Eric Pauley scite author profile

Recent advances in Internet of Things (IoT) have enabled myriad domains such as smart homes, personal monitoring devices, and enhanced manufacturing. IoT is now pervasive-new applications are being used in nearly every conceivable environment, which leads to the adoption of device-based interaction and automation. However, IoT has also raised issues about the security and privacy of these digitally augmented spaces. Program analysis is crucial in identifying those issues, yet the application and scope of program analysis in IoT remains largely unexplored by the technical community. In this article, we study privacy and security issues in IoT that require program-analysis techniques with an emphasis on identified attacks against these systems and defenses implemented so far. Based on a study of five IoT programming platforms, we identify the key insights that result from research efforts in both the program analysis and security communities and relate the efficacy of program-analysis techniques to security and privacy issues. We conclude by studying recent IoT analysis systems and exploring their implementations. Through these explorations, we highlight key challenges and opportunities in calibrating for the environments in which IoT systems will be used. CCS Concepts: • Security and privacy → Software and application security; • Software and its engineering → Automated static analysis; Dynamic analysis;

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Measuring and Mitigating the Risk of IP Reuse on Public Clouds

Pauley

Sheatsley

Hoak

et al. 2022

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On the Robustness of Domain Constraints

Sheatsley

Hoak

Pauley

et al. 2021

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Building a Privacy-Preserving Smart Camera System

Beugin

Burke

Hoak

et al. 2022

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Millions of consumers depend on smart camera systems to remotely monitor their homes and businesses. However, the architecture and design of popular commercial systems require users to relinquish control of their data to untrusted third parties, such as service providers (e.g., the cloud). Third parties therefore can (and in some instances have) access the video footage without the users’ knowledge or consent—violating the core tenet of user privacy. In this paper, we present CaCTUs, a privacy-preserving smart Camera system Controlled Totally by Users. CaCTUs returns control to the user; the root of trust begins with the user and is maintained through a series of cryptographic protocols, designed to support popular features, such as sharing, deleting, and viewing videos live. We show that the system can support live streaming with a latency of 2 s at a frame rate of 10 fps and a resolution of 480 p. In so doing, we demonstrate that it is feasible to implement a performant smart-camera system that leverages the convenience of a cloud-based model while retaining the ability to control access to (private) data.

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Eric Pauley

Program Analysis of Commodity IoT Applications for Security and Privacy

Measuring and Mitigating the Risk of IP Reuse on Public Clouds

On the Robustness of Domain Constraints

Building a Privacy-Preserving Smart Camera System

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