| Both sides previous revisionPrevious revision | |
| en:safeav:as:cybersec [2026/06/16 14:09] – raivo.sell | en:safeav:as:cybersec [2026/06/16 14:09] (current) – raivo.sell |
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| ====== Cybersecurity, Resilience, and Continuous Assurance ====== | ====== Cybersecurity, Resilience, and Continuous Assurance ====== |
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| <note>[PLACEHOLDER: Scenario taxonomy: functional scenario → logical scenario → concrete scenario.] | |
| [PLACEHOLDER: Nominal, critical, edge-case and adversarial scenarios.] | |
| [PLACEHOLDER: Scenario sources: ODD analysis, accident databases, field data, standards, expert elicitation, simulation mining.] | |
| [PLACEHOLDER: Coverage metrics: ODD coverage, parameter-space coverage, risk-based coverage, requirement coverage, scenario coverage.] | |
| [PLACEHOLDER: Testing environments: model-in-the-loop, software-in-the-loop, hardware-in-the-loop, simulation, proving ground, public-road/field trials.] | |
| </note> | |
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| Drones' cybersecurity covers all aspects of IT security systems, but due to their autonomous operations and the physical presence of potentially dangerous devices, they could have a far greater impact on outcomes, including life-threatening incidents. This is related to their physical presence, including commonly relatively high weight (compared to the human body), high operational speeds and thus large impact energy. | Drones' cybersecurity covers all aspects of IT security systems, but due to their autonomous operations and the physical presence of potentially dangerous devices, they could have a far greater impact on outcomes, including life-threatening incidents. This is related to their physical presence, including commonly relatively high weight (compared to the human body), high operational speeds and thus large impact energy. |
