In this paper we describe a novel approach to securely obtain measurements with respect to the integrity of software running on a low-cost and low-power computing node on demand. We propose to use these measurements as an indication of the trustworthiness of that node. Our approach is based on recent developments in Program Counter Based Access Control. Specifically, we employ Sancus, a light-weight hardware-only Trusted Computing Base and Protected Module Architecture, to integrate trust assessment modules into an untrusted embedded OS without using a hypervisor. Sancus ensures by means of hardware extensions that code and data of a protected module cannot be tampered with, and that the module's data remains confidential. Sancus furthe...
Given the proliferation of malware and malicious activities, the integrity of communication systems ...
There is an increasing demand for Internet of Things (IoT) systems comprised of resource-constrained...
In this paper, we present SobTrA, a Software-based Trust Anchor for ARM Cortex-A processors to prote...
In this paper we describe a novel approach to securely obtain measurements with respect to the integ...
In this paper we propose Sancus, a security architecture for networked embedded devices. Sancus supp...
The advent of Trusted Execution Environments (TEEs) for IoT aligns with the reinforcement of IoT sec...
Low-end embedded devices and the Internet of Things (IoT) are becoming increasingly important for ou...
Security controls (such as encryption endpoints, payment gateways, and firewalls) rely on correct pr...
Part 2: Secure Resource Sharing and Access ControlInternational audienceLow-end embedded devices and...
We discuss a high-level model for software applications and services that can support a minimal set ...
The Sancus security architecture for networked embedded devices was proposed in 2013 at the USENIX S...
With the increasing day-to-day acceptance of IOT computing, the issues related to it are also gettin...
Abstract: A trusted execution Environment (TEE) could be a comfy place of a computer’s essential pro...
Modern society is increasingly surrounded by, and is growing accustomed to, a wide range of Cyber-Ph...
The internet of things (IoT) is a revolutionary innovation in many aspects of our society including ...
Given the proliferation of malware and malicious activities, the integrity of communication systems ...
There is an increasing demand for Internet of Things (IoT) systems comprised of resource-constrained...
In this paper, we present SobTrA, a Software-based Trust Anchor for ARM Cortex-A processors to prote...
In this paper we describe a novel approach to securely obtain measurements with respect to the integ...
In this paper we propose Sancus, a security architecture for networked embedded devices. Sancus supp...
The advent of Trusted Execution Environments (TEEs) for IoT aligns with the reinforcement of IoT sec...
Low-end embedded devices and the Internet of Things (IoT) are becoming increasingly important for ou...
Security controls (such as encryption endpoints, payment gateways, and firewalls) rely on correct pr...
Part 2: Secure Resource Sharing and Access ControlInternational audienceLow-end embedded devices and...
We discuss a high-level model for software applications and services that can support a minimal set ...
The Sancus security architecture for networked embedded devices was proposed in 2013 at the USENIX S...
With the increasing day-to-day acceptance of IOT computing, the issues related to it are also gettin...
Abstract: A trusted execution Environment (TEE) could be a comfy place of a computer’s essential pro...
Modern society is increasingly surrounded by, and is growing accustomed to, a wide range of Cyber-Ph...
The internet of things (IoT) is a revolutionary innovation in many aspects of our society including ...
Given the proliferation of malware and malicious activities, the integrity of communication systems ...
There is an increasing demand for Internet of Things (IoT) systems comprised of resource-constrained...
In this paper, we present SobTrA, a Software-based Trust Anchor for ARM Cortex-A processors to prote...