Remote Sensing Methods & Applications

Observations from satellites, aircraft, and ground-based remote sensing platforms are crucial to understanding the earth system on local to global scales.

In Climate & Space, our research includes both the development of remote sensing methods and the application of remotely sensed data to investigate scientific questions. Method development includes inversion algorithms, instrument design and deployment (satellite, airborne, and ground-based), mission design, and calibration approaches. Our research also includes the application of remotely sensed data for the study of radiative transfer, atmospheric composition, ocean dynamics, cryosphere-climate interactions, and the hydrological cycle.

Faculty

• Adriana Raudzens Bailey
• Mark Flanner
• Xianglei Huang
• Gretchen Keppel-Aleks
• Eric A. Kort
• Cheng Li
• Claire Pettersen
• Nilton Renno
• Chris Ruf
• Hugo Carreno-Luengo, Research Scientist
• Roger D. De Roo, Research Scientist
• Darren McKague, Research Scientist
• Aronne Merrelli, Research Scientist
• Genevieve Plant, Research Scientist

Research Groups

• University of Michigan Biological Station (UMBS)