Computer-integrated manufacturing (CIM) is a manufacturing approach that uses computers to control the entire production process. CIM can make manufacturing faster and less error-prone. CIM can also be considered as an integration of all enterprise operations that work with a common data repository. CIM combines different applications and technologies, such as: Computer-aided design (CAD) Computer-aided engineering Robotics Manufacturing resource planning Enterprise management solutions The primary goals of CIM are to: Improve customer service Increase flexibility Boost... Show more Computer-integrated manufacturing (CIM) is a manufacturing approach that uses computers to control the entire production process. CIM can make manufacturing faster and less error-prone. CIM can also be considered as an integration of all enterprise operations that work with a common data repository. CIM combines different applications and technologies, such as: Computer-aided design (CAD) Computer-aided engineering Robotics Manufacturing resource planning Enterprise management solutions The primary goals of CIM are to: Improve customer service Increase flexibility Boost productivity Enhance product quality Sustain profitable operations Some major components of CIM are: Data storage, retrieval, manipulation, and presentation mechanisms Real-time sensors for sensing the current state and for modifying processes Data processing algorithms Some major elements of a CIM system are: Marketing, Product design, Planning, Purchase, Manufacture, Automated work station, Warehousing, Finance. Related Tests: Manufacturing Engineering Practice Test: Manufacturing Process Automation Manufacturing Engineering Practice Test: Computer Aided Manufacturing Show less
Computer-integrated manufacturing (CIM) is a manufacturing approach that uses computers to control the entire production process. CIM can make manufacturing faster and less error-prone. CIM can also be considered as an integration of all enterprise operations that work with a common data repository.
CIM combines different applications and technologies, such as: Computer-aided design (CAD) Computer-aided engineering Robotics Manufacturing resource planning Enterprise management solutions
The primary goals of CIM are to: Improve customer service Increase flexibility Boost productivity Enhance product quality Sustain profitable operations
Some major components of CIM are: Data storage, retrieval, manipulation, and presentation mechanisms Real-time sensors for sensing the current state and for modifying processes Data processing algorithms
Some major elements of a CIM system are: Marketing, Product design, Planning, Purchase, Manufacture, Automated work station, Warehousing, Finance.
Related Tests:
Manufacturing Engineering Practice Test: Manufacturing Process Automation
Manufacturing Engineering Practice Test: Computer Aided Manufacturing
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