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Teknisk matematik

Ubiquitous Computing

Komplexa inbyggda system i realtid

Lärande och optimering

Medicinsk teknik

Modellbaserad konstruktion av inbäddade system

M-TERM - Mälardalen University Team of Educational Researchers in Mathematics

NOMP-gruppen – nya organisations- och managementpraktiker

Produkt- och produktionsutveckling

Programmeringsspråk

Programvarutestlaboratorium

Resurseffektivisering

Robotik

Statsvetenskap

Automatiserade mjukvaruspråkutveckling och mjukvaruteknik

Barndom i Antropocen - Utbildning och hållbarhet

Certifierbara bevis och justifieringsteknik

Cyber-fysisk systemanalys

Datakommunikation

Digitala och cirkulära industriella tjänster

Digitalisering av framtidens energi

Formell modellering och analys av inbyggda system

Förnybar energi

Heterogena system

Hälsofrämjande teknik

Industriella AI-system

Industriell programvaruteknik

Algebra och Analys med tillämpningar

Artificiell intelligens och intelligenta system

Informationsdesign

Stokastiska processer, statistik och finansmatematik

Säkerhetskritisk teknik

Serendipity - Secure and dependable platforms for autonomy

In Serendipity, we will develop new technologies and a platform for safetycritical connected cyberphysical systems that leverage existing techniques for dependable systems and augment them with scalable security solutions for open and heterogeneous systems.

Projektansvarig vid MDU

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Projektbeskrivning

To take full advantage of our increasingly connected and autonomous world, we need technologies to build platforms that are secure and dependable by design. We need security solutions developed not for a particular application area, but for connected, heterogeneous, timesensitive cyberphysical systems and largescale systemsofsystems.

The security solutions need to be scalable and adapted to an open environment where nodes, services and users vary over time. The timely and continuously available security services need to be maintained and should remain transparent to the user. Traditional dependable platforms are designed to provide dependable service, including features such as redundancybased fault tolerance, selfmonitoring, selfhealing, and selfreconfiguring. We claim that security and safety can be addressed in a uniform manner based on these features, since, if used properly, they could be suitable to discover and neutralize intruders and adversaries. In Serendipity, we will develop new technologies and a platform for safetycritical connected cyberphysical systems that leverage existing techniques for dependable systems and augment them with scalable security solutions for open and heterogeneous systems.