COMPUTER AIDED DESIGN COMPUTER AIDED MANUFACTURING

Brand	Owner (click to sort)	Address	Description
CANFIT-PLUS	Vorum Research Corporation	8765 Ash Street, Suite #6 Vancouver, British Columbia V6P6T3 Canada	computer-aided design and computer-aided manufacturing software for prosthetics and orthotics devices;can fit plus;
COMPUTOOL	CompuTool Corporation	5600 Lincoln Dr. Minneapolis MN 55436	Computer-Aided Design and Computer-Aided Manufacturing (CAD/CAM) System, Comprising, Graphic Design Stations with Display Terminals and Host Computer Processor, a Multipurpose Data Translation System Used for Digitizing Objects in Two and Three Dimensions, Computerized Numeric Controlled Milling and Engraving Machine Tools and Computer Programs Therefor, All Sold as an Integrated System for the Design and Creation of Parts, Tooling, Dies, Molds and Fixtures;
CRISPIN	DELCAM LIMITED	Small Heath Business Park Birmingham B100HJ United Kingdom	computer-aided design and computer-aided manufacturing systems, comprising computer hardware and software for use in the design and manufacture of shoes;CRISP PIN;
CRISPIN	CRISPIN SYSTEMS LIMITED	DESFORD HALL LEICESTER LANE, DESFORD LEICESTERSHIRE LE9 9JJ United Kingdom	computer-aided design and computer-aided manufacturing systems, comprising computer hardware and software for use in the design and manufacture of shoes;CRISP PIN;
DELCAM CRISPIN	DELCAM LIMITED	Small Heath Business Park Birmingham B100HJ United Kingdom	Computer-aided design and computer-aided manufacturing systems comprising computer hardware and computer software for use in the design and manufacture of shoes; computer hardware and computer software all for use in the design and manufacture of shoes;Color is not claimed as a feature of the mark.;
	Where the owner name is not linked, that owner no longer owns the brand

Technical Examples

A method, system and apparatus for use in computer-aided design, computer-aided manufacturing, computer-aided engineering and product lifecycle management. An efficient, non-centralized communications framework makes "synchronous" collaborative design possible. Users are resident at workstations that are connected in a peer-to-peer arrangement. In a collaborative design session, the model is resident in memory at each workstation. Modifications are made at any workstation, and commands, which are interpreted at each workstation to effect the modifications, are transmitted over the network. In addition, cell descriptors may be used to identify one or more geometric cells of a model. The cell descriptors are in the form of scripts specifying constraints or filters for identifying cells. The constraints are based on characteristics of items in the model, or associations between items in a model, that are readily discernable to the user, and are therefore easily written and susceptible to easy distribution to other systems.