Computer Numerical Control

Integrating Advanced Computer-aided Design, Manufacturing, and Numerical Control: [Repost]  eBooks & eLearning

Posted by tanas.olesya at Feb. 26, 2016
Integrating Advanced Computer-aided Design, Manufacturing, and Numerical Control: [Repost]

Integrating Advanced Computer-aided Design, Manufacturing, and Numerical Control: Principles and Implementations by Xun Xu
English | 28 Feb. 2009 | ISBN: 1599047144, 1599047160 | 424 Pages | PDF | 11 MB

For many years, computers have been playing a prominent role in the process of product design and manufacture. As manufacturing continues to march into the future, there is a critical need to address the role of computer technologies in an integrated fashion, placing emphasis on product data exchange as well as product data management.
Integrating Advanced Computer-Aided Design, Manufacturing, and Numerical Control: Principles and Implementations

Xun Xu, “Integrating Advanced Computer-Aided Design, Manufacturing, and Numerical Control: Principles and Implementations”
Information Science Reference | 2008 | ISBN: 1599047144, 1599047160 | 424 pages | PDF | 10 MB

Advances in Computer, Communication, Control and Automation (Repost)  eBooks & eLearning

Posted by roxul at April 7, 2015
Advances in Computer, Communication, Control and Automation (Repost)

Yanwen Wu, "Advances in Computer, Communication, Control and Automation"
English | ISBN: 364225540X | 2012 | 820 pages | PDF | 41 MB
Numerical Control over Complex Analytic Singularities (Memoirs of the American Mathematical Society)

Numerical Control over Complex Analytic Singularities (Memoirs of the American Mathematical Society) by David B. Massey
Amer Mathematical Society | May 1, 2003 | English | ISBN: 0821832808 | 268 pages | PDF | 3 MB

The Milnor number is a powerful invariant of an isolated, complex, affine hyper surface singularity. It provides data about the local, ambient, topological-type of the hyper surface, and the constancy of the Milnor number throughout a family implies that Thom's $a_f$ condition holds and that the local, ambient, topological-type is constant in the family.
Computer-Aided Control Systems Design: Practical Applications Using MATLAB® and Simulink® (repost)

Computer-Aided Control Systems Design: Practical Applications Using MATLAB® and Simulink® by Cheng Siong Chin
English | ISBN: 1466568518 | 2013 | 384 pages | PDF | 17,4 MB

Computer-Aided Control Systems Design: Practical Applications Using MATLAB® and Simulink® supplies a solid foundation in applied control to help you bridge the gap between control theory and its real-world applications.
Computer-Aided Control Systems Design: Practical Applications Using MATLAB® and Simulink® (repost)

Computer-Aided Control Systems Design: Practical Applications Using MATLAB® and Simulink®
by Cheng Siong Chin
English | 2013 | ISBN: 1466568518 | 384 pages | PDF | 17.42 MB

Advances in Computer, Communication, Control and Automation  eBooks & eLearning

Posted by nebulae at Feb. 19, 2014
Advances in Computer, Communication, Control and Automation

Yanwen Wu, "Advances in Computer, Communication, Control and Automation"
English | ISBN: 364225540X | 2012 | 820 pages | PDF | 41 MB
Computer-Aided Control Systems Design: Practical Applications Using MATLAB® and Simulink®

Cheng Siong Chin, "Computer-Aided Control Systems Design: Practical Applications Using MATLAB® and Simulink®"
English | ISBN: 1466568518 | 2013 | 384 pages | PDF | 17 MB

Measurement and Control Basics, 4th edition (Repost)  eBooks & eLearning

Posted by roxul at May 12, 2017
Measurement and Control Basics, 4th edition (Repost)

Thomas A. Hughes, "Measurement and Control Basics, 4th edition"
English | ISBN: 1556179162 | 2007 | 377 pages | PDF | 18 MB

Lynda - Learning Mastercam  eBooks & eLearning

Posted by U.N.Owen at May 4, 2017
Lynda - Learning Mastercam

Lynda - Learning Mastercam
Size: 188 MB | Duration: 0h 56m | Video: AVC (.mp4) 1280x720 15&30fps | Audio: AAC 48KHz 2ch
Genre: eLearning | Level: Beginner | Language: English

Computer numerical control (CNC) milling is a subtractive process that allows you to carve digital 3D models out of blocks of solid material like foam, wood, plastic, or metal.