and NEE, A. Y. C., 2001, A distributive and
collaborative concurrent product design system through the
WWW/Internet. International Journal of Advanced Manufacturing
Technology, 17, 315-322.
[3] KIM, Y., CHOI, Y. and YOO, S. B., 2001, Brokering and 3D
collaborative viewing of mechanical part modelson the Web.
International Journal of Computer Integrated Manufacturing, 14, 28-40.
http://www.presshelpkey.com/remotemachining/MMS-Online-2.pdf
[4] Afzeri, R. Muhida, Darmawan, and A. N. Berahim, 2008, International
Journal of Computer, Information, and Systems Science, and
Engineering Vol 2 No.1.
[5] J.H. Yeh, F.W. Liou, 1999, Contact condition modelling for machining
fixture setup processes, Int. J. Mach. Tools Manuf. 39 787-803.
[6] R.O. Mittal, P.H. Cohen, B.J. Gilmore, 199, Dynamic modelling of the
fixture-workpiece system, Robot. Comput.-Integr. Manuf. 8 (4) 204-
2171.
[7] Shane P. Siebenaler, Shreyes N. Melkote, Prediction of workpiece
deformation in a fixture system using the finite element method,
International Journal of Machine Tools & Manufacture 4651-58, 2006.
[8] Afzeri, Nukhaie. B, International Journal of Computer Science and
Security, volume (2) issue (3), 34-41, 2008
[9] N. Amaral, J.J. Rencis, Y. Rong, 2004, Development of a finite element
analysis tool for fixture design integrity verification and optimisation,
International Journal of Advanced Manufacturing Technology 21 411-
419.
[10] E.Y.T. Tan, A.S. Kumar, J.Y.H. Fuh, A.Y.C. Nee, 2004, Modeling,
analysis and verification of optimal fixturing design, IEEE Transactions
on Automation Science and Engineering 1 (2) 121-132.
[11] A.S. Kumar, V. Subramaniam, K.C. Seow, 1999, Conceptual design of
fixtures using genetic algorithms, International Journal of Advanced
Manufacturing Technology 15, pp 79-84.
[12] Afzeri, A.G. E. Sutjipto, A.K.M. Nurul Amin, Riza Muhida, 2005,
Determination of pin configuration for clamping fixture by means of
solid model contact analysis, Proceedings of the International
Conference on Mechanical Engineering (ICME), Dhaka, Bangladesh.
@article{"International Journal of Mechanical, Industrial and Aerospace Sciences:58901", author = "Afzeri and A.G.E Sujtipto and R. Muhida and M. Konneh and Darmawan", title = "Remote Operation of CNC Milling Through Virtual Simulation and Remote Desktop Interface", abstract = "Increasing the demand for effectively use of the
production facility requires the tools for sharing the manufacturing
facility through remote operation of the machining process. This
research introduces the methodology of machining technology for
direct remote operation of networked milling machine. The
integrated tools with virtual simulation, remote desktop protocol and
Setup Free Attachment for remote operation of milling process are
proposed. Accessing and monitoring of machining operation is
performed by remote desktop interface and 3D virtual simulations.
Capability of remote operation is supported by an auto setup
attachment with a reconfigurable pin type setup free technology
installed on the table of CNC milling machine to perform unattended
machining process. The system is designed using a computer server
and connected to a PC based controlled CNC machine for real time
monitoring. A client will access the server through internet
communication and virtually simulate the machine activity. The
result has been presented that combination between real time virtual
simulation and remote desktop tool is enabling to operate all machine
tool functions and as well as workpiece setup..", keywords = "Remote Desktop, PC Based CNC, Remote
Machining.", volume = "3", number = "5", pages = "559-4", }