Difference between revisions of "IoTSec:T2.3"
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we will build tool support for automated proofs. | we will build tool support for automated proofs. | ||
This will increase the robustness of the smart grid system. | This will increase the robustness of the smart grid system. | ||
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= Detailed work = | = Detailed work = | ||
| + | Initial work consists of | ||
| + | investigation of | ||
| + | the integration of the semantic model and provability mechanisms. | ||
| + | The next phase of work is | ||
| + | development of automated tools, | ||
| + | while ensuring their usability in smart grid systems. | ||
| + | |||
<!-- = earlier input = | <!-- = earlier input = | ||
= Contributions = | = Contributions = | ||
Olaf: I may contribute to the last part, focusing on automated deductive reasoning, and follow the other two points - ''leadership?'' | Olaf: I may contribute to the last part, focusing on automated deductive reasoning, and follow the other two points - ''leadership?'' | ||
| + | |||
| + | ....and ensure that decisions made are not violating certain poperties. | ||
| + | |||
| + | Undecided: How much is static and how much is dynamic (at run-time)? | ||
Josef: Reasoning over models | Josef: Reasoning over models | ||
Revision as of 13:23, 27 August 2015
| Security in IoT for Smart Grids | |||||||
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T2.3 Semantic Provability
| Task Title | Formal technologies for semantic provability |
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| WP | IoTSec:WP2 |
| Lead partner | Ifi |
| Leader | |
| Contributors | UNIK, NR |
| edit this task |
Objective
This task will establish formal technologies for semantic provability
| Category:Task |
Deliverables in T2.3 Semantic Provability
| Title | Due month | Lead partner | Editor | Dissemination level | |
|---|---|---|---|---|---|
| D2.3.1 | Semantic Provability Framework (draft) | M24 | Ifi | Olaf Owe | Public |
| D2.3.2 | Semantic Provability Framework (final) | M36 | Ifi | Olaf Owe | Public |
| D2.3.3 | Semantic Provability applied to Smart Grids | M48 | Ifi | Olaf Owe | Public |
Detailed objectives
The main objective is to give guarantees for relevant security properties. By utilizing automatic decision algorithms from logic and formal methods we will build tool support for automated proofs. This will increase the robustness of the smart grid system.
Detailed work
Initial work consists of investigation of the integration of the semantic model and provability mechanisms. The next phase of work is development of automated tools, while ensuring their usability in smart grid systems.
References