People: Difference between revisions
Jump to navigation
Jump to search
No edit summary |
No edit summary |
||
Line 5: | Line 5: | ||
[[File:2.jpg|left|150px|]] | [[File:2.jpg|left|150px|]] | ||
| style="border:1px solid transparent;" | | style="border:1px solid transparent;" | ||
'''Ph.D. & Assistant Professor''' | |'''Ph.D. & Assistant Professor''' | ||
'''Department of Aerospace Engineering''' | '''Department of Aerospace Engineering''' |
Revision as of 21:45, 10 June 2015
Researcher Profiles
Faculty
Doctoral StudentsMasters StudentsUndergraduate StudentsLab Alumni:- TJ Gledhill
- Kyle Blatter
- File:Lanny.jpgLanny Lin
- File:AlanPortrait.jpgAlan Atherton
- File:DanielBrown.jpgDaniel Brown
- File:PHOTO.jpgSpencer Clark
- File:Image.jpgShin-Young Jung
- Sean Kerman
- Brian Pendleton
Research Objectives
- How to support Wilderness Search and Rescue operations with UAV technologies?
- How to apply assistive robotics technologies to help treat children with Autism in clinical settings?
- Research HRI techniques to improve task performances for human and artificial agents working as a team.
- Multi-agent management and learning.
- Probability Maps for lost person behavior to support Wilderness Search and Rescue
Current Projects
- WiSAR Project: WiSAR stands for Wilderness Search and Rescue. This is a joint project with the Computer Vision lab and the MAGICC lab. The goal is to use technology to support Wilderness Search and Rescue operations. In our lab, we are interested in the following topics:
- Modeling/predicting lost-person behavior
- Interactive probability distribution
- Sliding autonomy in UAV path-planning
- UAV control interface and HRI ideas
- Incident Support Management System for Heterogeneous Agents
- TiLAR Project: TiLAR stands for Therapist in the Loop Assistive Robotics. This is a joint project with several other departments in the university (Mechanical Engineering, Communication Disorders, Psychology). The goal is to use Assistive Robotics technologies to help therapists treat children with Autism in clinical settings. In our lab, we are interested in the following topics:
- Identify traits of the robots (form, shape, functions, etc.) that affect autistic children's behaviors.
- Design human-robot interfaces that enable the therapists to choreograph ("program") a robot's behaviors.
- HuBIRT: HuBIRT stands for Human-interaction with Bio-Inspired Robot Teams. This is a joint project with the University of Central Florida, the University of Pittsburgh, Carnegie Mellon University, and the University of Porto.
- Tele-operation of a robotic arm with augmented virtual reality
style="border:1px solid transparent;" | Ph.D. & Assistant Professor
Department of Aerospace Engineering 2130 Learned Hall The University of Kansas
|