Portable Secure Devices
What is the ambitious goal of this project?
Join this team and tackle problems on how to mitigate cyber-threats against active implantable medical devices (AIMDs). Small, portable, and implantable devices have resource limitations, yet are cyber-enabled. Protecting these devices against cyber-exploits requires fresh thinking beyond the traditional approaches. The internet of things enhances personal and public health and makes individuals and society vulnerable to cyber threats. How do we protect people and nation? This project engages students and faculty of various backgrounds in the analysis and potential alleviation of this very central contemporary challenge.
The learning outcomes include:
- Students will design and build a device that performs certain tasks with basic energy resources.
- Students will assess the energy capabilities of special purpose small devices.
- Students will identify vulnerabilities enabled by wireless communication among devices.
- Students will demonstrate knowledge and understanding of security issues in relation to the design, development and use of implantable medical devices.
- Students will communicate cybersecurity issues effectively to a variety of audiences.
Gain hands-on experience in the following tools and methodologies:
- Arduino & Rasberry Pi Computing
- Coding and coding software
- Case studies
- Design thinking
- Engineering lab
- Human interface design
- Laboratory testing
- Market research
- Mobile tech development
- Qualitative research methods
- Quantitative research methods
- Systems engineering
Majors and Interests Needed
- Biological Sciences
- Computer Science
- Electrical & Computer Engineering
- Information Technology & Supply Chain Management
- Materials Science & Engineering
- Mechanical and Biomedical Engineering
- Multidisciplinary Studies
VIP Coach Information
Dr. Marion Scheepers is a Distinguished Professor in the Mathematics department.
Dr. Liljana Babinkostova is a Professor in the Mathematics department.
Dr. Sin Ming Loo is a Professor in the Electrical and Computer Engineering department.
Dr. Peter Müllner is a faculty member in the Material Science Department and an expert in microfluidics technology.
VIP 200-022, VIP 400-022, or VIP 500-022.
Full semester course. Choose to enroll in 1 or 2 credits.
Team meets 2-3pm on Thursdays in HEMG107.
Interested in joining this team?
For more information and to request a permission number to register contact Marion Scheepers at email@example.com Phone: 208-426-1033 OR complete this interest form and someone will contact you. Check out this document for tips on contacting a professor about joining a team.
To register: search by Subject: Vertically Integrated Projects, select section 022 of VIP 200, 400, or 500. Use permission number, here are instructions https://www.boisestate.edu/registrar-help/add-with-permission-number/