Project Details

HoliDes - Holistic Human Factors and System Design of Adaptive Cooperative Human-Machine Systems

Project Period: 1.10.2013 - 30.9.2016

Code: 7H13004

Agency: Artemis Joint Undertaking

Program: Společné technologické iniciativy

Czech title
HoliDes - Holistické lidské faktory a návrh systémů adaptivního rozhraní člověka s počítačem
Adaptive Cooperative Human-Machine Systems; Development & Qualification Methods, Techniques & Tools; Human-Machine Model-Based Analysis, Automated Re-Configuration of Human-Machine Cooperation
HoliDes addresses development and qualification of Adaptive Cooperative Human-Machine Sys-tems (AdCoS) where many humans and many machines act together, cooperatively, in a highly adaptive way. They adapt to each other and to the context to guarantee fluent and cooperative task achievement. Such systems with higher levels of automation are urgently needed to enhance safety and to increase the confidence of human operators. However, adaptiveness in Cooperative Human-Machine Systems on the Health, Aeronautics, Control Rooms and Automotive market is still sadly limited. The development and especially the qualification and certification of AdCoS in-volving several interactive Embedded Systems are not yet well-mastered in industrial develop-ment. The lack of adequate means of compliance with human factors and safety regulations may force the designers to simplify systems in order to make them certifiable. This clearly compromises the huge potential AdCoS could have on increasing overall safety. In order to unleash this potential HoliDes will research affordable means of compliance which enable to formalize adaptation strat-egies on global many humans - many machines levels and local HMI levels in a coordinated way. This will be achieved by developing techniques & tools on 5 research dimensions: (1) automated AdCoS re-configuration based on e.g. real-time predictive human models; (2) holistic formal (hu-man & machine) modelling and accelerated analysis; (3) new empirical task, exploration and vali-dation analyses of AdCoS; (4) a formalized synergetic empirical and model-based methodology; (5) integration of all techniques & tools in a Human Factors Reference Technology Platform (HF-RTP) to foster interoperability and to support human factors along the whole engineering life-cycle. The HF-RTP will be closely connected to the technically oriented CESAR RTP to enable holistic devel-opment & qualification from both perspectives human factors and technical systems design.
Team members
Herout Adam, prof. Ing., Ph.D. (UPGM FIT VUT) , research leader
Křena Bohuslav, Ing., Ph.D. (UITS FIT VUT) , team leader
Smrčka Aleš, Ing., Ph.D. (UITS FIT VUT) , team leader
Smrž Pavel, doc. RNDr., Ph.D. (UPGM FIT VUT) , team leader
Vojnar Tomáš, prof. Ing., Ph.D. (UITS FIT VUT) , team leader
Zemčík Pavel, prof. Dr. Ing. (UPGM FIT VUT) , team leader
Bartl Vojtěch, Ing. (UPGM FIT VUT)
Bednář Martin, Bc. (FIT VUT)
Behúň Kamil, Ing. (UPGM FIT VUT)
Brázda Kryštof (FIT VUT)
Fiedor Jan, Ing., Ph.D. (UITS FIT VUT)
Fitz Jan (FIT VUT)
Grossmann Jan, Bc. (FIT VUT)
Havel Jiří, Ing., Ph.D. (UPGM FIT VUT)
Kajan Rudolf, Ing. (UPGM FIT VUT)
Kozák David, Bc. (FIT VUT)
Kukaň Tomáš, Bc. (FIT VUT)
Matýšek Michal, Ing. (UPGM FIT VUT)
Otáhalová Sylva (UPGM FIT VUT)
Páldy Alexander, Ing. (UPGM FIT VUT)
Pavelková Alena, Ing. (UPGM FIT VUT)
Růžičková Martina
Sochor Jakub, Ing. (UPGM FIT VUT)
Szentandrási István, Ing. (UPGM FIT VUT)
Špaňhel Jakub, Ing. (UPGM FIT VUT)
Švejčara Jan
Zachariáš Michal, Ing. (UPGM FIT VUT)


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