AeroVironment

AeroVironment, Inc.
Company type	Public
Traded as	Nasdaq: AVAV ; S&P 600 component;
Industry	Aerospace industry ; Energy industry ;
Founded	1971;54 years ago
Founder	Paul B. MacCready Jr.
Headquarters	Arlington, Virginia, United States
Revenue	US$446 million (2022)
Operating income	US$−10 million (2022)
Net income	US$−4.2 million (2022)
Total assets	US$914 million (2022)
Total equity	US$608 million (2022)
Number of employees	1,214 (2022)
Website	avinc.com
	Footnotes /references;

Last updated January 03, 2025

AeroVironment, Inc. is an American defense contractor headquartered in Arlington, Virginia, that designs and manufactures unmanned aerial vehicles (UAVs). Paul B. MacCready Jr., a designer of human-powered aircraft, founded the company in 1971. The company is best known for its lightweight human-powered and solar-powered vehicles. The company is the US military's top supplier of small drones —notably the Raven, Switchblade, Wasp and Puma models.

History

On January 7, 2024, AeroVironment was sanctioned by the Chinese government due to U.S. arms sales to Taiwan.^[2]

Vehicles

Among the vehicles the company built are:

Gossamer Condor – The first successful human-powered airplane. The Gossamer Condor is on display at the US National Air and Space Museum (NASM), since it won the first Kremer Prize in 1977.
Gossamer Albatross – In 1979, this human-powered plane flew 23 miles (37 km) across the English Channel and claimed the largest prize in aviation history. Another of these planes is displayed at the National Air and Space Museum.
Gossamer Penguin – A solar-powered variant of the Gossamer Albatross.
Solar Challenger – This plane flew 163 miles (262 km) from Paris, France, to England on solar power.
High Altitude Solar (HALSOL)-This solar-powered unmanned aircraft was sponsored by the CIA in the 1980s as the first unmanned solar-powered aircraft prototyped for national security missions. It was declassified and transferred to the Ballistic Missile Defense Organization (BMDO) in 1993, where it was modified as a high altitude, long endurance (HALE) UAV technology demonstrator capable of becoming weaponized to destroy boost-phase theater ballistic missiles (Boost Phase Intercept).The goal was to develop the world's first "fly forever" HALE UAV that could be configured for national security missions. The program was cancelled in 1995, due to budget reductions in the Clinton Administration at which time the aircraft, called Pathfinder, was transferred to NASA. Pathfinder flew flight test missions at NASAs Dryden Flight Research Center before the transfer.
NASA Pathfinder and Pathfinder Plus – This unmanned plane, built by AeroVironment as a part of the NASA Environmental Research Aircraft and Sensor Technology (ERAST) Program, demonstrated that an airplane could stay aloft for extended periods fueled by solar power. After initial successes, the Pathfinder was rebuilt into the larger Pathfinder Plus, which is on display at NASM.^[3]
NASA Centurion – The Centurion was an expansion of the Pathfinder concept, designed to achieve the ERAST Program goal of sustained flight at 100,000 feet (30,000 m) altitude.^[3]
NASA Helios Prototype – Derived from the Centurion, this solar cell and fuel cell powered UAV set a world record for flight at 96,863 feet (29,524 m). It was intended to be the prototype for the production Helios aircraft, envisioned as an "atmospheric satellite". The ERAST program was terminated in 2003, and as of 2008, Helios has not entered production.^[3] In actuality, it has been reborn in the form of the Global Observer UAS, currently in development under a Joint Concept Technology Demonstration led by United States Special Operations Command (USSOCOM]).^[4] The key technology shift was switching from solar power to liquid hydrogen power.
Global Observer – The Los Angeles Times reported first flight of Global Observer in the Mojave Desert in January, 2011.^[5] The aircraft was powered by hydrogen. It appears to have 4 motors with twin-bladed props, a 175-foot (53 m) wingspan, 65,000-foot (20,000 m) maximum altitude, airspeed greater than 120 mph (190 km/h), and 5 to 7 day maximum flight duration.^[6]
Sunraycer – This solar-powered car won the first world's first solar car race in Australia in 1987. The next fastest car finished two days later. This car is at the Smithsonian National Museum of American History.
GM Impact – This was an electric car, developed as a prototype for a mass-production consumer car.
RQ-11 Raven – a small military UAV. It is hand launched with a wingspan of 4.5 feet (1.4 m) and a weight of 4.2 pounds (1.9 kg), providing color and infrared video to its handheld ground control and remote viewing stations. Over 9,000 Ravens had been delivered or were on order as of June 2008.
Wasp III – a miniature, hand-launched UAV that provides aerial observation at line-of-sight ranges up to 3.1 miles (5.0 km). In 2007, the Wasp was selected by the US Air Force as the choice for their BATMAV Program.^[7] As of 2008, over 1,000 Wasp aircraft had been delivered.
RQ-20 Puma – a small lightweight, battery powered, hand-launched production UAV that provides aerial observation at line-of-sight ranges up to 6.2 miles (10.0 km). Puma's avionics enable autonomous flight via GPS navigation. It was designed to demonstrate advanced propulsion technologies. It flew in June 2007 for five hours,^[8] powered by an onboard "fuel cell battery hybrid energy storage system". A flight in November 2007 lasted more than seven hours.^[9] On July 2, 2008, USSOCOM selected the Puma AE variant as its All Environment Capable Variant (AECV) solution.
Nano Hummingbird – Announced in 2011, a hummingbird look-alike drone equipped with a camera, it could fly at speeds of up to 11 miles (18 km) per hour. It could climb and descend vertically, fly sideways, forward and backward, as well as rotate clockwise and counter-clockwise by remote control for about eight minutes.
SkyTote – a vertical take-off and landing (VTOL)-fixed wing hybrid UAV, which offered VTOL takeoff capability and decreased energy usage.
Switchblade – A miniature, electrically powered, armed unmanned drone kamikaze weapon, for field use. Now deployed in two configurations, the 300 for attacking personnel and the 600 for attacking armor.^[10]
FQM-151 Pointer
RQ-14 Dragon Eye
Puma LE (Long Endurance)
VAPOR Helicopter
Snipe – a quadrotor design small enough to be deployed by an individual to collect surveillance. It weighs 5 oz (0.14 kg), can reach speeds of 20 mph (32 km/h) with a range of more than 0.6 mi (0.97 km). It has flight times of 15 minutes, can withstand winds of 15 mph (24 km/h), and is equipped with EO/IR. It is low light-capable and includes long-wave infrared sensors to take photos or video in day or night conditions. In May 2017, the first 20 Snipes were delivered to an undisclosed U.S. military customer.^[11]
Quantix – drone, 40 km range, 45 min flight time, 2.3 kg weight, controlled via encrypted radio, automated, programmed autonomous flights possible, multifunctional camera ^[12]

Programs

As of 2007 AeroVironment held a five-year, $4.7 million IDIQ (indefinite-delivery, indefinite-quantity) contract from the U.S. Air Force Research Laboratory to develop UAV propulsion technologies. The contract also provided for specific tasks such as integration of solar cells into aircraft wings, electric motor efficiency improvement, and hydrogen storage systems.^[8]

In 2023, Israel submitted a request to the US Department of Defense for 200 Switchblade 600 attack drones. As of 7 November, it is unclear whether the request has been approved.^[13]

HAPSMobile

HAPSMobile is a subsidiary of SoftBank planning to operate High Altitude Platform Station (HAPS) networks, with AeroVironment as a minority owner. HAPSMobile develops the Hawk30 solar-powered unmanned aircraft for stratospheric telecommunications, and has a strategic relationship with Loon LLC, a subsidiary of Google's parent Alphabet Inc.

Subsidiaries

AeroVironment owns Skytower, Inc., which was formed in 2000 to develop the technologies and government approvals to use high altitude UAVs as "atmospheric satellites", or high altitude communications relay platforms.^[14]

In July 2002 the NASA/AeroVironment UAV Pathfinder Plus carried commercial communications relay equipment developed by Skytower to test using the aircraft as an "atmospheric satellite". Skytower, in partnership with NASA and the Japan Ministry of Telecommunications used the aircraft to transmit both an HDTV signal as well as an IMT-2000 wireless communications signal from 65,000 ft (20,000 m). It was the equivalent of a 12 mi (19 km) tall transmitter tower. Because of the aircraft's high angle,^{[ further explanation needed ]} the transmission utilized only one watt of power, or 1/10,000 that required by a terrestrial tower to provide the same signal.^[15] According to SkyTower's Stuart Hindle, "SkyTower platforms are basically geostationary satellites without the time delay." Hindle said that such platforms flying in the stratosphere, as opposed to actual satellites, can achieve much higher levels of frequency use. "A single SkyTower platform can provide over 1,000 times the fixed broadband local access capacity of a geostationary satellite using the same frequency band, on a bytes per second per square mile basis."^[16]

In January 2021, the company acquired Arcturus UAV, the manufacturer of the Arcturus T-20 UAV for US$405m.^[17]

Related Research Articles

The MacCready Gossamer Condor was the first human-powered aircraft capable of controlled and sustained flight; as such, it won the Kremer prize in 1977. Its design was led by Paul MacCready of AeroVironment, Inc.

The NASA Pathfinder and NASA Pathfinder Plus were the first two aircraft developed as part of an evolutionary series of solar- and fuel-cell-system-powered unmanned aerial vehicles. AeroVironment, Inc. developed the vehicles under NASA's Environmental Research Aircraft and Sensor Technology (ERAST) program. They were built to develop the technologies that would allow long-term, high-altitude aircraft to serve as atmospheric satellites, to perform atmospheric research tasks as well as serve as communications platforms. They were developed further into the NASA Centurion and NASA Helios aircraft.

<span class="mw-page-title-main">History of unmanned aerial vehicles</span>

Unmanned aerial vehicles (UAVs) include both autonomous drones and remotely piloted vehicles (RPVs). A UAV is capable of controlled, sustained level flight and is powered by a jet, reciprocating, or electric engine. In the twenty-first century, technology reached a point of sophistication that the UAV is now being given a greatly expanded role in many areas of aviation.

A miniature UAV, small UAV (SUAV), or drone is an unmanned aerial vehicle small enough to be man-portable. Smallest UAVs are called micro air vehicle.

An electric aircraft is an aircraft powered by electricity. Electric aircraft are seen as a way to reduce the environmental effects of aviation, providing zero emissions and quieter flights. Electricity may be supplied by a variety of methods, the most common being batteries. Most have electric motors driving propellers or turbines.

The Environmental Research Aircraft and Sensor Technology, or ERAST program was a NASA program to develop cost-effective, slow-flying unmanned aerial vehicles (UAVs) that can perform long-duration science missions at altitudes above 60,000 ft (18,000 m). The project included a number of technology development programs conducted by the joint NASA-industry ERAST Alliance. The project was formally terminated in 2003.

The Zephyr is a series of high-altitude platform station aircraft produced by Airbus. They were designed originally by QinetiQ, a commercial offshoot of the UK Ministry of Defence. In July 2010, the Zephyr 7 flew for 14 days. In March 2013, the project was sold to Airbus Defence and Space. In the summer of 2022, the Zephyr 8/S flew for 64 days.

A high-altitude platform station, also known as atmospheric satellite, is a long endurance, high altitude aircraft able to offer observation or communication services similarly to artificial satellites. Mostly unmanned aerial vehicles (UAVs), they remain aloft through atmospheric lift, either aerodynamic like airplanes, or aerostatic like airships or balloons. High-altitude long endurance (HALE) military drones can fly above 60,000 ft over 32 hours, while civil HAPS are radio stations at an altitude of 20 to 50 km above waypoints, for weeks.

The Helios Prototype was the fourth and final aircraft developed as part of an evolutionary series of solar- and fuel-cell-system-powered unmanned aerial vehicles. AeroVironment, Inc. developed the vehicles under NASA's Environmental Research Aircraft and Sensor Technology (ERAST) program. They were built to develop the technologies that would allow long-term, high-altitude aircraft to serve as atmospheric satellites, to perform atmospheric research tasks as well as serve as communications platforms. It was developed from the NASA Pathfinder and NASA Centurion aircraft.

Aurora Flight Sciences (AFS) is an American aviation and aeronautics research subsidiary of Boeing that specializes in special-purpose unmanned aerial vehicles. Aurora's headquarters is at Manassas Regional Airport.

The AeroVironment Wasp III Small Unmanned Aircraft System is a miniature UAV developed for United States Air Force special operations to provide a small, light-weight vehicle to provide beyond-line-of-sight situation awareness. The aircraft is equipped with two on-board cameras to provide real-time intelligence to its operators. It is also equipped with GPS and an Inertial Navigation System enabling it to operate autonomously from takeoff to recovery. It was designed by AeroVironment Inc., and was first added to the Air Force inventory in 2007. There are two Wasp variants: the traditional version that lands on land, and a version that lands into the sea or fresh water. The Air Force accepted the Wasp AE in late May 2012, and the U.S. Marine Corps revealed in January 2013 that they had ordered the Wasp AE. The Wasp AE is designated as the RQ-12A.

The AeroVironment T-20 unmanned aerial vehicle (UAV) is a medium range, composite aircraft capable of internal and external payloads. Launched from a portable catapult, it can be recovered with a shipboard landing system, or belly land on unimproved surfaces. The T-20 carries a retractable gimbal-mounted, digitally stabilized, electro-optical/infrared (EO/IR) camera that relays video in real time via a C-band LOS data link to the ground control station (GCS). Powered by a 4-stroke, fuel injected gasoline engine, the aircraft burns 2 lb (910 g) of fuel per hour at cruise. AeroVironment, Inc. acquired Arcturus UAV, the original developer of JUMP 20 and T-20 on February 22, 2021.

The AeroVironment Global Observer is a concept for a high-altitude, long endurance unmanned aerial vehicle, designed by AeroVironment (AV) to operate as a stratospheric geosynchronous satellite system with regional coverage.

<span class="mw-page-title-main">NASA Centurion</span> Type of aircraft

The NASA Centurion was the third aircraft developed as part of an evolutionary series of solar- and fuel-cell-system-powered unmanned aerial vehicles. AeroVironment, Inc. developed the vehicles under NASA's Environmental Research Aircraft and Sensor Technology (ERAST) program. They were built to develop the technologies that would allow long-term, high-altitude aircraft to serve as atmospheric satellites, to perform atmospheric research tasks as well as serve as communications platforms. It was developed from the NASA Pathfinder Plus aircraft and was developed into the NASA Helios.

The AeroVironment RQ-20 Puma is an American unmanned aircraft system which is small, battery powered, and hand-launched. Its primary mission is surveillance and intelligence gathering using an electro-optical and infrared camera. It is produced by AeroVironment.

The AeroVironment Switchblade is a miniature loitering munition designed by AeroVironment and used by several branches of the United States military. Small enough to fit in a backpack, the Switchblade launches from a tube, flies to the target area, and crashes into its target while detonating its explosive warhead. The name Switchblade comes from how the spring-loaded wings are folded inside a tube and flipped out once released.

The Facebook Aquila is an experimental solar-powered drone developed by Facebook for use as an atmospheric satellite, intended to act as relay stations for providing internet access to remote areas. The Aquila first flew on 28 June 2016 with a second aircraft successfully flying in 2017. Internal development of the Aquila aircraft was stopped in June 2018.

The Odysseus is a solar, High-Altitude Long Endurance drone developed by Aurora Flight Sciences.

HAPSMobile is a wholly-owned subsidiary of SoftBank planning to operate High Altitude Platform Station (HAPS) networks. HAPSMobile is developing the Hawk30 solar-powered unmanned aircraft for stratospheric telecommunications.

The BAE Systems Persistent High Altitude Solar Aircraft (PHASA-35) is a High-Altitude Long Endurance (HALE) unmanned aerial vehicle (UAV) developed by BAE Systems in collaboration with Prismatic. Designed as a cheaper alternative to satellites, the aircraft can be used for surveillance, border control, communications and disaster relief with a potential ability to stay airborne for up to 12 months. Developed in less than two years, the aircraft carried out its first flight in February 2020 and further trials are currently ongoing.

References

↑ "AeroVironment, Inc. 2022 Annual Report (Form 10-K)". U.S. Securities and Exchange Commission. 2022-06-29.
↑ "China sanctions five US defence firms over Taiwan arms sales". BBC News . 2024-01-08. Retrieved 2025-01-02.
1 2 3 "NASA Helios factsheet". Nasa.gov. Archived from the original on 24 November 2010. Retrieved 2010-11-27.
↑ "AeroVironment Awarded Contract for Development of Global Observer Stratospheric Unmanned Aircraft System". Archived from the original on May 20, 2008.
↑ Hennigan, W.J. (2011-01-11). "New generation of unmanned spy planes is being tested". Los Angeles Times .
↑ "Global Observer UAS – Stratospheric Persistent UAV by AeroVironment, Inc". AeroVironment, Inc.
↑ "Air Force Special Operations Command - Fact Sheet (Printable) : WASP III MICRO REMOTELY PILOTED AIRCRAFT". Archived from the original on 2011-07-19. Retrieved 2009-03-26.
1 2 "Puma Small UAS Achieves Record Flight Using Fuel Cell Battery Hybrid System", Aerotech News and Review , June 29, 2007
↑ "Small Unmanned Aerial Vehicle again Achieves Record Flight Time Using Protonex Fuel Cell System Technology" Protonex press release Nov. 28 2007 Archived March 4, 2009, at the Wayback Machine
↑ Ackerman, Spencer (October 2011). "U.S. Troops Will Soon Get Tiny Kamikaze Drone". Wired. ISSN 1059-1028 . Retrieved 2022-04-10.
↑ "AeroVironment Delivers Tiny Drones to U.S. Military". www.nationaldefensemagazine.org. Retrieved 2022-04-10.
↑ "Ukraine erhält Quantix Drohnen". soldat-und-technik.de (in German). 2022-04-21. Retrieved 2023-03-25.
↑ Vincent, Brandi (2023-11-08). "US considers Israeli request for hundreds of Switchblade 600 attack drones". DefenseScoop. Retrieved 2024-03-21.
↑ ""3G Tested at 65,000 feet (20,000 m) in the stratosphere" 3G news release July 23, 2002". 3g.co.uk. 2002-07-23. Retrieved 2010-11-27.
↑ "SkyTower Successfully Tests World's First Commercial Telecom Applications from More Than 65,000 feet (20,000 m) in the Stratosphere", Ewire, July 22, 2002. Retrieved September 11, 2008.
↑ Leonard, David (July 24, 200). "Stratospheric Platform Serves As Satellite". Space.com. Archived from the original on 2008-05-15. Retrieved September 11, 2008.
↑ "Defence deals snapshot: Aerovironment acquires Arcturus UAV for $405m" . Retrieved 2021-01-20.

External links

Official website
"Patents owned by AeroVironment". US Patent & Trademark Office . Retrieved 5 December 2005.

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
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[1] "AeroVironment, Inc. 2022 Annual Report (Form 10-K)". U.S. Securities and Exchange Commission. 2022-06-29.

[2] "China sanctions five US defence firms over Taiwan arms sales". BBC News . 2024-01-08. Retrieved 2025-01-02.

[heliosfact-3] 1 2 3 "NASA Helios factsheet". Nasa.gov. Archived from the original on 24 November 2010. Retrieved 2010-11-27.

[4] "AeroVironment Awarded Contract for Development of Global Observer Stratospheric Unmanned Aircraft System". Archived from the original on May 20, 2008.

[5] Hennigan, W.J. (2011-01-11). "New generation of unmanned spy planes is being tested". Los Angeles Times .

[6] "Global Observer UAS – Stratospheric Persistent UAV by AeroVironment, Inc". AeroVironment, Inc.

[7] "Air Force Special Operations Command - Fact Sheet (Printable) : WASP III MICRO REMOTELY PILOTED AIRCRAFT". Archived from the original on 2011-07-19. Retrieved 2009-03-26.

[anr070629-8] 1 2 "Puma Small UAS Achieves Record Flight Using Fuel Cell Battery Hybrid System", Aerotech News and Review , June 29, 2007

[9] "Small Unmanned Aerial Vehicle again Achieves Record Flight Time Using Protonex Fuel Cell System Technology" Protonex press release Nov. 28 2007 Archived March 4, 2009, at the Wayback Machine

[wired18oct11-10] Ackerman, Spencer (October 2011). "U.S. Troops Will Soon Get Tiny Kamikaze Drone". Wired. ISSN 1059-1028 . Retrieved 2022-04-10.

[11] "AeroVironment Delivers Tiny Drones to U.S. Military". www.nationaldefensemagazine.org. Retrieved 2022-04-10.

[12] "Ukraine erhält Quantix Drohnen". soldat-und-technik.de (in German). 2022-04-21. Retrieved 2023-03-25.

[13] Vincent, Brandi (2023-11-08). "US considers Israeli request for hundreds of Switchblade 600 attack drones". DefenseScoop. Retrieved 2024-03-21.

[3g-14] ""3G Tested at 65,000 feet (20,000 m) in the stratosphere" 3G news release July 23, 2002". 3g.co.uk. 2002-07-23. Retrieved 2010-11-27.

[skytower1-15] "SkyTower Successfully Tests World's First Commercial Telecom Applications from More Than 65,000 feet (20,000 m) in the Stratosphere", Ewire, July 22, 2002. Retrieved September 11, 2008.

[spacecom1-16] Leonard, David (July 24, 200). "Stratospheric Platform Serves As Satellite". Space.com. Archived from the original on 2008-05-15. Retrieved September 11, 2008.

[17] "Defence deals snapshot: Aerovironment acquires Arcturus UAV for $405m" . Retrieved 2021-01-20.

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