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Systems Engineering Project: System Validation and Verification Using SDL

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Title: Systems Engineering Project: System Validation and Verification Using SDL


1
Systems Engineering ProjectSystem Validation
and VerificationUsing SDL
Ron Henry ENSE 623 November 30, 2004
2
Formalisms for Automated VV
  • Several standard notations have evolved in
    support of automated validation and verification
  • Specification and Description Language (SDL)
  • Message Sequence Charts (MSC)
  • Test and Test Control Notation (TTCN)
  • These formalisms are considered complementary
  • MSCs (familiar from UML sequence diagrams) are
    used both to specify requirements and to trace
    execution
  • SDL is used to specify the system architecture
    and state-machine model
  • TTCN is an abstract representation for test cases

3
Characteristics of SDL
  • Major language features
  • Formal, hierarchical data flow diagrams
  • Extended finite state machines (EFSMs)
  • Local variables
  • Timers
  • SDL Evolution
  • Widely used in telecommunications industry
  • First ITU Z.100 recommendation in 1980
  • Updated every ?4 years
  • SDL-92 added support for object-oriented features
  • SDL-2000 adds support for hierarchical EFSMs
    (equivalent to Statecharts)

4
Commercial Tools for SDL-Based VV
  • Tools can provide a variety of functions
  • Graphical editing syntax checking
  • Model checking (static analysis)
  • Executable simulation animation of a model
  • Validation of a model against a use case
  • Specification-based generation of test cases
  • Telelogic appears to be market leader in this
    area
  • Tau/SDL is one of the leading tools
  • ObjectGeode also acquired by Telelogic
  • SAFIRE-SDL by Solinet
  • Tau/SDL was used for this project
  • 15 licenses available under arrangement with UMD
    (handled through Prof. Basili in CS dept.)
  • C compiler (Borland recommended) must be
    installed in order to generate executables for
    simulation and validation

5
General Methodology
6
Remote Observing Platform System Context
7
Remote Observing Platform Domain Model
8
MSC TurnOnInstrument
9
MSC TurnOffInstrument
10
MSC Observe
11
Tau/SDL Model Structure
12
Observatory System Diagram
13
InstrumentModule Block Diagram
14
CAM1 Block Diagram
15
Shutter Process Diagram
16
CameraManager Process Diagram
17
Inheritance in SDL HomingCameraManager
18
Tau/SDL Simulator User Interface
19
MSC Observe Process-Level Simulator Trace
20
Tau/SDL Validator User Interface
21
Tau/SDL Validator Report Summary
22
Tau/SDL Validator Trace Implicit Signal
Consumption
23
Model Validation MSC TurnOnInstrument
24
Model Validation MSC Observe
25
MSC-Based Testing TTCN Structure
26
Test Case Generated from Observe MSC
27
VV with SDL Project Summary
  • This project has demonstrated a robust framework
    for VV based on SDL
  • Hierarchical data flow diagrams are well suited
    to formalizing complex system architectures
  • VV is accomplished through following steps
  • 1. Basic usability testing and sanity checking is
    done manually using a simulator
  • 2. SDL model is automatically validated against
    use cases in the form of MSCs
  • 3. MSCs are then used to generate TTCN test cases
  • Tau/SDL is a powerful tool, but its complexity
    presented challenges
  • Not all features worked
  • Generated executables subject to unexplained
    crashes
  • Error messages not always clear
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