Electrical and Computer Engineering

BITS Laboratory (Breakthrough Interactive Thinking Systems Lab)

Lab Website

Our lab is engaged in the research of cyber physical systems that enable novel applications such as ones that involve brain-computer interfaces, medical decision support, and smart cities, among many others.

Daphney-Stavroula Zois Research Group

Lab Website

The group’s research interests include decision making under uncertainty, machine learning, Internet of Things & e-health applications, detection & estimation theory, intelligent systems design, signal processing & communications, optimization, pervasive computing, sensor networks, stochastic control and embedded systems.

Dola Saha Research Group

Lab Website

Research Interests: Analytics for Wireless Networks, Spectrum Forensics, Indoor Localization, CloudRAN, MAC-PHY Crosslayer techniques, Software Defined Radio

Inspire Lab- Interaction Sensing and Perception in Real Environment

Lab Website

Dr. Kim’s research is in the area of human-centered and affective computing, developing systems and devices for automatic sensing, quantification, and interpretation of affective and social signals during interactive communication. Her research builds upon techniques from diverse areas, including machine learning, multimodal (speech and video) signal processing, computer vision, and behavioral science.

Signals & Networks Lab

Lab Website

Our research focus is on wireless and mobile networks, digital signal processing (DSP) and embedded systems towards 5G networks, Internet-of-Things (IoT) applications and cyber-physical systems (CPS). We are particularly experts in visible light communications (VLC) / light fidelity (LiFi) and are interested in optical communications, heterogeneous networks (HetNets), backscatter communication, indoor localization and sensing.

Weifu Wang Research Group

Lab Website

I am interested in locomotion, motion planning and deformable objects manipulation. I and my collaborators have studied robotic knot tying, string manipulation, memory-efficient motion planning, and exact optimal trajectories for vehicles.