Proactive self-adaptation and assurance of explainable Human–Machine Teaming

With the pervasiveness of software-intensive systems, autonomous agents are increasingly involved in missions entailing close cooperation with humans in critical domains. Human–Machine Teaming (HMT) requires agents to have a high degree of autonomy to make dependable decisions in safety-critical set...

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Veröffentlicht in:The Journal of systems and software Jg. 232; S. 112657
Hauptverfasser: Lestingi, Livia, Bersani, Marcello M., Camilli, Matteo, Mirandola, Raffaela, Rossi, Matteo, Scandurra, Patrizia
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Elsevier Inc 01.02.2026
Schlagworte:
Autonomous agents
Dependable autonomous systems
Human–Machine Teaming
Proactive self-adaptation
Trustworthiness
Autonomous agents
Trustworthiness
Human–Machine Teaming
Proactive self-adaptation
Dependable autonomous systems
ISSN:0164-1212
Online-Zugang:Volltext
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Abstract With the pervasiveness of software-intensive systems, autonomous agents are increasingly involved in missions entailing close cooperation with humans in critical domains. Human–Machine Teaming (HMT) requires agents to have a high degree of autonomy to make dependable decisions in safety-critical settings and quickly react to unexpected changes in the environment. We present AdaptEASE, a framework that leverages formal modeling and verification to model HMT missions offline and predict the mission outcome at runtime through Machine Learning (ML) models trained on Statistical Model Checking (SMC) results. The framework also exploits explainable AI techniques to inform stakeholders on what factors impact the predicted outcome positively or negatively. Building upon previous work, AdaptEASE enhances the controlled autonomous agents with the capability to self-adapt at runtime proactively. Specifically, if an unfavorable situation emerges during the HMT, AdaptEASE identifies an adaptation action that guarantees balance between the agents’ performance and the involved human subjects’ comfort levels. While runtime adaptation exploits ML predictors to preserve the timeliness of the HMT, the proposed adaptation action is asynchronously subject to formal verification to provide stakeholders with an assessment of the agents’ decisions and of the overall HMT trustworthiness. The validation testbed is a case study from the healthcare robot domain. The optimized versions of 1000 different mission configurations lead to a statistically significant estimated increase of HMT performance. The asynchronous SMC formal verification confirms that 75% of the optimized configurations increase the HMT performance.
AbstractList With the pervasiveness of software-intensive systems, autonomous agents are increasingly involved in missions entailing close cooperation with humans in critical domains. Human–Machine Teaming (HMT) requires agents to have a high degree of autonomy to make dependable decisions in safety-critical settings and quickly react to unexpected changes in the environment. We present AdaptEASE, a framework that leverages formal modeling and verification to model HMT missions offline and predict the mission outcome at runtime through Machine Learning (ML) models trained on Statistical Model Checking (SMC) results. The framework also exploits explainable AI techniques to inform stakeholders on what factors impact the predicted outcome positively or negatively. Building upon previous work, AdaptEASE enhances the controlled autonomous agents with the capability to self-adapt at runtime proactively. Specifically, if an unfavorable situation emerges during the HMT, AdaptEASE identifies an adaptation action that guarantees balance between the agents’ performance and the involved human subjects’ comfort levels. While runtime adaptation exploits ML predictors to preserve the timeliness of the HMT, the proposed adaptation action is asynchronously subject to formal verification to provide stakeholders with an assessment of the agents’ decisions and of the overall HMT trustworthiness. The validation testbed is a case study from the healthcare robot domain. The optimized versions of 1000 different mission configurations lead to a statistically significant estimated increase of HMT performance. The asynchronous SMC formal verification confirms that 75% of the optimized configurations increase the HMT performance.
ArticleNumber 112657
Author Lestingi, Livia
Bersani, Marcello M.
Mirandola, Raffaela
Camilli, Matteo
Scandurra, Patrizia
Rossi, Matteo
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  surname: Lestingi
  fullname: Lestingi, Livia
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  organization: Politecnico di Milano, Piazza Leonardo da Vinci 32, 20133, Milan, Italy
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  givenname: Marcello M.
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  surname: Bersani
  fullname: Bersani, Marcello M.
  email: marcellomaria.bersani@polimi.it
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  givenname: Matteo
  surname: Camilli
  fullname: Camilli, Matteo
  email: matteo.camilli@polimi.it
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  givenname: Raffaela
  surname: Mirandola
  fullname: Mirandola, Raffaela
  email: raffaela.mirandola@kit.edu
  organization: Karlsruhe Institute of Technology, Am Fasanengarten 5, 76131, Karlsruhe, Germany
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  givenname: Matteo
  orcidid: 0000-0002-9193-9560
  surname: Rossi
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  givenname: Patrizia
  orcidid: 0000-0002-9209-3624
  surname: Scandurra
  fullname: Scandurra, Patrizia
  email: patrizia.scandurra@unibg.it
  organization: Università di Bergamo, Viale Marconi 5, 24044, Dalmine (BG), Italy
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IngestDate Thu Nov 27 00:37:30 EST 2025
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Keywords Autonomous agents
Trustworthiness
Human–Machine Teaming
Proactive self-adaptation
Dependable autonomous systems
Language English
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  ident: 10.1016/j.jss.2025.112657_b10
  article-title: A vision for human-machine mutual understanding, trust establishment, and collaboration
– ident: 10.1016/j.jss.2025.112657_b8
  doi: 10.1145/1985793.1985795
– volume: 143
  start-page: 29
  issue: 1
  year: 1982
  ident: 10.1016/j.jss.2025.112657_b35
  article-title: The meaning and use of the area under a receiver operating characteristic (ROC) curve
  publication-title: Radiology
  doi: 10.1148/radiology.143.1.7063747
– volume: 60
  start-page: 262
  issue: 2
  year: 2018
  ident: 10.1016/j.jss.2025.112657_b52
  article-title: Teaming with a synthetic teammate: Insights into human-autonomy teaming
  publication-title: Hum. Factors
  doi: 10.1177/0018720817743223
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Snippet With the pervasiveness of software-intensive systems, autonomous agents are increasingly involved in missions entailing close cooperation with humans in...
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StartPage 112657
SubjectTerms Autonomous agents
Dependable autonomous systems
Human–Machine Teaming
Proactive self-adaptation
Trustworthiness
Title Proactive self-adaptation and assurance of explainable Human–Machine Teaming
URI https://dx.doi.org/10.1016/j.jss.2025.112657
Volume 232
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