e-Science - PowerPoint PPT Presentation

About This Presentation
Title:

e-Science

Description:

e-Manufacturing: Fundamentals, Applications and Potentials Professor Kai Cheng Advanced Manufacturing & Enterprise Engineering (AMEE) Group School of Engineering ... – PowerPoint PPT presentation

Number of Views:125
Avg rating:3.0/5.0
Slides: 34
Provided by: MicrosoftCo225
Category:

less

Transcript and Presenter's Notes

Title: e-Science


1
e-Science
e-Manufacturing Fundamentals, Applications and
Potentials Professor Kai Cheng Advanced
Manufacturing Enterprise Engineering (AMEE)
Group School of Engineering Design, Brunel
University Uxbridge UB8 3PH, UK Tel
08195-267255 Fax 08195-269703 email
kai.cheng_at_brunel.ac.uk Dr Richard Bateman CERAM
Research Ltd Queens Road, Penkull Stoke-on-Trent,
UK. ST4 7LQ Tel (0) 1782 764349 email
richard.bateman_at_ceram.com
2
e-Science
Outline of the presentation
  • Background
  • - Why e-manufacturing?
  • - What is e-manufacturing?
  • e-Manufacturing fundamentals
  • - Internet enabled technologies
  • - Advanced technologies for e-manufacturing
  • - Internet and manufacturing knowledge
    management
  • - Computing infrastructure for e-manufacturing
  • e-Manufacturing applications and potentials
  • - Collaborative design and product development
  • - Mass customization and customer oriented
    e-manufacturing
  • - Remote control and condition monitoring
  • - Virtual manufacturing and systems
  • - e-Supply chain management
  • - e-Enterprise and global manufacturing
  • Conclusions and the future standing

3
e-Science
Why e-Manufacturing?
  • The characteristics of e-manufacturing emphases
    the new philosophy through which manufacturing
    will be operated in integration with Internet
    technology. e-manufacturing philosophy results
    from that the way people work is being changed by
    the Internet, for instance
  • Digitisation
  • Globalisation
  • Mobility
  • Collaborative work
  • Immediacy

4
e-Science
Manufacturing globalization - e-Manufacturing (1)
Manufacturing
Design
Sale
5
e-Science
Distributed manufacturing - e-Manufacturing (2)
6
e-Science
Development of manufacturing technology
Manufacturing
e-Manufacturing
Agile Manufacturing
Digital enterprise
Technology
CAX
Concurrent Engineering
engineering tools
TQM, MRP II
Just-In-Time
engineering tools
  • High precision
  • Automation

TQM
Lean Manufacturing
engineering tools
Computer Integrated
CAD/CAM, DNC
Manufacturing
robotics
Group technology
Flexible Manufacturing
CNC, robotics
Production line
Mass Production
automation
Towards 21st Century
7
e-Science
Transformation by e-Manufacturing
  • Mass production
  • Long pipeline
  • Sale from stock
  • Sequential processes
  • Cost of inventory
  • Wait in line
  • Mass customisation
  • Shrinking supply chain
  • Make to order
  • Simultaneous processes
  • Capital working
  • First available slot
  • - Manufacturing 2020 Foresight Report

8
e-Science
UK e-Science research program (2001
onward)
  • What is meant by e-Science? In the future,
    e-Science will refer to the large scale science
    that will increasingly be carried out through
    distributed global collaboration enabled by the
    Internet. Typically, a feature of such
    collaborative scientific enterprises is that they
    will require access to very large data
    collections, very large scale computing resources
    and high performance visualisation back to the
    individual user scientists.
  • The Core Program has been structured around 6 key
    elements
  • A national e-Science centre linked to a network
    of regional grid centres
  • Generic grid middleware and demonstrator
    projects
  • Grid IRC research projects
  • Support for e-Science testbeds
  • Participation in international grid projects and
    activities
  • Establishment of a grid network team
  • - http//www.rcuk.ac.uk/escience/

9
e-Science
EU 6th Framework - IST program (2004 onward)
  • Applied IST research addressing major societal
    and economic challenges
  • Towards a global dependability and security
    framework
  • Networked business and government
  • e-Safety for road and air transport
  • e-Health
  • Technology-enhanced learning and access to
    cultural heritage
  • Applications and services for the mobile user
    and worker
  • Cross media content for leisure and
    entertainment
  • Grid-based systems for solving complex problems
  • Improving risk management
  • e-Inclusion
  • Products and services engineering 2010
  • - http//www.cordis.lu/ist/activities/activities.
    htm

10
e-Science
What is e-Manufacturing? - (1)
e-manufacturing covers a range of online
manufacturing activities for products and
services, including product design, production
control and conditions monitoring, supply chain
management, maintenance and sale services, etc.,
through the Internet/Intranet/Extranet and grid
computing infrastructure.
11
e-Science
What is e-Manufacturing? - (2)
e-manufacturing is the complete electronic
(computer systems and networks) integration of
all factory components. Users range from
operators to technicians to engineers to
managers. - UK Industrial White Paper
(2002)
12
e-Science
e-Manufacturing fundamentals
  • Internet Enabled Technologies
  • - HTML
  • - Java programming
  • - XML
  • - Client/server architecture
  • - Java database connectivity
  • Advanced Technologies for e-Manufacturing
  • - Agent technology
  • - Multi-agent systems
  • - Data mining and knowledge discovery
  • - Grid computing
  • Internet and Manufacturing Knowledge Management
  • - Internet characteristics
  • - Design agility and the Internet
  • - Manufacturing responsiveness and the Internet
  • - CBR and web-based computational intelligence

13
e-manufacturing applications
e-Science
  • Application (1) - case studies
  • - Web-based bearing design support systems
  • - Web-based manufacturing assembly simulation
  • - Web-based intelligent (CBR) selection of
    cutting tool inserts
  • - Modelling and simulation of the extended
    enterprise operations based on dynamic Petri nets
  • - Remote condition monitoring and control of
    manufacturing systems
  • - Creative design search engine
  • - RFID application for diamond cutting tools
    tooling service
  • Application (2) - devolved manufacturing

14
Web-based Intelligent (CBR) Selection System for
Cutting Tool Inserts
e-Science
A proposed system architecture
Main CBR loop
Standard e-Catalogue search
CBR validation loop
Language selection
15
Modelling and Simulation of the Extended
Enterprise Operations Based on Dynamic Petri Nets
e-Science
INTERNET
ORGANISATION MODELS
PROCESS MODELS
CO-ORDINATOR
DESIGN
MANAGEMENT
MANUFACTURING ENTERPRISE
INTRANET/ INTERNET
REAL-TIME VISUALISATOIN
JAVA SIMULATION
DATABASE
INTRANET/ INTERNET
RESOURCES
PRODUCTS
EVENTS
EVENTS
16
Remote Condition Monitoring and Control of
Manufacturing Systems
e-Science
17
Creative Design Search Engine
e-Science
A search engine for innovative/creative
  • 3D models

Creative Design Innovative Manufacturing
18
RFID Application for Diamond Cutting Tools
Tooling Service
e-Science
19
Selected Milestone Publications (in
e-manufacturing) from the AMEE Group
e-Science
Books (1) K. Cheng, D. Webb and R. Marsh,
Advances in e-Engineering and Digital Enterprise
Technology I (Editors), Professional Engineering
Publishing, London, September 2004. (2) K. Cheng,
e-Manufacturing, Fundamentals and Applications,
WIT Press, London, February 2005. Journal
Papers (1) K. Cheng, P.Y. Pan and D.K. Harrison,
Internet as a tool with application to agile
manufacturing a web-based engineering approach
and its implementation issues, International
Journal of Production Research, Vol.38 No.12,
2000, pp.2743-2759. (2) K. Cheng, P.Y. Pan and
D.K. Harrison, Web-based design and manufacturing
support systems implementation perspectives,
International Journal of Computer Integrated
Manufacturing, Vol.14 No.1, 2001, pp.14-27. (3)
K. Cheng, M.L. Yang, G.E. Taylor and A. Dow,
Petri net as a tool with application in modelling
an Internet based virtual manufacturing
enterprise, International Journal of Agile
Manufacturing, Vol.4 No.2, 2002, pp.100-109. (4)
J. Toussaint and K. Cheng, Implementation of
design agility and manufacturing responsiveness
on the web two case studies, Integrated
Manufacturing Systems, Vol.13 No.5, 2002,
pp.328-339. (5) R. Bateman and K. Cheng, Devolved
manufacturing, Concurrent Engineering Research
and Applications, Vol.10 No.4, December 2002,
pp.291-297. (6) K. Cheng and Y. Popov, Internet
enabled modelling of extended manufacturing
enterprises using the process based techniques,
International Journal of Advanced Manufacturing
Technology, Vol.23 No.1, 2004, pp. 148-153. (7)
J. Toussaint and K. Cheng, Web-based CBR
(case-based reasoning) as a tool with the
application to tooling selection, International
Journal of Advanced Manufacturing Technology,
Vol. 26, 2006. (8) R. Bateman and K. Cheng,
Extending the product portfolio with devolved
manufacturing methodology and case studies,
International Journal of Production Research,
Vol.45, 2006.
20
Devolved Manufacturing (1)
e-Science
  • Current developments in e-manufacture are
    generally factory-centric
  • Transport/logistics problems increasing
    (gridlock Europe)
  • New technologies are available or emerging
  • New possibilities
  • Need to Think outside the box

Key areas for integration
21
Devolved Manufacturing (2)
e-Science
22
Mass Customisation
e-Science
MASS PRODUCTION
Outcome of industrial revolution Driven by
production and cost needs
Concept developed in 1980s Increases product
range by allowing customers to choose from range
of options Needs to be set up with care to avoid
extra overheads associated with increased product
variety
MASS CUSTOMISATION
MASS INDIVIDUALISATION
Ultimate goal of MC ?
23
Rapid Manufacturing (RM)
e-Science
1. The CAD model is sliced into layers
2. RM machine creates model
3. Finished Object
24
End-user Practitioner Surveys
e-Science
Breakdown of Systems by Type
Rise in Annual Sales of RP/RM machines (000s)
Global RP/RM Installations
Number of Patents Issued for RP/RM Technology
25
Case One CAL system
e-Science
Typical Race Clutch Construction
Central Splines in Friction Plate Hub
26
Case One CAL system
e-Science
System Menu
Search Existing Products
Input Spline Dimensions
View 3D Model
Send files for manufacture
Test Mfg at Brunel
27
Case Two wydiwyg.co.uk
e-Science
Use mini-CAD program
Home page
Details
Download mini-CAD program
View model in 3D
Stage ONE
Stage TWO
28
Case Two wydiwyg.co.uk
e-Science
Home Page
Upload CAD file
Make payment
Register
Find outlet
Confirmation
Outlet details
Test part
Stage THREE
29
Case Three Creatorium Portal
e-Science
Stakeholders in the CREATORIUM Portal
30
Case Three Creatorium Portal
e-Science
CREATORIUM relationship with Cases One and Two
31
Discussions
e-Science
  • Implementation key issues
  • Start points and direction
  • Organisational issues
  • Technology adoption
  • Strategies for DM
  • Design, legal and ethical issues
  • Control and management of a DM venture

32
e-Science
Acknowledgements
  • EPSRC
  • Royal Society
  • DTI TCS / Faraday Schemes
  • NATO Scientific Program
  • HEFCE
  • SHEFC

33
e-Science
Thank You!
Write a Comment
User Comments (0)
About PowerShow.com