Abstract
of Cyber-Physical Systems (CPSs) into the realms of mobility (car2x,
autonomous driving), energy (power plants, smart grid) and healthcare (health monitoring), paving the way into a highly interlaced
world. However, this also dramatically broadens the threat landscape for potential attacks on CPSs. The malfunction of these CPSs could threaten human life, cause environmental damage and major fnancial loss. This drives the need for comprehensive methods that support the cross-domain design, development and implementation of safe and secure systems. In order to tackle these challenges, this paper proposes a method called INSpIRA, a method for INtegrating Security Into Risk Assessment, including a toolchain implementing the method. The envisioned method is supposed to be a holistic approach that supports the efcient crossdomain design, development, implementation and maintenance of dependable CPSs, where security and safety are a critical aspect that requires an in-depth risk assessment.
| Language | English |
|---|---|
| Status | Unpublished - 2018 |
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Keywords
- Dependability
- Safety
- Security
- Risk Assessment
- Self-Adaptive System
- MModel Based Development
- Industrial Control Systems
- ICS
Cite this
Towards Executable Dependability Properties : INSpIRA: INtegrating Security Into Risk Assessment. / Dobaj, Jürgen.
2018.Research output: Contribution to conference › Poster › Research › peer-review
}
TY - CONF
T1 - Towards Executable Dependability Properties
T2 - INSpIRA: INtegrating Security Into Risk Assessment
AU - Dobaj,Jürgen
PY - 2018
Y1 - 2018
N2 - Today’s software and hardware technologies enable the expansionof Cyber-Physical Systems (CPSs) into the realms of mobility (car2x,autonomous driving), energy (power plants, smart grid) and healthcare (health monitoring), paving the way into a highly interlacedworld. However, this also dramatically broadens the threat landscape for potential attacks on CPSs. The malfunction of these CPSs could threaten human life, cause environmental damage and major fnancial loss. This drives the need for comprehensive methods that support the cross-domain design, development and implementation of safe and secure systems. In order to tackle these challenges, this paper proposes a method called INSpIRA, a method for INtegrating Security Into Risk Assessment, including a toolchain implementing the method. The envisioned method is supposed to be a holistic approach that supports the efcient crossdomain design, development, implementation and maintenance of dependable CPSs, where security and safety are a critical aspect that requires an in-depth risk assessment.
AB - Today’s software and hardware technologies enable the expansionof Cyber-Physical Systems (CPSs) into the realms of mobility (car2x,autonomous driving), energy (power plants, smart grid) and healthcare (health monitoring), paving the way into a highly interlacedworld. However, this also dramatically broadens the threat landscape for potential attacks on CPSs. The malfunction of these CPSs could threaten human life, cause environmental damage and major fnancial loss. This drives the need for comprehensive methods that support the cross-domain design, development and implementation of safe and secure systems. In order to tackle these challenges, this paper proposes a method called INSpIRA, a method for INtegrating Security Into Risk Assessment, including a toolchain implementing the method. The envisioned method is supposed to be a holistic approach that supports the efcient crossdomain design, development, implementation and maintenance of dependable CPSs, where security and safety are a critical aspect that requires an in-depth risk assessment.
KW - Dependability
KW - Safety
KW - Security
KW - Risk Assessment
KW - Self-Adaptive System
KW - MModel Based Development
KW - Industrial Control Systems
KW - ICS
M3 - Poster
ER -