Research
Research
CUSL‘s research interest is in the areas of estimation, control, and dynamics of unmanned vehicles with an emphasis on unmanned aerial vehicles. Current focus is on vision-aided navigation, wind/gust estimation, cooperative control, remote sensing, and small UAV development. Please send Dr. Haiyang Chao an email if you want to get a reprint of our paper or if you want to use our disaster damage data in your research.
Active Projects:
Small Unmanned System Development for Earth and Environmental Observations
Small unmanned autonomous systems can be deployed for different scientific research projects including but not limited to aviation safety research, atmospheric measurement, agricultural/environment monitoring, emergency response, etc.
KHawk - Flying Wing UAV
|
KHawk 48"-1 Flight Test
1. KHawk flying-wing-48 manual takeoff
2. KHawk Flying Wing 48 Auto-Circling
Wind/Gust/Wake Sensing and Suppression with Aircraft Formation Flight
Birds fly in V or echelon formations for energy saving as well as enemy defense. The follower bird usually flies in the wakes generated by the leader bird. However, it is unclear how exactly birds interact with the wake vortices during close formation flight. Small UAVs offer ideal platforms for further understanding of the interaction between the aircraft and the flow field such as wake vortices generated by the leader aircraft. Such researches could potentially lead to significant fuel saving of commercial flights and help decreasing the waiting time at airport terminals.
UAS Safety Margin Prediction, 2016-2017
KHawk UAS Stall Test
- Publications
Haiyang Chao, Harold Flanagon, Pengzhi Tian, and Steve Hagerott, Flight Test Investigation of Stall/Spin Detection Techniques for a Flying Wing UAS, AIAA Atmospheric Flight Mechanics (AFM), 2017
Former Research Projects:
Autonomous Tornado Damage Track Mapping Using a Small UAS, NASA-Kansas-EPSCoR SIG, 2017
Tornadoes are among the most dangerous natural disasters for states in the “Tornado Alley”. From 2010 to 2014, tornadoes in the US caused 764 fatalities and approximately $17 billion damages with more than 5600 times of occurrence. Small UAS can serve as a complementary remote sensing platform to provide high resolution imagery at multiple spectral bands in near real-time. This emerging remote sensing platform can help provide accurate low-altitude validations of satellite tornado damage estimates and provide quicker situational awareness after tornadoes.
- Publications
- Gowravaram, S., “Multispectral Remote Sensing of the Earth and Environment Using KHawk Unmanned Aircraft Systems,” M.S. Thesis, Aerospace Engineering Department, University of Kansas, July 2017;
- Gowravaram, S., Flanagan, H., Tian, P., & Chao, H. (to appear in 2018). AIAA InfoTech Conference. Prescribed Fire Monitoring Using KHawk Unmanned Aircraft Systems.
Collaborative Stereo Vision Sensing with Small UAV Formation, NASA-Kansas-EPSCoR SIG, 2014-2016
The accuracy of most stereo systems are highly constrained by the short and fixed baseline between the two cameras. A group of small UAVs flying in formation with one camera mounted on each aircraft can function as one collaborative sensing system with adjustable formation offsets based on requirements from stereo vision sensing. After combining the collected stereo vision data with onboard inertial data, this system can then be used for real-time 3D terrain reconstruction during emergency response, mobile target detection, and obstacle avoidance.
- Publications
- Zhang, M., Wang, G., Chao, H., & Wu, P. (2015). Fast and Robust Algorithm for Fundamental Matrix Estimation. In International Conference on Image Analysis and Recognition. (Link)
- Chao, H., Brink, K., & Miller, M. (to appear in 2017). ION Pacific PNT Conference. Collaborative Stereo Vision Based Relative Pose Estimation with Small UAS Formation.
Leader-follower formation flight of two KHawk UASs was achieved in Spring, 2016.
Preliminary visual odometry results and the 3D ground map are shown in the following figure.
Optical flow has been used by insects and birds for navigation functions such as obstacle avoidance, speed regulation, landing, etc. It also has big potentials to support small UAVs for short-range navigation in GPS-degraded or GPS-denied environments.
- Publications
- Rhudy, M., Chao, H., & Gu, Y. (2014). IEEE International Conference on Intelligent Robots and Systems (IROS). Wide Field Optical Flow Aided Inertial Navigation for Unmanned Aerial Vehicles. (Link)
- Rhudy, M., Gu, Y., Chao, H., & Gross, J. (2015). Unmanned Aerial Vehicle Navigation Using Wide-Field Optical Flow and Inertial Sensors. Journal of Robotics, 2015, 251379. (Link)
- Chao, H., Gu, Y., Gross, J., Rhudy, M., and Napolitano, M., (2016). Flight-Test Evaluation of Navigation Information in Wide-Field Optical Flow, AIAA Journal of Aerospace Information Systems (JAIS), Vol. 13, No. 11, pp.419-432, 2016 (Link).