Infrastructure System Simulation Interoperability Using the High-Level Architecture

Grogan, Paul; Weck, Olivier L. de

doi:10.1109/jsyst.2015.2457433

Cited by 17 publications

(10 citation statements)

References 32 publications

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“…Co-simulation requires an interface between each pair of dependent systems. To simplify the co-simulation architecture, this section adopts the infrastructure system-of-systems (ISoS) modelling framework (Grogan & de Weck 2015) as a common interface among all constituent systems that can be implemented using the HLA (Grogan & de Weck 2018). The ISoS framework defines contextual, structural and behavioural templates to guide constituent model development efforts.…”

Section: Co-simulation Platform and Interfacesmentioning

confidence: 99%

“…Ideally, supply should meet demand for each resource type, for example, Food Out from the agricultural system should equal Food In for the co-located Societal System; however, an iterative convergence process driven by system controllers to optimize production under interdependency contributes small errors. Grogan & de Weck (2018) provide more details on the HLA implementation for interested readers.…”

Section: Co-simulation Platform and Interfacesmentioning

confidence: 99%

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Co-design and co-simulation for engineering systems: insights from the Sustainable Infrastructure Planning Game

Grogan

2021

Des. Sci.

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This paper draws on perspectives from co-design as an integrative and collaborative design activity and co-simulation as a supporting information system to advance engineering design methods for problems of societal significance. Design and implementation of the Sustainable Infrastructure Planning Game provides a prototypical co-design artifact that leverages the High Level Architecture co-simulation standard. Three role players create a strategic infrastructure plan for agricultural, water and energy sectors to meet sustainability objectives for a growing and urbaninzing population in a fictional desert nation. An observational study conducts 15 co-design sessions to understand underlying dynamics between actors and how co-simulation capabilities influence design outcomes. Results characterize the dependencies and conflicts between player roles based on technical exchange of resource flows, identifying tension between agriculture and water roles based on water demands for irrigation. Analysis shows a correlation between data exchange, facilitated by synchronous co-simulation, and highly ranked achievement of joint sustainability outcomes. Conclusions reflect on the opportunities and challenges presented by co-simulation in co-design settings to address engineering systems problems.

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Section: Co-simulation Platform and Interfacesmentioning

confidence: 99%

Section: Co-simulation Platform and Interfacesmentioning

confidence: 99%

Co-design and co-simulation for engineering systems: insights from the Sustainable Infrastructure Planning Game

Grogan

2021

Des. Sci.

Self Cite

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“…Committee 2012), HLA (HLA Working Group 2010), and TENA (Powell and Noseworthy 2012). Besides military training and simulation, they have also been utilized in marine simulators (Yong and Jin 2000), space projects (Arguello and Miró 2000), infrastructure system simulation (Grogan and De Weck 2015), and virtual testing (Dai et al 2011). Independently driven by the challenges of conducting real-time sensing, information fusion, and control in robots, researchers in robotics engineering developed low-latency data passing solutions.…”

Section: Existing Distributed Simulation Platformsmentioning

confidence: 99%

Distributed Simulation Platforms and Data Passing Tools for Natural Hazards Engineering: Reviews, Limitations, and Recommendations

Lin

Hlynka

et al. 2021

Int J Disaster Risk Sci

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There has been a strong need for simulation environments that are capable of modeling deep interdependencies between complex systems encountered during natural hazards, such as the interactions and coupled effects between civil infrastructure systems response, human behavior, and social policies, for improved community resilience. Coupling such complex components with an integrated simulation requires continuous data exchange between different simulators simulating separate models during the entire simulation process. This can be implemented by means of distributed simulation platforms or data passing tools. In order to provide a systematic reference for simulation tool choice and facilitating the development of compatible distributed simulators for deep interdependent study in the context of natural hazards, this article focuses on generic tools suitable for integration of simulators from different fields but not the platforms that are mainly used in some specific fields. With this aim, the article provides a comprehensive review of the most commonly used generic distributed simulation platforms (Distributed Interactive Simulation (DIS), High Level Architecture (HLA), Test and Training Enabling Architecture (TENA), and Distributed Data Services (DDS)) and data passing tools (Robot Operation System (ROS) and Lightweight Communication and Marshalling (LCM)) and compares their advantages and disadvantages. Three specific limitations in existing platforms are identified from the perspective of natural hazard simulation. For mitigating the identified limitations, two platform design recommendations are provided, namely message exchange wrappers and hybrid communication, to help improve data passing capabilities in existing solutions and provide some guidance for the design of a new domain-specific distributed simulation framework.

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“…Can these complex systems problems be fit into an experimental setting without significant loss of relevant information about the phenomenon of interest? Some scholars have been exploring serious games as a way to achieve this (a version of a framed field experiment) or natural field experiments (see Discussion below). Others have called for benchmarking of representative systems, as has been done with success in the Multidisciplinary Design and Optimization (MDO) community .…”

Section: Controlled Experiments and Their Application To Seandd Researchmentioning

confidence: 99%

Experiments in systems engineering and design research

Panchal

Szajnfarber

2017

Systems Engineering

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Controlled experiments ranging from laboratory experiments to field experiments are becoming increasingly important within systems engineering and design (SE&D) research. Controlled experiments provide unique capabilities for testing hypotheses, and guiding the development of scientific theories, but their potential is not being fully exploited. As the systems engineering research community embraces different research methods commonly adopted in other domains, there is a need for understanding the role and appropriateness of those methods within the research process. While the design of experiments in SE&D research is not unique per se, we contend that aspects of representativeness in the SE&D context pose different experimental design challenges than do the problems typically studied by experimental social scientists. There is therefore a need to translate established practices to the SE&D context, and also belay widely held concerns about the value of experiments in SE&D research. To address this need, the goals of the paper are to discuss the potential role of controlled experiments in systems engineering and design research, to review the benefits and limitations of different types of experiments, and to highlight the key issues in validating experimental studies. The taxonomy and the discussion on validation build on the rich history in social and behavioral sciences, with specific adaptation to the SE&D context. The discussion is anchored in specific examples from the authors’ own research on open innovation in systems engineering.

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Infrastructure System Simulation Interoperability Using the High-Level Architecture

Cited by 17 publications

References 32 publications

Co-design and co-simulation for engineering systems: insights from the Sustainable Infrastructure Planning Game

Co-design and co-simulation for engineering systems: insights from the Sustainable Infrastructure Planning Game

Distributed Simulation Platforms and Data Passing Tools for Natural Hazards Engineering: Reviews, Limitations, and Recommendations

Experiments in systems engineering and design research

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