A Contract-Based Methodology for Aircraft Electric Power System Design
Pierluigi Nuzzo, Huan Xu, Necmiye Ozay, John B. Finn, Alberto Sangiovanni-Vincentelli, Richard Murray, Alexandre Donze, Sanjit Seshia

Citation
Pierluigi Nuzzo, Huan Xu, Necmiye Ozay, John B. Finn, Alberto Sangiovanni-Vincentelli, Richard Murray, Alexandre Donze, Sanjit Seshia. "A Contract-Based Methodology for Aircraft Electric Power System Design". IEEE Access, March 2014.

Abstract
In an aircraft electric power system, one or more supervisory control units actuate a set of electromechanical switches to dynamically distribute power from generators to loads, while satisfying safety, reliability and real-time performance requirements. To reduce expensive re-design steps, this control problem is generally addressed by minor incremental changes on top of consolidated solutions. A more systematic approach is hindered by a lack of rigorous design methodologies that allow estimating the impact of earlier design decisions on the final implementation. To achieve an optimal implementation that satisfies a set of requirements, we propose a platform-based methodology for electric power system design, which enables independent implementation of system topology (i.e. interconnection among elements) and control protocol by using a compositional approach. In our flow, design space exploration is carried out as a sequence of refinement steps from the initial specification towards a final implementation by mapping higher-level behavioral and performance models into a set of either existing or virtual library components at the lower level of abstraction. Specifications are first expressed using the formalisms of linear temporal logic, signal temporal logic and arithmetic constraints on Boolean variables. To reason about different requirements, we use specialized analysis and synthesis frameworks and formulate assume-guarantee contracts at the articulation points in the design flow. We show the effectiveness of our approach on a proof-of-concept electric power system design.

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Citation formats  
  • HTML 
    Pierluigi Nuzzo, Huan Xu, Necmiye Ozay, John B. Finn,
Alberto Sangiovanni-Vincentelli, Richard Murray, Alexandre
Donze, Sanjit Seshia. <a
href="http://www.terraswarm.org/pubs/239.html"
>A Contract-Based Methodology for Aircraft Electric Power
System Design</a>, <i>IEEE Access</i>,
March 2014.
  • Plain text 
    Pierluigi Nuzzo, Huan Xu, Necmiye Ozay, John B. Finn,
Alberto Sangiovanni-Vincentelli, Richard Murray, Alexandre
Donze, Sanjit Seshia. "A Contract-Based Methodology for
Aircraft Electric Power System Design". <i>IEEE
Access</i>, March 2014.
  • BibTeX 
    @article{NuzzoXuOzayFinnSangiovanniVincentelliMurrayDonzeSeshia14_ContractBasedMethodologyForAircraftElectricPowerSystem,
    author = {Pierluigi Nuzzo and Huan Xu and Necmiye Ozay and
              John B. Finn and Alberto Sangiovanni-Vincentelli
              and Richard Murray and Alexandre Donze and Sanjit
              Seshia},
    title = {A Contract-Based Methodology for Aircraft Electric
              Power System Design},
    journal = {IEEE Access},
    month = {March},
    year = {2014},
    abstract = {In an aircraft electric power system, one or more
              supervisory control units actuate a set of
              electromechanical switches to dynamically
              distribute power from generators to loads, while
              satisfying safety, reliability and real-time
              performance requirements. To reduce expensive
              re-design steps, this control problem is generally
              addressed by minor incremental changes on top of
              consolidated solutions. A more systematic approach
              is hindered by a lack of rigorous design
              methodologies that allow estimating the impact of
              earlier design decisions on the final
              implementation. To achieve an optimal
              implementation that satisfies a set of
              requirements, we propose a platform-based
              methodology for electric power system design,
              which enables independent implementation of system
              topology (i.e. interconnection among elements) and
              control protocol by using a compositional
              approach. In our flow, design space exploration is
              carried out as a sequence of refinement steps from
              the initial specification towards a final
              implementation by mapping higher-level behavioral
              and performance models into a set of either
              existing or virtual library components at the
              lower level of abstraction. Specifications are
              first expressed using the formalisms of linear
              temporal logic, signal temporal logic and
              arithmetic constraints on Boolean variables. To
              reason about different requirements, we use
              specialized analysis and synthesis frameworks and
              formulate assume-guarantee contracts at the
              articulation points in the design flow. We show
              the effectiveness of our approach on a
              proof-of-concept electric power system design.},
    URL = {http://terraswarm.org/pubs/239.html}
}

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