Exam Details
Subject | computer integrated manufacturing | |
Paper | ||
Exam / Course | pddc | |
Department | ||
Organization | Gujarat Technological University | |
Position | ||
Exam Date | May, 2017 | |
City, State | gujarat, ahmedabad |
Question Paper
1
Seat No.: Enrolment
GUJARAT TECHNOLOGICAL UNIVERSITY
PDDC SEMESTER VIII- EXAMINATION SUMMER 2017
Subject Code: X81903 Date: 05/05/2017
Subject Name: COMPUTER INTEGRATED MANUFACTURING
Time: 10.30AM to 01.00PM Total Marks: 70
Instructions:
1. Attempt all questions.
2. Make suitable assumptions wherever necessary.
3. Figures to the right indicate full marks.
Q.1
State various models of CIM. Explain any one in detail.
07
Explain axis designation for CNC machines.
07
Q.2
Explain G00, G01 and G03 codes with appropriate example.
07
What are canned cycles? What is the difference between a canned cycle and subroutine? Discuss how a canned cycle can be useful in writing a part program.
07
OR
What is DNC? What are the advantages of using DNC on the shop floor?
07
Q.3
Define GT. Explain OPITZ coding system for GT.
07
Explain different types of flexibilities in FMS.
07
OR
Q.3
Explain AS/RS and AGV for manufacturing system.
07
Explain JIT technique used in auto industries.
07
Q.4
Define robot. Discuss the different types of sensors used in robotics.
07
Explain different applications of robots.
07
OR
Q.4
Explain with neat diagram Retrieval type CAPP system.
07
List inputs of MRP and explain each of them in detail.
07
Q.5
Distinguish between FMS and FMC.
07
Explain open loop and closed loop control system of CNC machines.
07
OR
Q.5
Explain role of Computer in Industry
07
What are the benefits of CIM?
.
07
Seat No.: Enrolment
GUJARAT TECHNOLOGICAL UNIVERSITY
PDDC SEMESTER VIII- EXAMINATION SUMMER 2017
Subject Code: X81903 Date: 05/05/2017
Subject Name: COMPUTER INTEGRATED MANUFACTURING
Time: 10.30AM to 01.00PM Total Marks: 70
Instructions:
1. Attempt all questions.
2. Make suitable assumptions wherever necessary.
3. Figures to the right indicate full marks.
Q.1
State various models of CIM. Explain any one in detail.
07
Explain axis designation for CNC machines.
07
Q.2
Explain G00, G01 and G03 codes with appropriate example.
07
What are canned cycles? What is the difference between a canned cycle and subroutine? Discuss how a canned cycle can be useful in writing a part program.
07
OR
What is DNC? What are the advantages of using DNC on the shop floor?
07
Q.3
Define GT. Explain OPITZ coding system for GT.
07
Explain different types of flexibilities in FMS.
07
OR
Q.3
Explain AS/RS and AGV for manufacturing system.
07
Explain JIT technique used in auto industries.
07
Q.4
Define robot. Discuss the different types of sensors used in robotics.
07
Explain different applications of robots.
07
OR
Q.4
Explain with neat diagram Retrieval type CAPP system.
07
List inputs of MRP and explain each of them in detail.
07
Q.5
Distinguish between FMS and FMC.
07
Explain open loop and closed loop control system of CNC machines.
07
OR
Q.5
Explain role of Computer in Industry
07
What are the benefits of CIM?
.
07
Other Question Papers
Subjects
- advance electronics
- advance power system - ii
- advanced fluid mechanics
- advanced power electronics – i
- advanced power system - i
- advanced structural analysis
- advanced surveying
- analog & digital electronics
- antenna & wave propagation
- audio video engineering
- basic electronics
- building and town planning
- cim
- circuits and networks
- commissioning of electrical equipments
- complex variables and partial differential equations
- computer aided design
- computer integrated manufacturing
- computer programming & utilisation
- concrete technology
- constitution of india
- construction
- control engineering
- control systems
- control theory
- data communication and networking
- design of hydraulic structures
- digital communication
- digital signal processing
- dock, harbour and airport engineering
- dynamics of machinery
- earthquake engineering
- effective technical communication
- electrical drives & traction
- electrical engineering
- electrical machine design i and ii
- electrical machine-iii
- electrical machines & electronics
- electrical machines i & ii
- electrical power
- electromagnetics theory
- electronic communication
- elements of electrical design
- elements of electrical engineering
- elements of mechanical and structural
- embedded system
- engineering electromagnetics
- engineering geology
- engineering thermodynamics
- environmental engineering
- fluid mechanics
- fluid power engineering
- foundation engineering
- heat and mass transfer
- high voltage engineering
- highway engineering
- hydrology and water resources engineering
- industrial engineering
- industrial instrumentation
- industrial safety and maintenance engineering
- integrated circuits and applications
- interconnected power systems
- irrigation engineering
- irrigation water management
- kinematics of machines
- machine design - ii
- machine design & industrial drafting
- machine design-i
- manufacturing process - i
- material science & metallurgy
- mechanical measurement & metrology
- mechanics of solids
- microcontroller and interfacing
- microprocessor & interfacing
- microwave engineering
- operation research
- optical communication
- power electronics
- power electronics-i
- power electronics-ii
- power plant engineering
- power system analysis and simulation
- power system practice and design
- power system protection
- probability, statistics and numerical methods
- professional practice & valuation
- railway, bridges and tunnels
- refrigeration and air conditioning
- satellite communication
- soil engineering
- structural analysis - i
- structural analysis - ii
- structural design - i
- structural design - ii
- surveying
- switchgear
- theory of electromagnetics
- theory of machines
- thermal engineering
- urban transportation system
- vlsi technology and design
- wireless communication