System and Method Implementing an Architecture for Trusted Edge IoT Security Gateways

Organization Name

CARNEGIE MELLON UNIVERSITY

Inventor(s)

Amit Vasudevan of Pittsburgh PA (US)

Matthew Mccormack of Pittsburgh PA (US)

Vyas Sekar of Pittsburgh PA (US)

System and Method Implementing an Architecture for Trusted Edge IoT Security Gateways - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240267736 titled 'System and Method Implementing an Architecture for Trusted Edge IoT Security Gateways

Simplified Explanation: The patent application describes a system and method for a trusted IoT security gateway architecture that ensures the correct security protections are always applied to each IoT device's network traffic, even during attacks.

Key Features and Innovation:

• Implementation of a trusted IoT security gateway architecture based on a microhypervisor.
• Guarantee of correct security protections for IoT devices' network traffic.
• Robust trust properties for legacy hardware platforms.
• Utilization of existing software with reasonable performance overhead.

Potential Applications: The technology can be applied in various industries such as smart homes, industrial IoT, healthcare, and smart cities to secure IoT devices and networks.

Problems Solved: The technology addresses the challenge of ensuring the security of IoT devices' network traffic, especially during attacks, and provides a reliable solution for legacy hardware platforms.

Benefits:

• Enhanced security for IoT devices.
• Protection of network traffic during attacks.
• Compatibility with existing software and hardware platforms.
• Reasonable performance overhead.

Commercial Applications: The technology can be utilized by IoT device manufacturers, network security companies, and industries deploying IoT solutions to enhance the security of their devices and networks, thus gaining a competitive edge in the market.

Questions about IoT Security Gateway Architecture: 1. How does the microhypervisor-based architecture ensure the security of IoT devices' network traffic? 2. What are the potential implications of this technology for legacy hardware platforms?

Original Abstract Submitted

disclosed herein is a system and method implementing a trusted iot security gateway architecture, based on a microhypervisor, that provides a guarantee that the correct security protections are applied to each iot device's network traffic at all times, including when under attack. the disclosed architecture provides robust trust properties to a broad range of legacy hardware platforms utilizing existing software with a reasonable performance overhead.