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A TCP Learning Environment http:tcp'dcs'standrews'ac'uk

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{kg, alan, colin}_at_dcs.st-andrews.ac.uk * Site freely available for non-commercial use ... Aims to bridge the gap between theoretical and practical networking courses ... – PowerPoint PPT presentation

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Title: A TCP Learning Environment http:tcp'dcs'standrews'ac'uk


1
A TCP Learning Environmenthttp//tcp.dcs.st-andr
ews.ac.uk
  • Kristoffer Getchell, Alan Miller, Colin Allison
  • School of Computer Science
  • University of St Andrews
  • kg, alan, colin_at_dcs.st-andrews.ac.uk

Site freely available for non-commercial use
2
Presentation Overview
  • What is TCP View
  • Why is it needed
  • Educational Content
  • Interactivity
  • Delivery
  • Conclusion Evaluation
  • Questions?

3
What Is TCP View?
  • TCP View is a web delivered interactive learning
    resource
  • Allows users to interact with animations,
    visualisations and simulations of protocol
    behaviour
  • Can be used
  • Independently by learners
  • As part of a tutorial/practical session by
    learner/demonstrators
  • During lectures by lecturers/learners

4
What Is TCP View?
5
Why Is It Needed?
  • Aims to bridge the gap between theoretical and
    practical networking courses
  • Allows students to interact with theoretical
    material in a novel way
  • Provides users with an anytime-anywhere access
    learning resource
  • Tries to remove the traditional emphasis on dry,
    acronym filled lectures through the use of an
    alternative presentation medium

6
Educational Content
  • Split into 4 individual units
  • Introduction
  • Historical development, protocol design goals,
    packet structures
  • Connection Management
  • Connection setup teardown, connection
    lifecycle, TCP Finite State Machine
  • Data Flow
  • Congestion (and its avoidance!), transfer
    reliability, TCP Window evolution
  • Efficiency
  • Visualisation of simulated protocol behaviour
    under a variety of (user selectable) conditions

7
Educational Content
  • Split into 4 individual units
  • Introduction
  • Historical development, protocol design goals,
    packet structures
  • Connection Management
  • Connection setup teardown, connection
    lifecycle, TCP Finite State Machine
  • Data Flow
  • Congestion (and its avoidance!), transfer
    reliability, TCP Window evolution
  • Efficiency
  • Visualisation of simulated protocol behaviour
    under a variety of (user selectable) conditions

8
Introduction
9
Educational Content
  • Split into 4 individual units
  • Introduction
  • Historical development, protocol design goals,
    packet structures
  • Connection Management
  • Connection setup teardown, connection
    lifecycle, TCP Finite State Machine
  • Data Flow
  • Congestion (and its avoidance!), transfer
    reliability, TCP Window evolution
  • Efficiency
  • Visualisation of simulated protocol behaviour
    under a variety of (user selectable) conditions

10
Connection Management
11
Educational Content
  • Split into 4 individual units
  • Introduction
  • Historical development, protocol design goals,
    packet structures
  • Connection Management
  • Connection setup teardown, connection
    lifecycle, TCP Finite State Machine
  • Data Flow
  • Congestion (and its avoidance!), transfer
    reliability, TCP Window evolution
  • Efficiency
  • Visualisation of simulated protocol behaviour
    under a variety of (user selectable) conditions

12
Data Flow
13
Educational Content
  • Split into 4 individual units
  • Introduction
  • Historical development, protocol design goals,
    packet structures
  • Connection Management
  • Connection setup teardown, connection
    lifecycle, TCP Finite State Machine
  • Data Flow
  • Congestion (and its avoidance!), transfer
    reliability, TCP Window evolution
  • Efficiency
  • Visualisation of simulated protocol behaviour
    under a variety of (user selectable) conditions

14
Efficiency
15
Interactivity
  • Interactivity used to highlight various important
    characteristics
  • Image Maps allow user interaction with diagrams,
    graphs etc
  • Packet Flow Animations used to explore the
    process of transferring data between hosts
  • Sequence State Animations highlight event
    sequences reinforce the ordering of events
  • Simulations allow users to direct their own
    learning environment experimenting with
    parameters and obtaining feedback through 2D and
    3D interactive graphical representations

16
Interactivity
  • Interactivity used to highlight various important
    characteristics
  • Image Maps allow user interaction with diagrams,
    graphs etc
  • Packet Flow Animations used to explore the
    process of transferring data between hosts
  • Sequence State Animations highlight event
    sequences reinforce the ordering of events
  • Simulations allow users to direct their own
    learning environment experimenting with
    parameters and obtaining feedback through 2D and
    3D interactive graphical representations

17
Image Maps
18
Interactivity
  • Interactivity used to highlight various important
    characteristics
  • Image Maps allow user interaction with diagrams,
    graphs etc
  • Packet Flow Animations used to explore the
    process of transferring data between hosts
  • Sequence State Animations highlight event
    sequences reinforce the ordering of events
  • Simulations allow users to direct their own
    learning environment experimenting with
    parameters and obtaining feedback through 2D and
    3D interactive graphical representations

19
Packet Flow Animation
20
Interactivity
  • Interactivity used to highlight various important
    characteristics
  • Image Maps allow user interaction with diagrams,
    graphs etc
  • Packet Flow Animations used to explore the
    process of transferring data between hosts
  • Sequence State Animations highlight event
    sequences reinforce the ordering of events
  • Simulations allow users to direct their own
    learning environment experimenting with
    parameters and obtaining feedback through 2D and
    3D interactive graphical representations

21
Sequence State Animations
22
Interactivity
  • Interactivity used to highlight various important
    characteristics
  • Image Maps allow user interaction with diagrams,
    graphs etc
  • Packet Flow Animations used to explore the
    process of transferring data between hosts
  • Sequence State Animations highlight event
    sequences reinforce the ordering of events
  • Simulations allow users to direct their own
    learning environment experimenting with
    parameters and obtaining feedback through 2D and
    3D interactive graphical representations

23
Simulations
24
(No Transcript)
25
Delivery
  • Server
  • Standard Apache 2 Web Server with Server Side
    Includes enabled
  • Perl scripts used to power simulations
  • gnuplot/Java Applets used to produce
    visualisations
  • Client
  • Windows/Linux/MacOS X supported (tested!)
  • Standard Web Browser (IE, Firefox, Mozilla etc)
  • Java Runtime Macromedia Flash Player

26
Reference Further Study
  • To aid further independent study a number of
    external links are provided within the TCP View
    site
  • RFCs
  • Seminal Papers
  • Protocol Stack Implementations
  • Slides (including this set!)

27
Future Work
  • TCP View has targeted the main aspects of TCP,
    but other areas could be included
  • Sliding Window Protocol
  • Congestion Control
  • Develop the hands-on approach further
  • TCP Virtual Experimentation Lab
  • Provide structured learning activities
  • IMS-LD packaging?
  • Use the TCP View lessons to develop further
    learning resources for other areas
  • WIFI, Routing, IP

28
Conclusion Evaluation
  • Project has been used in lectures and as a take
    home resource as part of an undergraduate
    networking course
  • Limited User Testing and Evaluation has been
    conducted
  • Initial feedback has been positive, but further
    testing and evaluation is required (will be
    undertaken in the forthcoming academic year)

29
Acknowledgements
  • The Higher Education Academy works with
    universities and colleges, discipline groups,
    individual staff and organisations to help them
    deliver the best possible learning experience for
    all students.
  • The main purpose of Saltire Filta grants is to
    encourage the development of new patterns of
    learning and teaching, especially where the
    innovation or development requires pump-priming
    finance that cannot be provided from normal
    departmental resources.

30
Questions?
  • Site available at
  • http//tcp.dcs.st-andrews.ac.uk
  • Comments/feedback greatly welcomed
  • kg, alan, colin_at_dcs.st-andrews.ac.uk

Site freely available for non-commercial use
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