Title :
A Novel Key Generating Architecture for Wireless Low-Resource Devices
Author :
Zenger, Christian T. ; Chur, Markus-Julian ; Posielek, Jan-Felix ; Paar, Christof ; Wunder, Gerhard
Author_Institution :
Horst Gortz Inst. for IT-Security (HGI), Ruhr-Univ. Bochum, Bochum, Germany
Abstract :
Secret key establishment based on parameters of the communication channel is a highly attractive option for many applications that operate in a dynamic mobile environment with peer-to-peer association. On the other hand, high usability and dynamic key management are still very difficult to achieve for wireless devices which have to operate under strict resource constraints. In fact, most previously reported key generation methods cannot operate in such environment.In this work, we present a new system architecture which is suitable also for resource-constrained platforms. Our design strongly focuses on security, rather than a robust key generation rate, as well as on low complexity and efficiency. Our approach has the potential to dramatically reduce the cost of securing small embedded devices for the Internet of Things, and hence make mass production and deployment viable.
Keywords :
Internet of Things; computational complexity; computer network security; mobile communication; peer-to-peer computing; private key cryptography; wireless channels; Internet of Things; communication channel; dynamic key management; dynamic mobile environment; key generation architecture; mass production; peer-to-peer association; resource-constrained platform; secret key establishment; securing cost reduction; wireless low-resource device; Channel estimation; Entropy; Estimation; Materials; Quantization (signal); Security; Wireless communication; Channel-based key generation; Internet of Things; dynamic symmetric keys; online entropy estimation; resource-constrained devices;
Conference_Titel :
Secure Internet of Things (SIoT), 2014 International Workshop on
DOI :
10.1109/SIoT.2014.7
