ABSTRACT

This is a one-year effort to conduct a project design study for a proposed new NSF research facility named GEOScan. Representatives from all relevant science disciplines will be identified and involved in the study, which will result in a conceptual design report for the proposed GEOScan project. Broad scientific input to the study will also be sought through a planned community workshop.

The idea behind the proposed GEOScan project is to utilize the next generation of Iridium satellites. Starting in 2014, Iridium will begin launching its next generation of communication satellites. The new spacecraft will replace Iridium's current constellation of 66 low-earth orbit satellites ? the world's largest commercial satellite system. Known as Iridium NEXT, the new constellation will offer a unique opportunity for hosting additional sensor payloads on the communication satellites for a wide range of Earth observation and other scientific or operational objectives. The constellation will provide continuous, real-time visibility over the entire Earth's surface and its atmosphere. The plan for GEOScan is to fly a small scientific payload, called a sensorPOD, on each of the Iridium satellites. Each sensorPOD will consist of two system sensors that are the same for all payloads plus an additional sensor that will be supplied by an individual investigator. The set of additional (hosted) sensors for GEOScan will be selected through a competitive process. The primary goal of this study is to identify system sensors that provide global data for the highest impact discoveries and yet are of interest to the broadest possible range of geoscience disciplines.

In addition to the scientific objectives, the proposed GEOScan program will pursue a number of broader impacts goals. First, the project will establish a unique and unprecedented collaboration with industry to carry science payloads on commercial satellites. It will also foster collaborations and strengthen ties between university and international researchers across science disciplines, the agencies that fund them and the American space industry. Secondly, the project will provide real-time Earth observing data that enable policy makers with actionable information. Finally, the project will provide front-line training opportunities for the next generation of instrument engineers and Geoscientists via the hosted sensor program.