1. ME 2402 – COMPUTER INTEGRATED
MANUFACTURING (CIM)
YEAR/SEMESTER : IV/VII
UNIT II – COMPONENTS OF CIM
Prepared By
MANIMARAN.M
ASSISTANT PROFESSOR
K.RAMAKRISHNAN COLLEGE OF ENGINEERING
TRICHY 1/25/2016 1M.MANIMARAN KRCE TRICHY
2. UNIT II COMPONENTS OF CIM
CIM as a concept and a technology, CASA/SME model of CIM,
CIM II, benefits of CIM, communication matrix in CIM,
fundamentals of computer communication in CIM – CIM data
transmission methods – serial, parallel, asynchronous,
synchronous, modulation, demodulation, simplex and duplex.
Types of communication in CIM – point to point (PTP), star and
multiplexing. Computer networking in CIM – the seven layer
OSI model, LAN model, MAP model, network topologies – star,
ring and bus, advantages of networks in CIM
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3. WHAT IS CIM?
The term CIM comprises three words – computer, integrated and
manufacturing. CIM is the application of computers in manufacturing
in an integrated way.
CIM is an attempt to combine computer technologies in order to
manage and control the entire business and manufacturing.
CIM is the computerization of design, manufacturing, distribution
and financial/business function into one coherent system.
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4. 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.
CASA/SME
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6. Is CIM a concept or a technology?
CIM is both a concept and a technology. For, top
management, CIM is a concept, a blueprint for
success. For, middle management and line managers,
CIM is a technology, a physical realization of resources
that are more capable and flexible.
- Kant Vajpayee and Reiden
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7. Historical review of CIM
• 1909 – Ford’s concepts of Production lines were used
• 1923 – Automatic transfer lines were introduced.
• 1952 – Generation of punched paper tapes
• 1954 – First NC Milling machine used.
• 1959 – application of control using digital computer
• 1960 – First NC Control Unimate Robot was installed.
• 1963 – Sketchpad usage
• 1965 – International business machines developed.
• 1973 – CNC – DNC Concepts developed
• 1980 - Concept of FMS established.
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8. WHY CIM?
• To meet Competitive pressures.
• To coordinate and Organize data.
• To eliminate paper and cost associated with its use.
• To automate communication within a factory
• To facilitate simultaneous engineering.
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9. Objectives of CIM
The main aim of CIM is to use the advanced information processing
technology into all areas of manufacturing industry
More productive and efficient
Increase product reliability
Decrease the cost of production and maintenance
Reduces the number of hazardous jobs
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10. CIM I VS CIM II
CIM I – COMPUTER INTERFACED MANUFACTURING
aimed at interfacing the existing systems
result of the fourth generation of computers (data
interfacing)
CIM II – COMPUTER INTEGRATED MANUFACTURING
the integration of total manufacturing enterprises through
the use of integrated systems and data communications
result of the fifth generation of computers (networking)
finally, CIM II is a true CIM which means at true integration
of systems
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13. Islands of automation
Islands of Automation represents the various technologies that
facilitates manufacturing automation in isolation, without having
integrated with other manufacturing technologies.
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14. The new SME manufacturing enterprise wheel
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16. CIM SOFTWARE
• Design Program
• DBMS Program
• MIS Program
• Analysis Program
• Monitoring Program
• Bar Code Program
• Conveyor Program
• Job Tracking Program
• Simulation program
• Communications program
• Production control program
• Marketing program
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17. Potentials Benefits of CIM
• TANGIBLE BENEFITS
Higher Profits, Improved Quality, Lower Cost, Reduced Scrap and
Rework, Increased Factory Capacity, Shorter Lead Time, Improved
Performance, Reduced Inventory, Increased Manufacturing
Productivity, Increased machine utilization, Etc.
• INTANGIBLE BENEFITS
Customer Service, Greater Flexibility, Greater Responsiveness,
Improved Competitiveness, Safer Working Environment, Higher
Employee Morale, More opportunities for upgrading skills Etc..
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21. Data communications and components
Data communication is the exchange of data between two devices
via some form of transmission medium
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22. NETWORKS
A communication network is a collection of equipment and physical
media that interconnects two or more communication devices
ADVANTAGES OF NETWORKS
• More efficient Management of Resources
• Networks help keep information reliable and up-to-date.
• Network help speed up data sharing
• Network help in business service their clients more effectively.
• Networks greatly expand a business marketing and customer service
capability.
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23. TYPES OF NETWORKS
1. Local Area Networks (LANs)
Client/Server
Peer to Peer
2. Metropolitan Area Networks (MANs)
3. Wide Area Networks (WANs)
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24. Local area networks
LAN is privately owned communications network that serves users with in a confined
geographical area (example office, a group of building close together, and college
campus ).
Now days, LAN have data rates reached 100 Mbps with GB systems
Realize large productivity and cost savings to organizations
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25. Types of LAN
1. Client/server
Requesting microcomputers called client
Supplying devices called servers
One or more administrator can manage security
and permission, convenient backup,
reduces network traffic
2. Peer-to-Peer
All microcomputers on the network communicate
Directly with one another without relying on a server
Every computer act as both client & server
Security is not an issue
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26. Metropolitan area networks (MANS)
• Communications network covering a geographic area the size of a
city
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27. Wide area networks (WANs)
WAN it provides long-distance transmission of data over large
geographical areas that may comprise the whole world.
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28. Network topology (types of communication line)
The geometric representation of the relationship of all the links and
linking devices to each other.
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29. STAR (or) RADIAL TOPOLOGY
• Each devices has a dedicated point-to-point link only to a central
controller as a HUB it is also called as point-to-point (PTP) connection
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30. TREE TOPOLOGY
The majority of devices connect to a secondary hub that in turn is
connected to the central hub
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31. BUS TOPOLOGY
• Nodes are connected to the bus cable by drop lines and taps. Drop line is
a connection running between the device and the main cable. Tap is a
connector
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32. RING TOPOLOGY
• Each device is connected to two and only to neighboring devices.
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34. DATA FLOW(TRANSMISSION MODE)
• Transmission modes refers to the direction of information flow
between two devices. There are three types of transmission modes,
Simplex Transmission
Half – duplex Transmission
Full – duplex Transmission
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35. COMPONENTS OF LAN
Connection or Cabling Systems.
Microcomputer with interface cards
Network operating system
Repeaters
Bridges
Routers
Gateway
Other Shared devices.1/25/2016 M.MANIMARAN KRCE TRICHY 35
36. TYPES OF TRANSMISSION
• ANALOG TRANSMISSION
• DIGITAL TRANSMISSION
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37. MODES OF DIGITAL DATA TRANSMISSION
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39. MULTIPLEXERS
Multiplexers – is a device that connect several low speed transmission
into one high speed transmission
Concentrators
Front-end processors
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40. TRANSMISSION MEDIA
• GUIDED MEDIA
TWISTED PAIR CABLE
COAXIAL CABLE
FIBER OPTIC CABLE
• UNGUIDED MEDIA
FREE SPACE
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41. NETWORK/MEDIUM ACCESS CONTROL METHOD FOR
LAN’S
Voltage variation
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CSMA/CD Token passing
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42. NETWORK ARCHITECTURES and PROTOCOLS
Network architecture describes the components, the functions performed,
and the interfaces and interactions between the components of a network.
Open system interconnection (OSI) or (ISO/OSI Reference model)
Developed by ISO, to open communication b/w different systems without requiring changes to the
logic of the underlying software and hardware
Manufacturing Automation Protocol (MAP)
subset of the ISO protocol designed to meet the needs of the factory automation
The Technical and Office Protocol (TOP)
subset of the OSI/ISO standards for technical and office applications
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46. Functions of the OSI layer(Contd..,)
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47. Goals of OSI Model
To provide a standards for communication b/w systems
Remove any technical impediment
To define point of intersection for the exchange of information b/w systems
Organizations of OSI
IEC – International electro technical commission
ISO – International Organization of Standardization
CEN – European Committee for Standardization
EWOS – European Workshop on System
ECMA – European Computer Manufacturers Association
ANSI – American National Standards Institute
IEEE – Institute Of Electrical And Electronic Engineer
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49. IMPORTANT QUESTIONS
1. Explain the concept and scope of CIM.
2. Define CIM and elaborate on the benefits of CIM in a manufacturing
organisation.
3. Explain the CASA / SME CIM wheel model with a neat sketch.
4. Explain the fundamentals of computer communication in CIM .
5. Explain the various CIM data transmission
6. State and brief about the types of communication in CIM
7. Define Computer networking in CIM and explain OSI model in detail
8. Explain about the types of computer networks its advantages and the
topologies.
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