A lightweight authentication protocol for secure communications between resource-limited devices and wireless sensor networks

Piotr Ksiązak, William Farrelly, Kevin Curran

Research output: Contribution to journalArticlepeer-review

7 Citations (Scopus)

Abstract

The number of Resource-Limited Wireless Devices utilized in many areas of IT is growing rapidly. Some of the applications of these devices pose real security threats that can be addressed using authentication and cryptography. Many of the available authentication and encryption software solutions are predicated on the availability of ample processing power and memory. These demands cannot be met by the majority of ubiquitous computing devices, thus there is a need to apply lightweight cryptography primitives and lightweight authentication protocols that meet these demands in any application of security to devices with limited resources. A security framework is presented here that combines aspects of the Gossamer protocol and the Scalable Encryption Algorithm (SEA) to provide an implementation of inter-device security. The Gossamer Protocol is additionally used as a means of exchanging session keys for use with the SEA encryption protocol. Our system performed well with the code space requirements smaller than 600 bytes (excluding shared libraries) and a performance of 27 milliseconds per one 96-bit block of data.

Original languageEnglish
Pages (from-to)62-102
Number of pages41
JournalInternational Journal of Information Security and Privacy
Volume8
Issue number4
DOIs
Publication statusPublished - 1 Oct 2014

Keywords

  • Gossamer protocol
  • Lightweight authentication protocol
  • Lightweight cryptography
  • Resource-limited devices
  • Scalable encryption algorithm
  • Secure communications
  • Wireless sensor networks

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