Rate My Professor Nabih Jaber

Nabih Jaber is an Associate Professor and Chair of the Department of Electrical and Computer Engineering at Lawrence Technological University. He directs the Innovative Smart Wireless Networking Lab (ISWiNLab) and serves as IEEE Student Branch Advisor, having previously directed the Master of Science in Electrical and Computer Engineering graduate program. Jaber holds a PhD and a Master of Applied Science in Electrical and Computer Engineering from the University of Windsor. He possesses several teaching certificates from the University Teaching Certification by SEDA and others that promote innovation in higher education. His research interests encompass Intelligent Transportation Systems, wireless communications, coding and information theory, Dedicated Short Range Communications vehicular systems, smart grid power line communications, sensor networks, and Advanced Driver Assistance Systems/Autonomous Vehicles, with an emphasis on test-bed implementations and innovative simulation system designs. These efforts include advancements in object detection and tracking algorithms, in-vehicular speech environments, digital signal processing, Home Energy Management Systems, and crash prevention safety applications.

Jaber's scholarly contributions include a patent pending titled 'New Critical Point Wiener Filter (CPWF) for Improved Hands-Free Cell Phone Performance' (2017). Key publications feature 'Passive Cooperative Collision Warning (PCCW) MAC Design for Reliable Vehicular Safety Messaging Vehicular Communications' in Vehicular Communications (2015), 'Collision Correction Using a Cross Layer Architecture for Dedicated Short Range Communications Vehicle Safety Messaging' in Ad Hoc Networks (2014), 'New Combined WiMAX-DSRC Infrastructure Design for Efficient Vehicular Networking' in EURASIP Journal on Wireless Communications and Networking (2012), 'Performance Enhancement of the DSRC System Using Frequency-Domain MAP Equalization' in AEÜ International Journal of Electronics and Communications (2011), and 'Reconfigurable Simulator Using Graphical User Interface (GUI) and Object-Oriented Design for OFDM Systems' in International Journal of Simulation Modelling Practice and Theory (2011). Additional works cover speech enhancement techniques and quantitative analyses of hands-free systems presented at IEEE conferences such as GlobalSIP (2016) and MMSP (2016). In 2016, he received the best submitted research award out of over 100 papers at the Hyundai Kia Motors global conference for 'Bluetooth Audio Quality Improvement Based on Quantitative SNR Analysis of Wiener Filter.' His research supports practical developments in vehicular safety messaging, smart grid monitoring, and autonomous vehicle technologies through rigorous modeling and real-world data analysis.