TAMper Resistant Sensor node

As the Internet of Things (IoT) becomes a reality the trustworthiness of all its components assumes the utmost importance. The trustworthiness of any system in the definition of call 5 i.e. security, reliability etc. depends on its weakest part. When wireless sensor nodes (WSN) are included in the IoT it is likely that one of the more vulnerable parts will be the sensor nodes themselves. These devices can be attacked by "standard" network based approaches but also by physical means if they are left unattended in remote sites which is the preferred application for WSN. While much research effort has been spent on improving the network security of WSN, the protection of the nodes and especially their protection against physical attacks has been, until now, neglected. We are convinced that protecting the WSN is essential since compromised nodes put the whole system at risk.TAMPRES aims to significantly improve the trustworthiness of WSN. To achieve this goal we will investigate protection mechanisms in the following areas:•\tPrevention of side-channel and fault-injection attacks: evaluation and development of appropriate counter measures while also considering the severe constraints of energy and silicon area.•\tProvision of flawless implementation of lightweight cryptographic cores: development of secure and properly implemented light-weight cryptographic cores to provide uncompromised cryptographic strength to higher layers.•\tAttack resistant system architecture: secure integration and partitioning of the whole system including hardware components and secure low level services.The range of protection mechanisms available will be evaluated by experiments with existing and recently manufactured ASICs. To ensure manufacturer independence, both the NXP and the IHP technology will be used to evaluate the results. TAMPRES will also integrate its findings in a methodology which supports system designers to select the correct means to protect their new devices.