Carla C. Madni scite author profile

Digital twin, a concept introduced in 2002, is becoming increasingly relevant to systems engineering and, more specifically, to model-based system engineering (MBSE). A digital twin, like a virtual prototype, is a dynamic digital representation of a physical system. However, unlike a virtual prototype, a digital twin is a virtual instance of a physical system (twin) that is continually updated with the latter’s performance, maintenance, and health status data throughout the physical system’s life cycle. This paper presents an overall vision and rationale for incorporating digital twin technology into MBSE. The paper discusses the benefits of integrating digital twins with system simulation and Internet of Things (IoT) in support of MBSE and provides specific examples of the use and benefits of digital twin technology in different industries. It concludes with a recommendation to make digital twin technology an integral part of MBSE methodology and experimentation testbeds.

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Architectural Framework for Exploring Adaptive Human-Machine Teaming Options in Simulated Dynamic Environments

Madni

2018

Systems

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With the growing complexity of environments in which systems are expected to operate, adaptive human-machine teaming (HMT) has emerged as a key area of research. While human teams have been extensively studied in the psychological and training literature, and agent teams have been investigated in the artificial intelligence research community, the commitment to research in HMT is relatively new and fueled by several technological advances such as electrophysiological sensors, cognitive modeling, machine learning, and adaptive/adaptable human-machine systems. This paper presents an architectural framework for investigating HMT options in various simulated operational contexts including responding to systemic failures and external disruptions. The paper specifically discusses new and novel roles for machines made possible by new technology and offers key insights into adaptive human-machine teams. Landed aircraft perimeter security is used as an illustrative example of an adaptive cyber-physical-human system (CPHS). This example is used to illuminate the use of the HMT framework in identifying the different human and machine roles involved in this scenario. The framework is domain-independent and can be applied to both defense and civilian adaptive HMT. The paper concludes with recommendations for advancing the state-of-the-art in HMT.

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IDEONTM: An extensible ontology for designing, integrating, and managing collaborative distributed enterprises

2001

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An organization's ability to achieve and sustain competitive advantage in the face of continual change depends, to a large extent, on the adaptability, interoperability, and maintainability of its enterprise management approach and supporting software implementation. In this regard, the major challenges facing organizations are: (a) achieving seamless integration of enterprise design, management and control processes and supporting applications; (b) ensuring interoperability between new and legacy business applications; and (c) adapting business strategies and ongoing operations to changes in the external and internal environments. The latter requires integrated planning and execution of enterprise processes. This paper presents IDEON™, a unified, extensible enterprise ontology that has been designed in response to these needs. Two specific applications of IDEON™ are presented along with the specific extensions for each application.

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Cross-Cultural Decision Making Training Using Behavioral Game-Theoretic Framework

Madni¹,

Moini²,

Madni³

2010

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Intelligent Agents for Individual and Team Training Applications

Madni

Sörensen

et al. 2005

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Carla C. Madni

Leveraging Digital Twin Technology in Model-Based Systems Engineering

Architectural Framework for Exploring Adaptive Human-Machine Teaming Options in Simulated Dynamic Environments

IDEONTM: An extensible ontology for designing, integrating, and managing collaborative distributed enterprises

Cross-Cultural Decision Making Training Using Behavioral Game-Theoretic Framework

Intelligent Agents for Individual and Team Training Applications

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