1. Ship-based UAV Recovery System (SURS) Launch and Recovery of Manned and Unmanned Vehicles from Marine Platforms 2010 Symposium March 8-9, 2010

2. 2 Problem Statement Navy wants to base Unmanned Aerial Vehicles (UAV’s) off of ships for a variety of missions Needs method to recover UAV’s onto ships Compatible with future ship operations – high tempo, highly autonomous, low manpower required Baseline Technology: Net-based recovery. Manpower-intensive, Risks damage to UAV. Not scalable to high-tempo operations

3. March 8-9, 20103 Ship-based UAV Recovery System (SURS) Tailhook-based recovery Compatible with fully autonomous operation Addresses large aircraft, to 350 lb GTOW

4. March 8-9, 20104 Ship-based UAV Recovery System (SURS) Fixed-wing UAV’s 100-350 lb –Examples: Shadow, Pioneer Tailhook-based recovery Small-deck Navy ships, e.g. LCS- class Compatible with fully autonomous operation Recovers across width of deck Occurs while ship underway Sea states targeted to SS 5 Minimal ship design impact Modular and stowable

5. March 8-9, 20105 Phase II Base Project MilestoneTRL Date Completed System top-level design complete27/07 Detail design and fabrication complete37/08 Key subsystems tested: Arrestor, recovery cart, braking system 49/08 Mock recovery tests with integrated system completed510/08 Ground-based recovery tests with aircraft completed 62/09

6. March 8-9, 20106 Radio controlled aircraft (163 lb; 42 kts ground speed) Two recovery attempts back-to-back –Both recoveries successful –No visible damage to aircraft or cart Proprietary Status: 1/18/09 Recovery Tests

7. March 8-9, 20107 (recovery video)

8. March 8-9, 20108 Good agreement between simulation and actual Arrest force gradually rises (400 to 520 lbs approx) Max decel ~ 3.3 g’s Demonstrated recovery consistent with a arrest deceleration slightly in excess of 3 g’s. Pioneer at 68 knots can be arrested in 40 ft at 5 g’s decel Proprietary Modeling and Analysis

9. March 8-9, 20109 Milestones – Option Phase SBIR Option Phase POP 6/9/09 – 6/8/10 Hardware upgrade Reliability, safety improvements Hardware for rapid reset (target 10 min manual) Ground tests I RC aircraft 350 lb @ 68 knots Ground tests II Viking 100 UAV 150 lb autonomous recovery At-sea tests II Viking 100 UAV 150 lb autonomous recovery

10. March 8-9, 201010 Types of Partners Sought Partners: –NAVSEA/NAVAIR program managers –Ship systems designers, integrators –Manufacturers –UAV / autonomous guidance vendors License technology Help fund remaining development Benefits for industry partners: –Helping to address compelling need of US Navy –Strong near-term volume potential (100’s of units or >) –Long-term role onboard Navy ships

11. March 8-9, 201011 U-BASE Navy Phase I STTR Ground-up system for automated launch, recovery and refuel of Tier II UAV’s

12. March 8-9, 201012 About Infoscitex Founded in 2000 Premier provider of advanced solutions to the Defense & Aerospace, Life Sciences, and Energy & Environment markets Government and commercial applications Scientists/engineers completed > 600 R&D programs in advanced materials & systems engineering. Headquartered in Waltham, MA –Offices in: Albany, NY Rochester, NY Dayton, OH Washington, D.C. 105 full-time employees > $18 million in 2008 revenue

13. March 8-9, 201013 Information Navy technical monitor: Mr. Alan Schwartz Naval Surface Warfare Center, Carderock Division (301) 227-4316 (voice) alan.schwartz@navy.mil Infoscitex contact: Mr. Will Hafer 303 Bear Hill Road Waltham, MA 2451 www.infoscitex.com 781.890.1338 x240 whafer@infoscitex.com