Towards Security and Privacy in Networked Medical Devices and Electronic Healthcare Systems

E-health is a growing eld which utilizes wireless sensor networks to enable access to effective and efficient healthcare services and provide patient monitoring to enable early detection and treatment of health conditions. Due to the proliferation of e-health systems, security and privacy have become critical issues in preventing data falsification, unauthorized access to the system, or eavesdropping on sensitive health data. Furthermore, due to the intrinsic limitations of many wireless medical devices, including low power and limited computational resources, security and device performance can be difficult to balance. Therefore, many current networked medical devices operate without basic security services such as authentication, authorization, and encryption. In this work, we survey recent work on e-health security, including biometric approaches, proximity-based approaches, key management techniques, audit mechanisms, anomaly detection, external device methods, and lightweight encryption and key management protocols. We also survey the state-of-the art in e-health privacy, including techniques such as obfuscation, secret sharing, distributed data mining, authentication, access control, blockchain, anonymization, and cryptography. We then propose a comprehensive system model for e-health applications with consideration of battery capacity and computational ability of medical devices. A case study is presented to show that the proposed system model can support heterogeneous medical devices with varying power and resource constraints. The case study demonstrates that it is possible to signicantly reduce the overhead for security on power-constrained devices based on the proposed system model

Concussion Indication Device

In this document we summarize our intent to design and manufacture a device that will be used in conjunction with a football helmet, will detect impact forces to the head, and notify the user to seek out further medical attention when subjected to forces large enough to cause concussions. We describe the large market including all levels of football players and the need for improved technology that will not only be effective in elucidating risks but encouraging players to use the device over the alternatives. To design the device, we have researched the problem of concussions in football and have evidence that there is sufficient technology available to us. In our report we provide all of our documentation available at this stage of development