Difference between revisions of "SCOTT:WP14"
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|Lead partner=NXP AT | |Lead partner=NXP AT | ||
|Leader=Michael Jerne | |Leader=Michael Jerne | ||
− | |Partner=NXP AT, NXP NL, | + | |Partner=NXP AT, NXP NL, UiO, |
|Objective=Consumers demand more convenience features for their cars. Present passive keyless entry and keyless go systems are based on communications taking place in part using low frequency magnetic induction technology and in part using VHF or UHF radio communications. The proposed secure car access system will add wireless distance bounding technologies in an attempt to identify and prevent certain types of malicious attacks on these systems. Present day car access systems have been demonstrated to be vulnerable to a family of attacks known as “relay attacks”. | |Objective=Consumers demand more convenience features for their cars. Present passive keyless entry and keyless go systems are based on communications taking place in part using low frequency magnetic induction technology and in part using VHF or UHF radio communications. The proposed secure car access system will add wireless distance bounding technologies in an attempt to identify and prevent certain types of malicious attacks on these systems. Present day car access systems have been demonstrated to be vulnerable to a family of attacks known as “relay attacks”. | ||
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− | SCOTT-NO contact: [[has SCOTT-NO contact:: | + | SCOTT-NO contact: [[has SCOTT-NO contact::Christian Johansen]] |
[[UiO contribution::UiO (0 PM) ''reduced from 2 to 0 PM in Jan2018'' | [[UiO contribution::UiO (0 PM) ''reduced from 2 to 0 PM in Jan2018'' |
Latest revision as of 11:03, 3 February 2018
WP14 - Secure Car Access Solution
WP Title: | Secure Car Access Solution |
---|---|
Project: | SCOTT |
Lead partner: | NXP AT |
Leader: | Michael Jerne |
Contributors: | NXP AT, NXP NL, UiO |
Objective
Consumers demand more convenience features for their cars. Present passive keyless entry and keyless go systems are based on communications taking place in part using low frequency magnetic induction technology and in part using VHF or UHF radio communications. The proposed secure car access system will add wireless distance bounding technologies in an attempt to identify and prevent certain types of malicious attacks on these systems. Present day car access systems have been demonstrated to be vulnerable to a family of attacks known as “relay attacks”.
In order to provide secure access capabilities to the car manufacturers and ultimately to the consumers a technology is required to both identify and defend successfully against such attacks. Distance bounding between car and car key has been proposed as an effective defence to ensure a “secure” and “trustable” wireless solution.
We propose to address the challenges with the following objectives:
- Develop a radio communications based distance bounding sub-system as an extension to a commercial passive keyless entry system.
- Choose system parameters for the distance bounding sub-system such that the chances of success for a malicious user are minimized.
- Demonstrate the immunity of the proposed solution against selected malicious attacks.
Partners in WP14
- BB23.C HW supported security mechanisms (Virtual Vehicle Research Center, VTT, AVL, Johannes Kepler Universität, TUG, UiO, F-SECURE, TU Delft, IMEC, AIT, FEV, Nokia, Virtual Vehicle Research Center)
- BB23.D Integrated Safety&Security Development (Nokia, AVL, KTH, INDRA, VEMCO, Universidad Politécnica de Madrid, Politechnika Gdanska, IT, Nokia, Virtual Vehicle Research Center)
- BB23.O Security Core - Identification, Authentication and Communication (Nokia, CISC, EAB, F-SECURE, Linz Center of Mechatronics GmbH, PRE, UiO, SBA, VTT, VEMCO, Nokia, Virtual Vehicle Research Center)
- BB23.P Spatial-based authorization and authentication (Politechnika Gdanska, VEMCO, Politechnika Gdanska, PRE, TYCO, University College Cork)
- BB24.I Semantic Attribute Based Access Control (S-ABAC) (UiO, UiO, Wolffia, Smart Innovation Norway)
- BB25.B Energy efficient & resource optimized component concepts for WSNs (NXP NL, NXP NL, NXP AT, AVL)
SCOTT-NO contact: Christian Johansen
UiO (0 PM) reduced from 2 to 0 PM in Jan2018
- Contribute with the security and privacy measures of communication channels to ensure a secure-enough car access, using the ongoing research finding from the National Smart Grid Security Centre. Moreover, the access control will be enhanced with a semantic model, to allow the definition of more fine-grained policies. This will also use the Semantic ABAC building block of WP24. * Support the analysis of attack scenarios and contribute to proposal for related countermeasures. This will also use the Multi-metrics building block of WP26. * Support final evaluation with a focus on security aspects. We will also use here the Privacy Labels building block of WP26.