Philip J. Bernhard, Ph.D., Head
Marco Carvalho, Ph.D., intelligent communication and information systems, network and computer security
John G. Harris, Ph.D., bio-inspired computation, speech/natural language processing
Samuel P. Kozaitis, Ph.D., automated feature extraction, image processing
Brian A. Lail, Ph.D., antenna-coupled sensors, computational and applied electromagnetics, EMI, EMC
Debasis Mitra, Ph.D., artiﬁcial intelligence, spatial and temporal reasoning
Carlos E. Otero, Ph.D., computer systems, wireless ad-hoc and sensor networks, performance evaluation and optimization of systems
Marius C. Silaghi, Ph.D., cryptology, speech recognition, multi-party computation
Georgios C. Anagnostopoulos, Ph.D., machine learning, pattern recognition
Siddhartha Bhattacharyya, Ph.D., formal methods, model-based software/systems engineering, autonomous systems, software/security assurance, wireless sensor networks
Philip J. Bernhard, Ph.D., database systems, theory of computation
Philip K. Chan, Ph.D., scalable adaptive methods, machine learning, data mining, parallel and distributed computing, intelligent systems
Thomas C. Eskridge, Ph.D., human-computer interaction, machine learning and data mining, knowledge representation and artiﬁcial intelligence visualization, user interface design
Michael C. King, Ph.D., biometrics, cyber-identity protection and privacy, machine learning, computer networks
Ivica Kostanic, Ph.D., telecommunications, wireless telecommunications
Eraldo Ribeiro, Ph.D., computer vision, image processing, pattern recognition
Anthony Smith, Ph.D., high-performance computing, cloud computing, machine learning, data analytics, computer vision
Ryan Stansifer, Ph.D., programming languages, compilers, internationalization
Abdullah Aydeger, Ph.D., network security, network virtualization, cybersecurity, computer networks
Naveed Mahmud, Ph.D., quantum computing, reconfigurable computing, computer architectures, field-programmable gate arrays
Nasheen, Nur, Ph.D., natural language processing, explainable AI, applied machine learning
Terrence O’Connor, Ph.D., Internet-of-Things (IoT) security and privacy, computer security education, software-defined networking, network security, mobile and wireless protocols, software-defined-radios, machine learning
Khaled A. Slhoub, Ph.D., software requirements, software testing, software quality, multi-agent systems
Sneha Sudhakaran, Ph.D., cyber forensics, application security, memory analysis, mobile forensics, malware analysis and blockchain
Celine Lang, D.P.A.
Frederick B. Buoni, Ph.D.; Keith Gallagher, Ph.D.; Cem Kaner, J.D., Ph.D.; Gerald A. Marin, Ph.D.; J. Richard Newman, Ph.D.; Rufus H. Cofer, Ph.D.; Raghvendra Deshmukh, Ph.D., P.E.; John Hadjilogiou, Ph.D., P.E.; Fredric M. Ham, Ph.D.; Andrew W. Revay Jr., Ph.D.; Thomas J. Sanders, Ph.D.; M. Mehdi Shahsavari, Ph.D.; William D. Shoaff, Ph.D.; Robert L. Sullivan, Ph.D.; Lynn E. Weaver, Ph.D.; H.P. Weber, D.Sc.
The mission of the Department of Electrical Engineering and Computer Science is to educate and inspire students to solve critical problems, collaboratively innovate, and pursue excellence in the computing and electrical engineering fields.
Fast Track Master’s Programs for Students in the Department of Electrical Engineering and Computer Science
This program allows undergraduate students in the department who meet certain requirements to complete a master’s degree program at an accelerated pace. Students must have junior or senior standing and an earned GPA of 3.3 or higher.
Students who are accepted into the program may enroll in graduate-level coursework during their senior year and apply up to six graduate credit hours (with a grade of B or higher) to both the bachelor’s and master’s degrees. The graduate credit hours applied to both degrees are treated as transfer credit (GPA does not apply) when applied toward the master’s degree. Interested students should consult their program chair for more information about this program.
Computational intelligence: computer vision, constraint reasoning, data mining, machine learning, speech recognition, swarm intelligence, spatiotemporal multidimensional reasoning
Computational science: bioinformatics, statistical computing
Computer engineering: embedded systems, machine intelligence, speech processing, scientific high-performance computing, wireless communications, hardware security, wireless sensor networks, algorithm development for intelligent and data-intensive systems, analysis and design of computer communications and networks, development of large-scale, secure and dependable computer systems
Computer security: cryptology, cryptography and cryptanalysis; secure software development and testing; malicious code, network security, resilience and intrusion detection, usable security
Data science: data mining, knowledge representation, visualization
Distributed computing: agents and coordination, internet computing, negotiations, peer-to-peer networks
Electromagnetics: applied and computational electromagnetics design and analysis of antennas, waveguides, metamaterials/metasurfaces, surface plasmons/phonon polaritons, and heterostructures, for radiofrequency, microwave, millimeter wave, and infrared/optical applications
Languages: functional language, internationalization, type systems
Photonics: recent advances in photonic devices and systems including fiber-optic communications, fiber optic sensors, optics, free-space optical communications, quantum communications, spatial domain multiplexing (SDM) & orbital angular momentum (OAM) of photon-based multiplexing in fiber optics
Signal processing: adaptive optics, atmospheric turbulence compensation (ATC) image processing, pattern recognition, speech processing and recognition, high spatial-resolution ATC imaging systems and near-real-time detection and classification for communications, noise reduction and speaker identification
Software engineering: software documentation, maintenance and evolution, reliability and testing
Research facilities provide open access to a wide range of computing hardware, operating systems, software development applications and general-purpose computing applications. Several research centers and laboratories support specialized research interests of faculty and students.
Center for Advanced Data Analytics and Systems (CADAS): A nationally renowned, self-sustained, and leading provider of intelligent systems and solutions to private industry, state, and government agencies. From the core to the edge, we deliver intelligent system solutions through the infusion of machine learning. CADAS engages in transformative research and development efforts that directly impact the creation and sustainment of intelligent systems. We leverage knowledge that spans multiple domains to specify, design, construct, test, and deploy ready-to-use intelligent systems from the core to the edge. We prepare students to become innovative problem-solvers capable of contributing to both industry and academia. We provide a multidisciplinary and results-oriented environment for research and development, contribute to the state-of-the-art, and seek academic and professional excellence.
Computer Vision Laboratory: This laboratory conducts research on computer vision, pattern recognition, and image and video processing. Ongoing research topics include human–motion recognition, object tracking, image registration and object recognition.
IoT Security and Privacy Lab: The IoT S&P Lab examines the security and privacy aspects that govern the transparency and control of Internet-of-Things devices. The lab boasts over 75 unique IoT devices including smart cameras, locks, digital voice assistants, and an array of sensors. Within the lab, researchers study and perform innovate research in the fields of usable security and privacy, novel attack vectors for IoT, systemic design failures in IoT security and privacy, and machine learning techniques for classifying IoT device behaviors.
L3Harris Institute for Assured Information: Advances the field of computer security through interdisciplinary approaches to education, research and outreach. Supporting Florida Tech’s designation as a DHS/NSA center of academic excellence in cybersecurity research, HIAI provides a unique environment for innovation, technology transfer and development of cutting-edge research.
Wireless Center of Excellence (WICE): Research within WICE focuses on areas related to wireless communication, wireless multimedia communications, wireless sensor systems and remote sensing. Students are involved in research projects evaluating the propagation of radio waves, planning and optimization of voice and data services in cellular systems, various aspects associated with wireless sensor networks, satellite and airborne remote sensing systems and topics addressing challenges in providing multimedia communication over wireless links. WICE cooperates with the University of Central Florida and Florida Polytechnic University and is well connected with several industry partners that help in the selection of relevant research topics and provide the center with state-of-the-art design tools and CAD software. In recent years the center has been involved in the hurricane research program sponsored by the National Science Foundation and RapidScat data processing sponsored by NASA.
ProgramsAssociate of ScienceBachelor of ScienceNondegreeCertificationMaster of ScienceDoctor of Philosophy