Title: Signals of Opportunity Airborne Demonstrator (SoOp-AD)
Presenting Author: James L Garrison
Organization: Purdue University

Abstract:
Root zone soil moisture (RZSM) provides a key link between surface hydrology and deeper processes. Biomass also plays a critical role in regulating the carbon cycle, with forests storing nearly the same amount of carbon as the atmosphere. In spite of its importance RZSM is not directly measured by any current satellite instrument. Model assimilation of surface measurements or indirect estimates from other observations must be used to infer this quantity. The objective of SoOp-AD is to develop an airborne demonstrator of a new microwave remote sensing instrument to directly measure RZSM. Signals of Opportunity (SoOp) methods, exploiting reflected satellite signals at VHF and S-band, have many of the benefits of both active and passive microwave remote sensing. Reutilization of active transmitters, with forward-scattering geometry, presents a strong reflected signal even at orbital altitudes. SoOp will not be limited to a few protected frequencies and is far less susceptible to radio-frequency interference (RFI). These unique features of SoOp circumvent past obstacles to a spaceborne VHF remote sensing mission and have the potential to enable new RZSM measurements that are not possible with present technology. A spaceborne SoOp instrument would have a substantially smaller antenna (75 X 75 cm) than a radiometer and require an order of magnitude lower power than radar, while meeting soil moisture (SM) science requirements with a 1 km resolution. SoOp-AD addresses both goals of the IIP: Enabling new Earth observations and reducing the cost and size of Earth observing instruments. A two-year instrument development will transform a current TRL3 breadboard design to TRL4. Flight demonstrations over a Soil Moisture Active Passive (SMAP) calibration and validation site will take place in year 3, exiting the program at TRL5. A subsequent development path to a satellite instrument is well defined. SoOp-AD would also be available for airborne science. A system study has been initiated to define the key driving requirements for the airborne demonstrator. One important consideration is the separation of the space-view signal from the reflected signal, particularly for VHF due to the very wide autocorrelation of the data modulation on those signals, increasing the risk of interference between the direct and reflected signals. Increasing the isolation of the direct and reflected signals was a primary consideration in the design of the VHF