n this talk, Dr. Liu will share his team's successful experience in both acceleration and scale up of a sophisticated solar irradiance simulation model.

Applications: Society
Science: Education, Engineering, Geosciences
Technology: Space

This presentation details the development and demonstration of fixed-wing unmanned aircraft systems for precision agriculture tasks.

Science: Agriculture & Life Sciences, Education, Engineering
Technology: Air
Applications: Society

This seminar will review liDAR remote sensing from all three platforms – ground, air, and space, and will focus on applications for assessing vegetation biophysical parameters and three-dimensional structure.

Technology: Air, Land, Space
Applications: Environment
Science: Education, Engineering, Geosciences

This presentation will introduce the use of haptic robots to ‘touch’ spatially distributed data of complex mulit-variate systems. The technology to dive into these systems has been developed by the Haptic group at the Stochastic Geomechanics Laboratory (SGL).

Applications: Environment
Science: Education, Engineering
Technology: Land, Sea

The effect of urbanization on stream flows and floodplain extent in the rapidly developing Whiteoak and Sims Bayou watersheds in the Houston area, Texas, is studied.

Technology: Air, Land
Applications: Environment, Society
Science: Education, Engineering, Government & Economics

LiDAR derived information such as a Digital Terrain Model (DTM) and a Canopy Height Model (CHM) from a selected area of the Oregon Coast Range was used to develop a set of hazard and risk index maps.

Applications: Environment
Science: Education, Engineering, Government & Economics
Technology: Land

This presentation summarizes the current, in development, and planned future capabilities of the Vehicle Systems & Control Laboratory with respect to payload directed flight in support of Earth science data collection.

Technology: Air
Applications: Society
Science: Education, Engineering, Information Science

The relationship between topographic form and surface process, though qualitatively well-­understood, is numerically poorly characterized. Identifying, mapping, and characterizing surface processes using machine visualization and automation demands that topographic forms be formalized in mathematical language and that relationships to the polygenetic heritage of geomorphic form be evaluated in a hierarchical, context-­sensitive manner.

Applications: Environment
Science: Education, Geosciences, Information Science
Technology: Land