National Academies Press: OpenBook
« Previous: 13 Appendix: Other Resources
Page 131
Suggested Citation:"14 References." National Academies of Sciences, Engineering, and Medicine. 2019. Airports and Unmanned Aircraft Systems, Volume 2: Incorporating UAS into Airport Infrastructure— Planning Guidebook. Washington, DC: The National Academies Press. doi: 10.17226/25606.
×
Page 131
Page 132
Suggested Citation:"14 References." National Academies of Sciences, Engineering, and Medicine. 2019. Airports and Unmanned Aircraft Systems, Volume 2: Incorporating UAS into Airport Infrastructure— Planning Guidebook. Washington, DC: The National Academies Press. doi: 10.17226/25606.
×
Page 132
Page 133
Suggested Citation:"14 References." National Academies of Sciences, Engineering, and Medicine. 2019. Airports and Unmanned Aircraft Systems, Volume 2: Incorporating UAS into Airport Infrastructure— Planning Guidebook. Washington, DC: The National Academies Press. doi: 10.17226/25606.
×
Page 133
Page 134
Suggested Citation:"14 References." National Academies of Sciences, Engineering, and Medicine. 2019. Airports and Unmanned Aircraft Systems, Volume 2: Incorporating UAS into Airport Infrastructure— Planning Guidebook. Washington, DC: The National Academies Press. doi: 10.17226/25606.
×
Page 134
Page 135
Suggested Citation:"14 References." National Academies of Sciences, Engineering, and Medicine. 2019. Airports and Unmanned Aircraft Systems, Volume 2: Incorporating UAS into Airport Infrastructure— Planning Guidebook. Washington, DC: The National Academies Press. doi: 10.17226/25606.
×
Page 135
Page 136
Suggested Citation:"14 References." National Academies of Sciences, Engineering, and Medicine. 2019. Airports and Unmanned Aircraft Systems, Volume 2: Incorporating UAS into Airport Infrastructure— Planning Guidebook. Washington, DC: The National Academies Press. doi: 10.17226/25606.
×
Page 136
Page 137
Suggested Citation:"14 References." National Academies of Sciences, Engineering, and Medicine. 2019. Airports and Unmanned Aircraft Systems, Volume 2: Incorporating UAS into Airport Infrastructure— Planning Guidebook. Washington, DC: The National Academies Press. doi: 10.17226/25606.
×
Page 137
Page 138
Suggested Citation:"14 References." National Academies of Sciences, Engineering, and Medicine. 2019. Airports and Unmanned Aircraft Systems, Volume 2: Incorporating UAS into Airport Infrastructure— Planning Guidebook. Washington, DC: The National Academies Press. doi: 10.17226/25606.
×
Page 138

Below is the uncorrected machine-read text of this chapter, intended to provide our own search engines and external engines with highly rich, chapter-representative searchable text of each book. Because it is UNCORRECTED material, please consider the following text as a useful but insufficient proxy for the authoritative book pages.

Incorporating UAS into Airport Infrastructure—Planning Guidebook   130 14 References Aerospace Industries Association of America (AIA) and Avascent. (2018). Think Bigger: Large Unmanned Systems & The Next Major Shift in Aviation. Allred, B. E. (2018). Effective and efficient agricultural drainage pipe maping with UAS thermal infrared imagery: A case study. Agricultural Water Management, 132-137. Allred, B., Eash, N., Freeland, R., Martinez, L., & Wishart, D. (2018, January 15). Effective and efficient agricultural drainage pipe maping with UAS thermal infrared imagery: A case study. Agricultural Water Management, 132-137. Armstrong Consultants. (2017). Silver Spring Airport Master Plan. Asplund, H., Lin, X., Maattanen, H. L., Muruganathan, S. D., Wang, Y. E., & Yajnanarayana, V. (2018). The Sky Is Not The Limit: LTE For Unmanned Aerial Vehicles. IEEE Communications Magazine, pp. 204- 210. ATL. (2018). 5 Reasons to Choose A Long-Endurance Dixed-Wing VTOL UAV. Retrieved from ATL: https://www.altiuas.com/5-reasons-choose-long-endurance-fixed-wing-uav/ AUVSI. (2018, September 19). State Farm Granted Waiver To Conduct Uas Operations Over People And BVLOS In Areas Effected By Hurricane Florence. Retrieved from AUVSI.org: https://www.auvsi.org/industry- news/state-farm-granted-waiver-conduct-uas-operations-over-people-and-bvlos-areas-effected Bachman, J. (2017, July 21). The Airport of the Future Are Here. Retrieved from Bloomberg: bloomberg.com/new/articles/2017-07-21/the-airports-of-the-future-are-here Banse, T. (2018, November 12). In Eastern Orego, Pendleton Has Become A Drone-Testing Hub, With Hopes For More. Retrieved from Northwest Public Broadcasting: https://www.nwpb.org/2018/11/12/in- eastern-oregon-pendleton-has-become-a-drone-testing-hub-with-hopes-for-more/ BI Intelligence. (2016, 6 10). THE DRONES REPORT: Market forecasts, regulatory barriers, top vendors, and leading commercial applications. Retrieved from Business Insider: http://www.businessinsider.com/uav-or- commercial-drone-market-forecast-2015-2 Brunner, A. (2018). Small Unmanned Aircraft Systems (sUAS) & Airports. ASW Airports Conference. FAA. CAE. (2017). Airline Pilot Demand Outlook. CAE. Canis, B. (2015, September 9). Unmanned Aircraft Systems (UAS): Commercial Outlook for a New Industry. Retrieved from Congressional Research Service: https://fas.org/sgp/crs/misc/R44192.pdf Carlini, J. (2017, January 7). The Anti-Drone Revolution: 22 Companies Building Killer Drone Tech Today. Retrieved from mag.dronesx.com: https://mag.dronesx.com/anti-drone-revolution-companies-building-killer- drone-tech/ Century West Engineering. (2018). Eastern Oregon Regional Airport, Airport Master Plan Report, FInal Draft Report. Chilton, P. (n.d.). Uber Sky Tower. Retrieved from Pickard Chilton: https://www.pickardchilton.com/work/uber-sky-tower

Incorporating UAS into Airport Infrastructure—Planning Guidebook   131 Christian, B. (2019, January 7). Gatwick drone choas: cost to airport and airlines expected to run into tens of millions of pounds. Retrieved from London Evening Standard: https://www.standard.co.uk/news/uk/cost-of- gatwick-drone-chaos-expected-to-run-into-tens-of-millions-a4030751.html Clothier, R., Greer, D. A., Greer, D. G., & Mehta, A. (2015). Risk Perception And The Public Acceptance Of Drones. RMIT University & QUT University. Cohn, P., Green, A., Langstaff, M., & Roller, M. (2017, December). Commercial drones are here: The future of unmanned aerial systems. Retrieved from McKinsey & Company: https://www.mckinsey.com/industries/capital-projects-and-infrastructure/our-insights/commercial- drones-are-here-the-future-of-unmanned-aerial-systems (2018, April). Conference Call with FAA Forecasting Branch. Corgan. (n.d.). CONNECT: Corgan's Mega Skyport. Retrieved from Corgan.com: https://www.corgan.com/story/connect-corgans-mega-skyport/ Crosby-Close, D., & Ros, M. (2018, February 16). Business Traveler- What Will Passenger Planes Look Like In 2068. Retrieved from CNN: https://www.cnn.com/travel/article/passenger-planes-future- look/index.html) Daniels, J. (2018, June). President of the Eldorado Aerodrome LLC and Manager of the Searchlight Airport. Davis, R. L. (2015). Mechanical Design and Optimization of Swarm Capable UAV Launcher Systems. Retrieved from Air-Vision Air (AVA): http://www.air-visionair.com/products-for-you/asm300-2-5-6kg-catapult/ DeGarmo, M. (2004). Issues Concerning Integration of Unmanned Aerial Vehicles in Civil Airspace. MITRE Corporation. Deloitte. (2015). Drones: high-profile and niche. Retrieved from Deloitte Predictions: https://www2.deloitte.com/global/en/pages/technology-media-and- telecommunications/articles/tmt-pred-drones-high-profile-and-niche.html Dermody, J. R. (2019, May 7). UAS Detection Countermeasures Technology at Airports Sponsor Letter. Retrieved from faa.gov: https://www.faa.gov/airports/airport_safety/media/Updated-Information-UAS-Detection- Countermeasures-Technology-Airports-20190507.pdf Dickey, M. (2018, May 9). These uberAir 'Skyport' designs are beautiful. Retrieved from Techcrunch: https://techcrunch.com/2018/05/09/these-uberair-skyport-concepts-are-beautiful/ DOD. (2005). Unmanned Aicraft Systems Roadmap 2005-2030. US Department of Defense. DOD. (2008). Apron and Other Pavement Requirements. Unified Facilities Criteria, Airfield and Heliport Planning and Design (UFC-3-260-01). US Department of Defense. DOD. (2008, November 17). US Navy and Marine Corps Aircraft Block Dimensions. Unified Facilities Criteria, Airfield and Heliport Planning and Design (UFC 3-260-01). US Department of Defense. DOD. (2011). Unmanned Aircraft System Airspace Integration Plan. Washington, DC: US DOD. DOD. (2018). Unmanned Systems Integrated Roadmap (2017-2042). US Department of Defense. Dombroff, M., & McKinnon, M. (2018, October 4). The FAA Reauthorization Act of 2018, Everything You Wanted to Know... Retrieved from LeClair Ryan:

Incorporating UAS into Airport Infrastructure—Planning Guidebook   132 https://www.leclairryan.com/files/Uploads/Documents/Aviation%20Symposium%20Series%20- %20FAA%20Reauthorization%20Act%202018%20-%20slide%20deck%20-%2010%2004%2018.pdf Donohue, L. (2018). A Tale Of Two Soverigns: Federal and State Use and Regulation of Unmanned Aircraft Systems. Springer International. DOT. (2013, September). Unmanned Aircraft Systmen (UAS) Service Demand 2015-2035. Retrieved from fas.org: https://fas.org/irp/program/collect/service.pdf DOT. (2018). Beyond Traffic 2045, Trends and Choices. US Department of Transportation. Drone Advisory Committee. (2018). Report of the Drone Advisory Committee. RTCA. Eastern Oregon Regional Airport. (2018, October). Airport Master Plan Report. Retrieved from Century West: https://www.centurywest.com/wp-content/uploads/2019/01/EORA-Combined-Chapters-Part- 1.pdf EDA Public Affairs Department. (2018, August 28). US Department of Commerce Invests $3 Million To Build Unmanned Aerial Systems Training and Innovation Facility In New Jersey. Retrieved from eda.gov: https://www.eda.gov/news/press-releases/2018/08/28/cape-may-nj.htm European Union Aviation Safety Agency. (2016, December 20). Special Condition: Remote Pilot Station. Retrieved from https://www.easa.europa.eu/sites/default/files/dfu/SC-RPAS.RPS-01%20- %20Remote%20Pilot%20Station%20-%20final.pdf European Union Aviation Safety Agency. (2017, September 15). Notice of Proposed Amendment 2017-05(B). Retrieved from European Union Aviation Safety Agency: https://www.easa.europa.eu/document- library/notices-of-proposed-amendment/npa-2017-05 FAA. (1983). Airport Capacity and Delay Advisory Circular (AC) 150/5060-5. Washington, DC: FAA. FAA. (2009, September). FAA Airport Compliance Manual — Order 5190.6B. Retrieved from FAA: https://www.faa.gov/airports/resources/publications/orders/compliance_5190_6/ FAA. (2012). FAA Modernization Act of 2012. Retrieved from faa.gov: http://fsims.faa.gov/wdocs/notices/n8900_313.htm FAA. (2012). Heliport Design Advisory Circular 150/5390-2C. Washington, DC: US Federal Aviation Administration. FAA. (2014). Airport Design FAA Advisory Circular (AC) 150/5300-13A. Washington, DC: FAA. FAA. (2014, September 30). Airport Improvement Program (AIP) Handbook - Order 5100.38D. Retrieved from Federal Aviation Administration: https://www.faa.gov/airports/aip/aip_handbook/ FAA. (2014). Assurances, Airport Sponsors. FAA. (2015). Order 1050.1F Environmental Impacts: Policies and Procedures, 7/16/15, Paragraph 5-6.4(f). FAA. FAA. (2016). Glossary for the 2016 Terminal Area Forecast (2018). Retrieved from FAA.gov: https://taf.faa.gov/Downloads/Glossaryfor2016TAF.pdf FAA. (2016). Report to Congress National Plan of Integrated Airport Systems (NPIAS). Washington, DC: US DOT.

Incorporating UAS into Airport Infrastructure—Planning Guidebook   133 FAA. (2017, April 14). AC 150/5000-17 - Critical Aircraft and Regular Use Determination. Retrieved from FAA: https://www.faa.gov/airports/resources/advisory_circulars/index.cfm/go/document.current/docu mentNumber/150_5000-17 FAA. (2017). FAA Aerospace Forecast Fiscal Years 2017-2037. Washington, DC: FAA. FAA. (2017, 4 27). UAS Facility Maps. Retrieved from FAA.gov: https://www.faa.gov/uas/request_waiver/uas_facility_maps/ FAA. (2018, March 1). Central Region Airports Division, AIP Sponsor Guide - 500 . Retrieved from FAA.gov: https://www.faa.gov/airports/central/aip/sponsor_guide/media/0500.pdf FAA. (2018). FAA Aerospace Forecast Fiscal Years 2018-2038. Washington, DC: United States Federal Aviation Administration. FAA. (2018). FAA Aerospace Forecast, Fiscal Years 2018-2038. FAA. FAA. (2018, October 5). FAA Reauthorization Bill Establishes New Conditions for Recreational Use of Drones. Retrieved from https://www.faa.gov/news/updates/?newsId=91844 FAA. (2018, October 5). FAA Reauthorization Bill Establishes New Conditions for Recreational Use of Drones. Retrieved from Federal Aviation Administration: https://www.faa.gov/news/updates/?newsId=91844 FAA. (2018, July 23). Fact Sheet – Small Unmanned Aircraft Regulations (Part 107). Retrieved from Federal Aviation Administration: https://www.faa.gov/news/fact_sheets/news_story.cfm?newsId=22615 FAA. (2018, May 25). UAS Homepage. Retrieved from FAA.com: www.faa.gov/UAS/ FAA. (2019, March 11). Agency Information Collection Activities: Proposed Collection: Public Comment Request. Retrieved from https://www.federalregister.gov/documents/2019/03/11/2019-04368/agency- information-collection-activities-proposed-collection-public-comment-request FAA. (2019, Febuary 28). FAA.gov. Retrieved from 8900.504 - Expanded Unmanned Aircraft Systems Oversight: https://www.faa.gov/regulations_policies/orders_notices/index.cfm/go/document.information/do cumentID/1035409 FAA. (n.d.). Order 5190.6B, Chapter 20, Compatible Land Use. Title 49. United States Code (U.S.C) 47107 (a) (10). FAA. (n.d.). Unmanned aircraft systems (UAS) frequently asked questions. Retrieved from Federal Aviation Administration: https://www.faa.gov/uas/faqs/#top Fagella, D. (2017, June 4). Self-driving car timeline for 11 top automakers. Retrieved from Venturebeat: https://venturebeat.com/2017/06/04/self-driving-car-timeline-for-11-top-automakers/ FCC. (2017, April 12). Aviation Radio Services. Retrieved from FCC.gov: https://www.fcc.gov/wireless/bureau-divisions/mobility-division/aviation-radio-services FCC. (2017). Quick-Form Application for Authorization in the Ship, Aircraft, Amateur, Restricted and Commercial Operator, and General Mobile Radio Services. Washington, D.C. Finnegan, P. (2015, 8 19). PRESS RELEASE: UAV Production Will Total $93 Billion. Retrieved from Teal Group Corporation: http://tealgroup.com/index.php/teal-group-news-media/item/press-release- uav-production-will-total-93-billion

Incorporating UAS into Airport Infrastructure—Planning Guidebook   134 Finnegan, P. (2017). World Civil Unmanned Aerial Systems Market Profile and Forecast. Fairfax, VA: Teal Group. Fleet, D., Grosoli, F., Neubauer, K., & Verstynen, H. (2015). ACRP Report 144 Unmanned Aircraft Systems (UAS) at Airports: A Primer. Washington, D.C.: Transportation Research Board. GAO. (n.d.). Unmanned Aerial Systems (Drones). Retrieved from US Government Accountability Office: https://www.gao.gov/key_issues/unmanned_aerial_systems/issue_summary Gonzalez, O., Leo, T. J., & Navarro, E. (2014). Fuel Cells: A Real Option for Unmanned Aerial Vehicles Propulsion. The Scientific World Journal. Greenwood, F. (2018, October 15). When Can the Government Shoot Down Civilian Drones? Retrieved from Slate: https://slate.com/technology/2018/10/preventing-emerging-threats-act-faa-shooting-drones.html Hawaii Foreign Trade Zone. (n.d.). What is Foreign-Trade Zone? Retrieved from FTZ9.org: ftz9.org/about- us/who-and-what-is-a-foreign-trade-zone/ Henricksen, S. (2008). Unmanned Aircraft System Control and ATC Communications Bandwith Requirements. NASA. Hodgman, R. (2018, August 27). Senior Aviation Planner at Washington Staet Department of Transportation. (J. K.-A. Humble, Interviewer) ICAO. (2011). Circular 328, Unmanned Aircraft Systems. ICAO. (2011). ICAO Circular 328-Unmanned Aircraft Systems (UAS). Retrieved from ICAO.int: https://www.icao.int/Meetings/UAS/Documents/Circular%20328_en.pdf ICAO. (n.d.). About ICAO. Retrieved from icao.int: https://www.icao.int/about-icao/Pages/default.aspx ICAO. (n.d.). Remotely Piloted Aircraft System (RPAS) Concept of Operations (CONOPS) for International IFR Operations. Retrieved from ICAO.int: https://www.icao.int/safety/UA/Documents/RPAS%20CONOPS.pdf Ison, D., Liu, D., & Vincenzi, D. (2013). Public Perception of Unmanned Aerial Systems (UAS): A Survey of Public Knowledge Regarding Roles, Capabilities, and Safety While Operating Within the National Airspace System (NAS). Embry-Riddle Aeronautical University. Kestleloo, H. (2018, October 3). H.R. 302, the FAA Reauthorization Act of 2018 passed by Senate today. Retrieved from Drone DJ: https://dronedj.com/2018/10/03/senate-faa-reauthorization-act-2018/ Krause, H. (2018). GAO-18-110 Report Small Unmanned Aircraft Systems. Washington, DC: Government Accountability Office. Kwai, I. (2018, January 18). A Drone Saves Two Swimmers In Australia. Retrieved from New York Times: https://www.nytimes.com/2018/01/18/world/australia/drone-rescue-swimmers.html Levy, N. (2018, October 3). Boeing CEO: First Operational Self-Flying Cars Are Less Than 5 Year Out. Retrieved from Geekwire.com: https://www.geekwire.com/2018/1st-operational-self-flying-cars-less-5-years- says-boeing-ceo/amp/ Lillian, B. (2018, April 30). FAA Officially Kicks off Nationwide Test of LAANC. Retrieved from Unmanned Aerial Online: https://unmanned-aerial.com/faa-officially-kicks-off-nationwide-test-of-laanc Lin, J., & Singer, P. (2018, 2 8). This people-moving drone has completed more than 1,000 test flights. Popular Science.

Incorporating UAS into Airport Infrastructure—Planning Guidebook   135 Longley, R. (2018, June 05). Concerns Over Drone Aircraft Used in the United States. Retrieved from Thought Co.: https://www.thoughtco.com/unmanned-aircraft-used-in-the-united-states-3321822 Lovering, Z. (2018, January 31). Vahana's First Flight A Success. Retrieved from Vahana: https://vahana.aero/vahanas-first-flight-a-success-ade26d26ba02 Makarious, M. (2018, July 16). FAA Will Continue to Stay Out of the Realm of Regulating UAS Privacy Issues for Now. Retrieved from Anderson Kreiger: https://www.andersonkreiger.com/municipal- law/2018/07/16/faa-will-continue-to-stay-out-of-the-realm-of-regulating-uas-privacy-issues-for- now/ Margaritoff, M. (2018, June 25). AT&T and Verion Test 4G LTE Drones In New Jersey. Retrieved from The Drive: http://www.thedrive.com/tech/21756/att-and-verizon-test-4g-lte-drones-in-new-jersey Matthews, Esq., S., Frisbie, P.E., F., & Cistone, Ph.D., J. H. (2017). Opportunities and Challenges for Use of UAS at Airports. Washington Progress Group LLC. Retrieved from https://www.atca.org/Uploads/symposium/2017/Tech%20Papers/Opportunities%20and%20Chall enges%20for%20use%20of%20UAS%20at%20airports.pdf McMahon, T. (2018, October 3). FAA Reauthorization AUVSI. (B. Davis, Interviewer) Retrieved from https://www.youtube.com/watch?v=9jrJjftS0Ak Morrison, S. (2019, January 14). Scotland Yard asks volunteers to help police skies over Heathrow after airport drone chaos. Retrieved from London Evening Standard: https://www.standard.co.uk/news/transport/scotland- yard-calls-for-volunteers-to-help-police-skies-over-heathrow-after-airport-drone-chaos- a4038786.html NASEM. (2015). Unmanned Aircraft Systems at Airports: A Primer. Washington, D.C.: The National Academies Press. NASEM. (2018). Assesing the Risks of Integrating Unamanned Airraft Systems into the National Airspace System. Washington, DC: The National Academies Press. NASEM. (2018). Assessing the Risks of Integrating Unmanned Aircraft Systems into te National Airspace System. Washignton, DC: The National Academies Press. Norman Foster Foundation. (2016). Droneport. Retrieved from Norman Foster Foundation: http://www.normanfosterfoundation.org/project/droneport/ Northeast UAS Airspace Integration Research Alliance. (2018). Top 100 Drone Companies to Watch in 2019. Retrieved from UAVCoach.com: https://uavcoach.com/drone-companies/ Northon, K. (2018, June 12). NASA Flies Large Unmanned Aircraft in Public Airspace Without Chase Plane for First Time. Retrieved from NASA.gov: https://www.nasa.gov/press-release/nasa-flies-large-unmanned- aircraft-in-public-airspace-without-chase-plane-for-first Oregon Department of Aviation. (n.d.). Aviation System Action Program (ASAP). Retrieved from https://www.oregon.gov/aviation/Pages/Aviation_System_Action_Program.aspx Oregon Department of Transportation. (n.d.). Programs. Retrieved from Oregon Department of Transportation: https://www.oregon.gov/odot/programs/pages/connectoregon.aspx Park, K. (2018, September 16). The Airport of the Future is Here. And it Doesnt Need Humans. Singapore's Changi Airport is blazing a trail when it comes to automation. Retrieved from Bloomberg News:

Incorporating UAS into Airport Infrastructure—Planning Guidebook   136 https://www.bloomberg.com/news/features/2018-09-16/singapore-s-changi-airport-is-partly-run- by-robots Plummer, Q. (2015, 5 6). FAA Approves Yamaha RMAX Drone to Spray Crops in U.S. Tech Times. Price, J., & Forrest, J. (2016). Practical Airport Operations, Safety, and Emergency Management. Boston: Elsevier. Price, M., Bonset, F., & FAA. (2018, October 22). Prindle, D. (2018, 3 13). DJI Phantom 4 Pro review. Retrieved from Digital Trends: https://www.digitaltrends.com/drone-reviews/dji-phantom-4-pro-review/ Radio Division, TEC. (n.d.). Communication Aspects of Unmanned Aircraft Systems (UAS). Telecommunication Engineering Center (TEC), Government of India. Representatives, F. A. (2018, November 1). Robonic. (n.d.). Robonic Company Profile. Retrieved from Robonic.fi: https://www.robonic.fi/company-profile/ Rupprecht Law P.A. (2018). FAA Reuthorization Act of 2018 % Drones. Retrieved from Rupprecht Law P.A.: https://jrupprechtlaw.com/faa-reauthorization-act-of-2018 Saddiqui, B. A. (2017). Design Optimization, Manufacture and Testing of UAV Pneumatic Catapult. 5th International Conference on Aerospace Science and Engineering. Islamabad, Pakistan: Institute of Space Technology, Pakistan. Searidge Technology. (2017, March 7). Searidge Introduces Aimee - Artificial Intelligence Platform. Retrieved from Searidge Techa: searidgetech.com/press-releases/searidge-introduces-aimee-artificial-intelligence- platform-for-atm/ Sierra, A. (2018, December 2018). Pendleton secures $300,000 Grant For Drone Range. Retrieved from East Oregonian: https://www.eastoregonian.com/news/local/pendleton-secures-grant-for-drone- range/article_2a37c232-0587-11e9-862a-57bcb11391b2.html Sierra, A. (2018, September 4). Pendleton UAS Industrial Park Plans Get The Go Ahead. Retrieved from East Oregonian: http://www.eastoregonian.com/eo/local-news/20180904/pendleton-uas-industrial- park-plans-get-the-go-ahead Smart, J. (2018, February 20). Our Amazing Aerial Future — How, When, and Why Air Taxis and Air Deliveries Will Change Our World. Retrieved from Medium.com: https://medium.com/@johnsmart/our-amazing- aerial-future-how-when-and-why-air-taxis-and-air-deliveries-will-change-our-world-2fc67d6b669 Soshkin, M. (2017). Unmanned Aerial Vehicle (UAV) Manufacturing in the US, OD4424. IBISWorld. SRC, Inc. (n.d.). Ground-Base Sense and Avoid Radar System. Retrieved from https://www.srcinc.com/what-we- do/radar-and-sensors/gbsaa-radar-system.html The Aerodrome, LLC. (2019). Test, Train, Manufacture, or Fly. Retrieved from Aerodrome: http://www.flyaerodrome.com/Services/FacilitiesRental/ Thipphavong, D. P., Apaza, R. D., Barmore, B. E., Battiste, V., Belcastro, C. M., Burian, B. K., . . . Verma, S. A. (2018). Urban Air Mobility Airspace Integration Concepts and Considerations. Aviation Technology, Integration, and Operations Conference. NASA.

Incorporating UAS into Airport Infrastructure—Planning Guidebook   137 TRB ACRP Web Resources. (n.d.). Aligning Community Expectations with Airport Roles - Identifying Your Airport’s Strengths and Weaknesses. Retrieved from Transportation Research Board. Turner, J. S. (2016, May 11). 5 Major Obstacles For Unmanned Aircraft Systems. Retrieved from Wiley Rein LLP: https://www.wileyrein.com/newsroom-articles-5-Major-Obstacles-For-Unmanned-Aircraft- Systems.html UAS Vision. (2017, February 17). First Drone Flights at Atlanta Airport. Retrieved from UAS Vision: https://www.uasvision.com/2017/02/17/first-drone-flights-at-atlanta-airport/ UAV Dach. (2018, April 11). Hybrid Tilt-Rotor UAV Using Typhoon Design Software. Retrieved from UAV Dach: https://www.uavdach.org/?p=47547 UAV Dach. (2019). Hybrid Tilt-Rotor UAV Using Typhon Design Software. Retrieved from UAV DACH: https://www.uavdach.org/?p=47547 Uber Elevate. (2016). Fast-Forwarding to a Future On-Demand Urban Air Transportation. US Army. (2014, 5 31). US Army Corps of Engineers. Retrieved from http://8tharmy.korea.army.mil/safety/bulletins/Aviation%20resources/UFC_3_260_01- Airfield%20and%20Heliport%20Planning%20and%20Design_Changes.pdf USA Drone Port. (n.d.). Retrieved from USA Drone Port: https://www.usadroneport.com/our-vision/ USAF. (2013). Unmanned Aircraft System (UAS) Service Demand 2015-2035. Bedford, MA: US Air Force. Wanner, K. (2018, August 27). Executive Director at North Dakota Aeronautics Commission. (J. K.-A. Humble, Interviewer) White, M., & Grafton-Green, P. (2019, Fbruary 1). Heathrow airport drone: Runway closed and flights frounded after drone sighting. Retrieved from London Evening Standard: https://www.standard.co.uk/news/uk/uk- weather-and-snow-forecast-live-coldest-night-since-2012-at-154c-with-more-snow-on-the-way- a4054826.html#spark_wn=1 Williams, D. (2018, January 10). Airport Certification Safety Inspector (and UAS Integration Specialist). Wyman, O. (2018, February 5). Autonomous Transportation Will Arrive Faster Than Predicted And Afford Bigger Business Opportunities. Retrieved from Forbes: https://www.forbes.com/sites/oliverwyman/2018/02/05/autonomous-transportation-will-arrive- faster-than-predicted-and-afford-bigger-business-opportunities/#171ad11a41e7 Wyman, O. (2018, September 10). Why The Use Of Drones Still Faces Big Regulatory Hurdles. Retrieved from Forbes: https://www.forbes.com/sites/oliverwyman/2018/09/10/why-the-use-of-drones-still- faces-big-regulatory-hurdles/#218f2fe61c0d Zhang, B. (2017, September 19). Airlines Could Cash In On A $30 Billion Opportunity That Would Make Pilots Obsolete. Retrieved from Business Insider: https://www.businessinsider.com/pilotless-planes-could- save-airlines-30-billion-ubs-2017-9

Airports and Unmanned Aircraft Systems, Volume 2: Incorporating UAS into Airport Infrastructure— Planning Guidebook Get This Book
×
MyNAP members save 10% online.
Login or Register to save!
Download Free PDF

It is anticipated that unmanned aircraft systems (UAS) will increase in activity within the airport environment and will expand due to market demand, operational requirements, and changes in UAS specifications (such as size, weight, and payload). To date, the majority of small UAS, defined as less than 55 pounds, operate outside of the airport environment. However, some public airports are currently supporting limited UAS operations (like testing, agriculture, survey, photography, and racing).

As a result, this pre-publication draft of ACRP (Airport Cooperative Research Program) Research Report 212: Airports and Unmanned Aircraft Systems, Volume 2: Incorporating UAS into Airport Infrastructure— Planning Guidebook provides suggested planning, operational, and infrastructure guidance to safely integrate existing and anticipated UAS operations into an airport environment.

This guidebook is particularly applicable to smaller airports (non-hub and general aviation) without capacity issues. The planning approach could help these airports prepare for and attract UAS operations for additional revenue in the near term. Larger airports (large, medium, and small hubs) are likely less inclined to be interested in attracting UAS operations in the near term, but they will have to accommodate UAS as they are integrated into the commercial cargo and passenger aircraft fleet in the future.

Other Resources:

Volume 1: Managing and Engaging Stakeholders on UAS in the Vicinity of Airports provides guidance for airport operators and managers to interact with UAS operations in the vicinity of airports.

Volume 3: Potential Use of UAS by Airport Operators provides airports with resources to appropriately integrate UAS missions as part of their standard operations.

  1. ×

    Welcome to OpenBook!

    You're looking at OpenBook, NAP.edu's online reading room since 1999. Based on feedback from you, our users, we've made some improvements that make it easier than ever to read thousands of publications on our website.

    Do you want to take a quick tour of the OpenBook's features?

    No Thanks Take a Tour »
  2. ×

    Show this book's table of contents, where you can jump to any chapter by name.

    « Back Next »
  3. ×

    ...or use these buttons to go back to the previous chapter or skip to the next one.

    « Back Next »
  4. ×

    Jump up to the previous page or down to the next one. Also, you can type in a page number and press Enter to go directly to that page in the book.

    « Back Next »
  5. ×

    To search the entire text of this book, type in your search term here and press Enter.

    « Back Next »
  6. ×

    Share a link to this book page on your preferred social network or via email.

    « Back Next »
  7. ×

    View our suggested citation for this chapter.

    « Back Next »
  8. ×

    Ready to take your reading offline? Click here to buy this book in print or download it as a free PDF, if available.

    « Back Next »
Stay Connected!