Everett Hinkley scite author profile

Unmanned Aircraft Systems (UAS) have evolved rapidly over the past decade driven primarily by military uses, and have begun finding application among civilian users for earth sensing reconnaissance and scientific data collection purposes. Among UAS, promising characteristics are long flight duration, improved mission safety, flight repeatability due to improving autopilots, and reduced operational costs when compared to manned aircraft. The potential advantages of an unmanned platform, however, depend on many factors, such as aircraft, sensor types, mission objectives, and the current UAS regulatory requirements for operations of the particular platform. The regulations concerning UAS operation are still in the early development stages and currently present significant barriers to entry for scientific users. In this article we describe a variety of platforms, as well as sensor capabilities, and identify advantages of each as relevant to the demands of users in the scientific research sector. We also briefly discuss the current state of regulations affecting UAS operations, with the purpose of informing the scientific community about this developing technology whose potential for revolutionizing natural science observations is similar to those transformations that GIS and GPS brought to the community two decades ago.

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The Ikhana unmanned airborne system (UAS) western states fire imaging missions: from concept to reality (2006–2010)

Ambrosia

Wegener

Zajkowski

et al. 2011

Geocarto International

102

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The sensitivity of US wildfire occurrence to pre-season soil moisture conditions across ecosystems

Jensen

Reager

Zajic

et al. 2018

Environ. Res. Lett.

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It is generally accepted that year-to-year variability in moisture conditions and drought are linked with increased wildfire occurrence. However, quantifying the sensitivity of wildfire to surface moisture state at seasonal lead-times has been challenging due to the absence of a long soil moisture record with the appropriate coverage and spatial resolution for continental-scale analysis. Here we apply model simulations of surface soil moisture that numerically assimilate observations from NASA's Gravity Recovery and Climate Experiment (GRACE) mission with the US Forest Service's historical Fire-Occurrence Database over the contiguous United States. We quantify the relationships between pre-fire-season soil moisture and subsequent-year wildfire occurrence by land-cover type and produce annual probable wildfire occurrence and burned area maps at 0.25-degree resolution. Cross-validated results generally indicate a higher occurrence of smaller fires when months preceding fire season are wet, while larger fires are more frequent when soils are dry. This result is consistent with the concept of increased fuel accumulation under wet conditions in the pre-season. These results demonstrate the fundamental strength of the relationship between soil moisture and fire activity at long lead-times and are indicative of that relationship's utility for the future development of national-scale predictive capability.

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USDA forest service–NASA: unmanned aerial systems demonstrations – pushing the leading edge in fire mapping

Hinkley

Zajkowski

2011

Geocarto International

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Land cover mapping applications with MODIS: a literature review

García-Mora

Mas

Hinkley

2012

International Journal of Digital Earth

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Everett Hinkley

Unmanned Aircraft Systems in Remote Sensing and Scientific Research: Classification and Considerations of Use

The Ikhana unmanned airborne system (UAS) western states fire imaging missions: from concept to reality (2006–2010)

The sensitivity of US wildfire occurrence to pre-season soil moisture conditions across ecosystems

USDA forest service–NASA: unmanned aerial systems demonstrations – pushing the leading edge in fire mapping

Land cover mapping applications with MODIS: a literature review

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