Pu, an assistant professor in Marshall’s Department of Computer Sciences and Electrical Engineering, has been working on blockchain, cybersecurity, wireless networks and mobile computing, and information-centric networking. He received the grant for his work, “Lightweight Digital Signature Protocol for Micro Aerial Vehicles,” which aims to design and evaluate a lightweight digital signature protocol to protect drones from man-in-the-middle attacks, in which an adversary eavesdrops on the communication between the Ground Control Station (GCS) and drone, and impersonates the GCS, then sends fake commands to terminate the ongoing mission or even take control of the drone.
“I am pleased with this grant award, which will allow me to continue to investigate the potential vulnerabilities and threats in wireless communications and design the corresponding security mechanisms,” Pu said. “For over 40 years, drones or similar robots have been a part of NASA’s fleet, from full-scale solar-powered versions to those using electric motors or propellers.
“They have been used in remote sensing for earth sciences studies, hyperspectral imaging for agriculture monitoring, tracking of severe storms, aerial surveying and mapping, etc. The proposed lightweight digital signature protocol for drones and similar robots can ultimately be integrated with current communication protocols to improve the efficiency, resilience, and reliability of a variety of drone-based NASA services and applications in the context of security attacks.”
Malik, a winner of the Marshall Distinguished Artists and Scholars Award (DASA) for 2019-20 specializing in data science research, received the seed grant to develop a system for “Unmanned Ariel Vehicle (UAV) Assisted Structural Health Monitoring (SHM).”
“The overall goals for this project are to demonstrate and enhance UAV capabilities (protocols and collection techniques) to meet the SHM needs of agencies, related to transportation and civil structure assessment, often at resolutions and granularity higher than what is currently available, and to evaluate the effectiveness and quality of data collected by the UAV systems,” Malik said.
Ahmed received the Research Initiation Grant to advance UAV-integrated terrestrial and satellite communications. Under the project title, “Wireless Channel Model for UAV Assisted Communications,” he will focus on measurement based air-to-air and air-to-ground wireless channel modeling for unmanned aerial vehicle (UAV)/drone assisted communications.
“Development of the analytical channel model is an important tool for designing signal processing algorithms and evaluating the performance of wireless systems,” Ahmed said. “The collected data from the field test measurement will train a deep neural network in order to extend the developed channel model over a wide range of millimeter wave electromagnetic spectrum. The outcomes of this project will be contributed towards the advancements of standardized protocols in the field of UAV integrated terrestrial and satellite communications.”
“I am very proud of our continuous progress in increasing research activities in the department,” said Dr. Wook-Sung Yoo, chair of the Department of Computer Sciences and Electrical Engineering. “Faculty and students in the department receive more and more recognition of their significant accomplishment in research these days. Through the restructuring of the college, our faculty have more opportunities to work in partnership with colleagues in different fields to challenge each other to develop solutions from alternative ways of thinking and knowing.
“Multiple awards of NASA WV Space grants on drone research project by three faculty in the department is a great example of successful collaborative research and I am excited about it.”