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Computer Integrated Manufacturing
1.
2. Definition of CIM
“CIM is the integration of the total
manufacturing enterprise through the use
of integrated systems and data
communications coupled with new
managerial philosophies that improve
organizational and personnel efficiency.”
Computer-integrated manufacturing (CIM)
is the manufacturing approach of
using computers to control the entire
production process.
3. What is CIM?
CIM is the integration of all enterprise operations
and activities around a common corporate data
repository.
It is the use of integrated systems and data
communications coupled with new managerial
philosophies.
CIM is not a product that can be purchased and
installed.
It is a way of thinking and solving problems.
This integration allows individual processes to
exchange information with each other and initiate
actions.
4. Potential Benefits of CIM
Improved customer service
Improved quality
Shorter time to market with new products
Shorter flow time
Shorter vendor lead time
Reduced inventory levels
Improved schedule performance
Greater flexibility and responsiveness
Improved competitiveness
Lower total cost
Shorter customer lead time
Increase in manufacturing productivity
Decrease in work-in process inventory
5. Role of Computer in Manufacturing
The computer has had a substantial impact on
almost all activities of a factory.
The operation of a CIM system gives the user
substantial benefits:
Reduction of design costs by 15-30%;
Reduction of the in-shop time of a part by 30-60%;
Increase of productivity by 40-70%;
Better product quality, reduction of scrap 20-50%.
6. Manufacturing Method
As a method of manufacturing, three components
distinguish CIM from other manufacturing
methodologies:
Means for data storage, retrieval, manipulation and
presentation;
Mechanisms for sensing state and modifying processes;
Algorithms for uniting the data processing component
with the sensor/modification component.
CIM is an example of the implementation
of Information and Communication Technologies(ICTs)
in manufacturing.
8. Key challenges
There are three major challenges for the development of a smoothly
operating computer-integrated manufacturing system:
Integration of components from different suppliers: When
different machines, such as CNC, conveyors and robots, are using
different communications protocols. In the case of AGVs (automated
guided vehicles), even differing lengths of time for charging the
batteries may cause problems.
Data integrity: The higher the degree of automation, the more
critical is the integrity of the data used to control the machines.
While the CIM system saves on labor of operating the machines, it
requires extra human labor in ensuring that there are proper
safeguards for the data signals that are used to control the machines.
Process control: Computers may be used to assist the human
operators of the manufacturing facility, but there must always be a
competent engineer on hand to handle circumstances which could
not be foreseen by the designers of the control software.
9. Subsystems in computer-
integrated manufacturing
CAD (Computer-Aided Design) involves the use of
computers to create design drawings and product models.
CAE (Computer-Aided Engineering) is the broad usage
of computer software to aid in engineering tasks .
CAM (Computer-Aided Manufacturing) is the use of
computer software to control machine tools and related
machinery in the manufacturing of work pieces.
CAPP (Computer-Aided Process Planning) is the use of
computer technology to aid in the process planning of a
part or product, in manufacturing.
10. Cont…
CAQ (Computer-Aided Quality Assurance) is the
engineering application of computers and computer
controlled machines for the inspection of the quality of
products.
PPC (Production Planning and Control) A production (or
manufacturing) planning and control (MPC) system is
concerned with planning and controlling all aspects of
manufacturing, including materials, scheduling machines and
people, and coordinating suppliers and customers.
ERP (Enterprise Resource Planning) systems integrate
internal and external management information across an
entire organization, embracing finance/accounting,
manufacturing, and sales and services.
15. ‘CIMOSA’ (Computer Integrated
Manufacturing Open System Architecture)
CIMOSA provides a solution for business
integration with four types of products:
The CIMOSA Enterprise Modeling Framework, which
provides a reference architecture for enterprise
architecture.
CIMOSA IIS, a standard for physical and application
integration.
CIMOSA Systems Life Cycle, is a life cycle model for CIM
development and deployment.
Inputs to standardization, basics for international
standard development.
16. Advantages Disadvantages
Responsiveness to shorter Unfamiliar technologies
product life cycles used.
Better process control
emphasizes product quality Requires major change in
and uniformity. corporate culture.
Supports and co-ordinates Reduction in short term
exchange of information profit.
Designs components for Perceived risk is high.
machines.
Decreases the cost of High maintenance cost and
production and maintenance expensive implementation.
17. Conclusion
Computer-integrated manufacturing (CIM) is
the manufacturing approach of using computers to
control the entire production process.
This integration allows individual processes to
exchange information with each other and initiate
actions.
Through the integration of computers,
manufacturing can be faster and less error-prone,
although the main advantage is the ability to create
automated manufacturing processes