Robotics, Autonomous Systems and Human-Computer Interaction

Faculty working in this area

Faculty Email website
Jayson Boubin jboubin@binghamton.edu
Yincheng Jin yjin5@binghamton.edu
Yu (David) Liu davidl@binghamton.edu
Sujoy Sikdar ssikdar@binghamton.edu
Shiqi Zhang zhangs@binghamton.edu
Monika Roznere mroznere@binghamton.edu

Highlights in this area

researches the intersection of computer systems, machine learning, autonomy and robotics. He builds complex systems which efficiently leverage new or extant machine learning, distributed systems and robotics technologies to solve real-world problems. Specifically, he builds fully autonomous UAV which operate in highly resource constrained environments like crop fields, forests and remote infrastructure sites. These systems require serious compute resources and software support, but have little power, network bandwidth or time to spare, necessitating creative engineering solutions and completely new technologies to properly implement.  

researches HCI, accessibility and healthcare to make people be healthier and live in more intelligent environment. Towards this vision, he develops novel machine learning models and apply them to enable human-centered AI, such as understanding human actions and people鈥檚 daily activities; and advance health monitoring and develop new accessibility for deaf and hard-of-hearing (DHH) community.  

researches programming languages and software engineering (energy-aware programming languages, energy-efficient and power-aware language runtimes, energy-aware deep neutral networks), security (formal reasoning of software/hardware interfaces) and robotics (safety and reliability of UAVs).  

researches the intersection of computer science, artificial intelligence, economics and social science in understanding individual and group preferences, how preferences are aggregated in systems composed of multiple agents, and designing algorithms to make good decisions for groups of heterogeneous agents. Some examples:
  • Designing fair and efficient algorithms for group decision-making problems like fair division and voting.
  • Learning and modeling preferences from data.
  • Understanding human behavior in a variety of social contexts including in social media streams.  

researches robotics, artificial intelligence (AI) and human-robot interaction (HRI). He leads the Autonomous Intelligent Robotics (AIR) research group, whose goal is to develop intelligent mobile robots that are able to interact with people, provide services to people, and learn from this experience, in human-inhabited, collaborative environments.  
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researches marine robotics and their autonomy and accessibility. She leads the Marine Robotics Lab (MRL) where the team tackles problems on how to improve the perception and navigation ability of low-cost robotic systems in challenging domains like underwater. This requires advancements in sensor fusion, camera models, 3D scene reconstruction, multi-robot coordination, localization and navigation, environment monitoring, communication, and robot design.