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Use of Unmanned Aircraft Systems (UAS) For Environmental Applications Robbie Hood, NOAA UAS Program Director NOAA Office of Oceanic and Atmospheric Research.

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Presentation on theme: "Use of Unmanned Aircraft Systems (UAS) For Environmental Applications Robbie Hood, NOAA UAS Program Director NOAA Office of Oceanic and Atmospheric Research."— Presentation transcript:

1 Use of Unmanned Aircraft Systems (UAS) For Environmental Applications Robbie Hood, NOAA UAS Program Director NOAA Office of Oceanic and Atmospheric Research 16 December 2011

2 NOAA and NASA Manned and Unmanned Flight Capabilities NOAA UAS Program2 HALE - High Altitude Long Endurance MALE - Medium Altitude Long Endurance LALE - Low Altitude Long Endurance LASE - Low Altitude Short Endurance

3 NOAA and NASA Manned and Unmanned Aircraft Fuel Consumption NOAA UAS Program3 70 gal/hr 18 gal/hr 1750 gal/hr Fuel consumption in gal/hr for average mission 740 gal/hr75 gal/hr 0.2 gal/hr 444 gal/hr 0 gal/hr (battery) 0.3 gal/hr

4 NOAA UAS Strategic Vision and Goals Vision –UAS will revolutionize NOAA observing strategies by 2014 comparable to the introduction of satellite and radar assets decades earlier Goals –Goal 1: Increase UAS observing capacity –Goal 2: Develop high science-return UAS missions High impact weather monitoring, Polar monitoring Marine monitoring –Goal 3: Transition cost-effective, operationally feasible UAS solutions into routine operations 4NOAA UAS Program

5 NOAA UAS Program Strategic Direction 5 Innovate Incubate Integrate NOAA UAS Program

6 Wide Range of Innovative UAS Observing Solutions Quiet and Easily Transportable for High Resolution Imaging Versatile Platform and Payload Capabilities for Low Altitude Profiling High Altitude Long Endurance for Comprehensive Imaging and Profiling

7 Winter Storms and Pacific Atmospheric Rivers (WISPAR) Experiment Mission Scientists: Gary Wick (NOAA/ESRL) and Michael Black (NOAA/AOML) Partners: Yucheng Song (NOAA/NCEP), Janet Intrieri (NOAA/ESRL), Ryan Spackman (CU), NASA, NSF/NCAR Dropsonde System NCAR development / NOAA and NSF sponsorship 88 sonde total capacity First dropsonde release from a Global Hawk

8 Roadmap for Global Capabilities 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 Vision of Global Profiling System Proven NASA Global Hawk flight capabilities Arctic, Pacific, Gulf of Mexico, Atlantic Tropical and winter storms Dropsonde and remote sensing profiling Aircraft in situ profiling Opportunity for NASA leadership of Interdepartmental Global Hawk Testbed dedicated to proof of concepts for operational high impact weather monitoring 8NOAA UAS Program

9 Contact Information UAS Web Site: http://uas.noaa.gov/ NOAA UAS Program Director robbie.hood@noaa.gov 303-905-3411 (cell) 9NOAA UAS Program

10 Backup Slides NOAA UAS Program10

11 Reality of Unmanned Aircraft Systems Proven platforms and payloads Many classified at Technology Readiness Level – 9 Air Force and Navy Global Hawk - 20,000 flight hours over 10 years Air Force and CBP Predator – 1M flight hours over 15 years Army PM UAS – 1 M flight hours among 5 operational UAS models Airspace Access improving FAA Certificate of Authorization (COA) to flight - Approved for NASA and NOAA science missions FAA flight rules for small low altitude UAS – Expected by 2013 Advancing DOD sense and avoid technologies – Army/FAA pilot study underway for 2010 - 2015 New capabilities on the horizon High altitude Zephyr - flown for 2 weeks DARPA technology investments – flight times of months to years UAS - launched from balloons or other aircraft 11 NOAA UAS Program

12 Tools for Building UAS Expertise and Capacity NOAA UAS Expertise and Capacity UAS Platform and Payload Demonstrations Requirements Documentation and Trade Studies Observing System Simulation Experiments and Information Management Partnerships Airspace, Safety, Training and Operational Procedures 12 NOAA UAS Program

13 Roadmap for Cryosphere Monitoring 2008 2009 2010 2011 2012 2013 2014 2015 2016 2017 2018 NOAA low altitude melting glacier study in Greenland NOAA low altitude black carbon study in Norway NASA-NOAA low and medium altitude marginal ice zone study in Bering Sea Optimized UAS ice observing strategy 13NOAA UAS Program

14 Roadmap for Low Altitude Marine and Wildlife Monitoring 2009 2010 2011 2012 2013 2014 2015 NOAA UAS ship- deployed study of ice seals in Bering Sea NOAA UAS penguin study in Antarctica University of Alaska - Fairbanks UAS partnership study of seals at Dutch Harbor Optimized UAS marine and wildlife observing strategy Coast Guard UAS partnership study of oil spill monitoring in Santa Barbara channel 14NOAA UAS Program

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