Faculty
Kurt Friday
Assistant Professor of Instruction
ENB 301C
Biography
Kurt Friday is an assistant professor of instruction in the USF Bellini College of Artificial Intelligence, Cybersecurity and Computing. He joined the college in 2025 and brings expertise in designing real‑time, efficient, and practical solutions across cybersecurity, forensics, and AI. Drawing on extensive collaborations with industry, government, and critical‑sector partners, he is developing hands‑on, industry‑focused courses that expose students to technologies they will encounter in their careers and equip them with the skills to excel from day one.
Research Interests
Friday’s research sits at the intersection of cybersecurity, machine ÐßÐßÊÓƵing, and
advancements in state‑of‑the‑art hardware, with core contributions spanning hardware-accelerated
security, forensics, and machine ÐßÐßÊÓƵing, as well as programmable networks. His work
explores how to create cohesive hardware‑software ecosystems that are both performant
and resilient, even in the face of evolving cyber threats. He is particularly interested
in building high‑speed, trustworthy systems that span host and network domains by
employing techniques such as adversarial modeling, anomaly detection, malicious behavior
classification, side-channel analysis, and network telemetry.
He has authored or served as a leader on several grants, including collaborations
with Samsung Memory Solutions and the United States Secret Service, to build hardware-resident
AI defenses for production environments and real-world systems. He also serves as
co‑entrepreneurial lead on National Science Foundation‑funded projects that investigate
zero‑day vulnerabilities in electric‑vehicle systems, architect robust security frameworks
and secure communication protocols, and deploy AI-powered monitoring mechanisms that
operate in real time.
At USF, he plans to launch immersive, interactive programs for students covering the
development of hardware‑accelerated, AI‑driven solutions for high‑throughput cybersecurity
and forensic applications, while concurrently securing these systems through chip‑level
vulnerability analysis, secure firmware engineering, and architectural threat modeling.
His ultimate goal is to develop practical assurance methods for next‑generation computing
platforms in domains such as defense, aerospace, and critical infrastructure to set
new standards for speed, reliability, and trust in secure computing.
Education
- Ph.D. in Computer Science from Louisiana State University in Baton Rouge, LA
- Doctoral Studies in Information Technology & Cyber Security, The University of Texas at San Antonio
- M.S. in Computer Science from Louisiana State University in Baton Rouge, LA
- Bachelors in Computer Science from ÐßÐßÊÓƵ Atlantic University from Boca Raton, FL
Honors and Awards
Friday was recognized for outstanding performance in his research contributions and coursework during his doctoral studies at the University of Texas at San Antonio. He has authored and co-authored several publications in venues such as the European Symposium on Research in Computer Security (ESORICS) and Computers & Security, and he received a Best Paper Award at the International Conference on Availability, Reliability and Security (ARES) conference in 2019. He was also recognized for his distinguished scholarly achievement amid his earlier studies at ÐßÐßÊÓƵ Atlantic University.