Category Archives: Air

Air

Multi-Mission Aircraft

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Bombardier Defense and General Dynamics Mission Systems-Canada are collaborating to deliver the next-generation Multi-Mission and Anti-Submarine Warfare (ASW) aircraft that will meet the requirements set by the Government of Canada for the Canadian Multi-Mission Aircraft (CMMA) program. Both long-standing Canadian-based companies are leveraging their extensive networks to prepare for success in a competitive, open, and transparent procurement process, and are joining forces as Canada’s Multi-Mission Aircraft Team.

Canadian Multi-Mission Aircraft (CMMA)
Rendering of Canada’s Multi-Mission Aircraft proposed by Bombardier Defense and General Dynamics Mission Systems – Canada

With a long and highly successful track record delivering multiple specialized aircraft across the globe, Bombardier Defense stands out among special mission aircraft providers. Bombardier’s products have proven themselves as reliable and fully interoperable platforms through versatile projects for some of the world’s biggest defense contractors and for governments across the world, including the United States, Germany, and more.

The foundation for the Canadian Multi-Mission Aircraft Team’s solution is the highly efficient and agile Global 6500 aircraft, the right-sized jet for the CMMA with next-generation engines, long range, high endurance, and coupled with proven reliability and better fuel efficiency as documented in the jet’s recently published Environmental Product Declaration. The Global family of aircraft is the platform of choice for over 10 different mission types across the globe, given its ability to deploy in all weather conditions with full mission payload, its ultimate combination of speed, range and endurance, and its 24/7 worldwide support infrastructure.

The aircraft will host General Dynamics’ best-in-class integrated mission systems, drawing directly from Canada’s investment in the newly modernized CP140 Block IV and CH-148 Cyclone. This operationally-proven Canadian design forms the basis for the iterative and low risk integration of modernized sensors and systems enabling Canada to leap even further ahead of peers and adversaries alike. This future-proof foundation will also ensure continued operational relevance, responding to Canada’s emergent needs through the middle of this century.

«Canadians deserve a leading-edge fleet for their Canadian Multi-Mission Aircraft program. Bombardier is eager to take on this opportunity to deliver a state-of-the-art platform. This is a generational opportunity for a Canadian company to leverage its Made-In-Canada Global 6500 aircraft, renowned for their outstanding performance and customized mission enhancers for each client. Having Bombardier work on CMMA is the right choice from an aircraft performance standpoint, and also, an opportunity for Canada to foster innovation, bolster its capabilities and support talent across Canada’s aerospace industry from coast to coast to coast», said Jean-Christophe Gallagher, Executive Vice-President, Aircraft Sales and Bombardier Defense.

«For decades, General Dynamics has been proud to provide solutions to Canada’s defense requirements. This new partnership unlocks a generational opportunity to couple our leading edge, trusted mission systems to ultimately provide a made-in-Canada solution that supports Canada’s multi-mission airborne needs into the future, while creating a readily exportable capability that will benefit Canada in so many other ways». said Joel Houde, Vice President and General Manager, General Dynamics Mission Systems – International.

Bringing together the unparalleled expertise offered by both organizations, this platform provides the very latest in airborne mission management technology while ensuring Canada’s continued leadership in the ASW and ISR domains.

With Canada’s largest business jet manufacturer and one of Canada’s largest defense contractor joining forces to deliver a Canadian Multi-Mission aircraft, considerable benefits to the Pan-Canadian aerospace ecosystem will result, including the creation of high caliber jobs, numerous opportunities for Small and Medium-sized Enterprises (SMEs), scientific communities, and educational institutions in various regions of the country. With competitive acquisition and significantly lower operating costs, cross decking of existing mission system capabilities onto a high-performance, modern Global 6500 aircraft, which represents a low-risk, evolutionary approach to achieving Canada’s multi-mission aircraft needs.

General Dynamics Mission Systems – Canada supports the Government of Canada (GoC) across many projects including delivering the CP140 Aurora Incremental Modernization Project (AIMP). This modernization, along with the previous Aurora Structural Life Extension Project (ASLEP), will keep the CP140 at the leading edge of ASW capabilities and extend the operational life of the CP140 Aurora into the 2030s. The published CMMA procurement timeframe was prudently designed by the Department of National Defence to permit the Government of Canada to fully engage with industry to explore options to meet Canada’s multi-mission aircraft needs and to have sufficient time to evaluate options. The Canadian-based platform brought forward by Bombardier Defense and General Dynamics Mission Systems-Canada, providing world leading capabilities in ASW, ISR and operational efficiencies leveraging the Global 6500 aircraft is a prime example.

More information on Canada’s Multi-Mission Aircraft Team will be unveiled as part of a May 31, 2023, press conference at Canadian Association of Defence and Security Industries (CANSEC) in Ottawa.

Air, Navy, Unmanned Systems

Full operational configuration

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Airbus Helicopters and the French Armament General Directorate (DGA) tested the Unmanned Aerial System (UAS) VSR700 for the first time in an operational configuration from a ship at sea. At the beginning of May, the VSR700 performed 80 fully autonomous take-offs and landings from a civil vessel equipped with a helicopter deck, cruising off the coast of Brittany in the west of France.

VSR700
VSR700: Campaign of tests of deck landings on ship, on the Partisan, in Brittany

«This flight test campaign was an important step for the VSR700 programme as it allowed us to validate the excellent performance of the drone in operational conditions, which were representative of its future missions», said Nicolas Delmas, Head of VSR700 programme at Airbus Helicopters. «The VSR700 prototype opened its flight envelope in winds above 40 knots/46 mph/74 kph, accumulated eight hours of testing in 14 flights, and made successful landings in several different sea states», he added.

In 2022, the autonomous take-off and landing capabilities of the VSR700 were tested from the same vessel using an Optionally Piloted Vehicle (OPV) based on a modified Guimbal Cabri G2 equipped with the Autonomous Take-Off and Landing (ATOL) system developed for the VSR700. This time the test campaign took place with the SDAM demonstrator and fully validated the capabilities of the system as part of the SDAM (Système de Drone Aérien pour la Marine) study that was awarded to Airbus Helicopters and Naval Group in 2017.

Autonomous take-off and landing capabilities are a key asset of the VSR700 and are made possible with the use of the Airbus DeckFinder system. This enables autonomous launch and recovery of Unmanned Air Vehicles (UAVs) with an accuracy of 10-20 cm/3.9-7.9 inch during challenging operations in harsh environmental conditions, independently of GNSS/GPS and regardless of degraded visual conditions.

This new test campaign follows two series of trials that were conducted with the DGA in late 2022 and early 2023 from the Levant Island test center located in the south of France. During these trials, the SDAM prototype demonstrated its ability to operate in a maritime environment. The handling qualities of the aircraft were tested as well as the capabilities of the sensors (a maritime surveillance radar, an electro optical sensor, and an Automatic Identification System (AIS) receiver) alongside the mission system developed by Naval Group.

The next development steps will see the second VSR700 prototype perform its maiden flight ahead of flight testing onboard a French Navy FREMM during the second semester of this year.

Air

Oxygen supply system

Collins Aerospace, a Raytheon Technologies business, introduced its OXYJUMP NG oxygen supply system for use in high altitude jumps by parachutists. The OXYJUMP NG system’s breakthrough technology enhances mission capabilities with a longer gliding distance, improves jumper safety, is easy to use and contains significant size and weight advantages over legacy systems.

OXYJUMP NG
Advanced technology provides advantages for special operations missions – enabling longer glide duration on higher altitude jumps, maximizing oxygen use and reducing system weight

Existing oxygen supply systems are limited in extended high-altitude operations, restricting the effectiveness and reach of parachute missions.

Utilizing Collins’ oxygen pulse technology – already certified by one NATO country – the OXYJUMP NG system provides customers with a smaller, lighter weight solution which automatically adjusts oxygen levels to enable longer mission profiles.

«The OXYJUMP NG system gives allied armed forces the stealth, readiness and safety necessary to complete the most complex jumps on earth», said Brad Haselhorst, vice president and general manager of Military, Safety and Cargo Systems at Collins Aerospace. «The OXYJUMP NG system not only keeps up with the evolving nature of combat jumps, but it’s ready for use today».

Designed for comfort and ease of use, the OXYJUMP NG system operates automatically and includes an ergonomically designed mask to comfortably and securely fit against the face, giving users peace of mind and keeping them focused on their most critical tasks.

Collins Aerospace’s OXYJUMP NG system will be on display at SOF Week in Tampa, Florida at booth L910.

Air, Air Force, Cargo

First C295 for India

The first C295 for India has successfully completed its maiden flight, marking a significant milestone towards its delivery by the second half of 2023. The tactical aircraft took off from Seville, Spain, on the 5 May at 11.45 local time (GMT+1) and landed at 14.45 after 3 hours of flight.

C295
First C295 for India completes its maiden flight

«This first flight represents a significant accomplishment for the first Make in India aerospace programme. With the Indian Air Force (IAF) set to become the largest operator of the C295 in the world, this programme exemplifies our commitment to improve the Indian Air Force operational capabilities», said Jean-Brice Dumont, Head of Military Air Systems at Airbus Defence and Space.

India acquired 56 C295 aircraft in September 2021 to replace the (IAF) legacy AVRO fleet. The first 16 aircraft will be assembled in Seville, Spain, and delivered to the customer in ‘fly-away’ condition. The following 40 aircraft will be manufactured and assembled by the Tata Advanced Systems (TASL) in India as part of an industrial partnership between the two companies.

This programme will significantly contribute to developing the country’s military industrial ecosystem from the manufacturing to assembly, testing, to delivery and maintenance of the complete lifecycle of the aircraft.

The C295 programme comprises a total of 281 orders from 39 operators, making it an unmatched aircraft in its weight and mission class.

Air, Fighters, Missiles & Guided Weapons, Rocket

Fifth Successful Test

Northrop Grumman Corporation announced the fifth consecutive successful flight test of the U.S. Navy’s AGM-88G Advanced Anti-Radiation Guided Missile Extended Range (AARGM-ER). The missile successfully detected, identified, located and engaged an advanced, land-based, emitter target.

AARGM-ER
A U.S. Navy F/A-18 Super Hornet carries the AARGM-ER (Photo Credit: U.S. Navy)
  • First firing overland against operationally-representative modern air defense system targets.
  • AARGM-ER deliveries will begin later this year to support Initial Operational Capability (IOC) for the U.S. Navy in 2024.
  • The missile is being integrated on the Navy F/A-18E/F Super Hornet and EA-18G Growler as well as the Air Force F-35A Lightning II, Marine Corps F-35B Lightning II and Navy/Marine Corps F-35C Lightning II.

 

Experts

Gordon Turner, vice president, advanced weapons, Northrop Grumman: «AARGM-ER provides the Navy with a demonstrated capability to stay ahead of adversary threats. This successful live fire continues to prove the missile’s extended range, readiness and effectiveness».

U.S. Navy CAPT Alex Dutko, Navy program manager for Direct and Time Sensitive Strike (PMA-242): «AARGM-ER once again demonstrated high-speed employment of lethal effects against an air defense system target. This is another successful step in our government-industry team’s effort to deliver this critically needed capability to our warfighters».

 

Details on AARGM-ER

AARGM-ER development uses digital modeling and integrated advanced AARGM sensors and electronics in a new high-performance air vehicle with upgraded propulsion and an optimized warhead. The new missile will provide the Navy, Air Force and Marine Corps with a vital counter-air-defense capability that can engage advanced and long-range threats while pilots remain outside of lethal engagement ranges. The AARGM-ER government-industry team recently received the William J. Perry award, recognizing their exceptional contributions to precision strike systems which strengthen national security and shapes the nation’s precision strike combat advantage.

Air

HD thermal camera

BAE Systems unveiled a new version of its Athena 1920 high-definition thermal camera core, which can now support missions requiring 360-degree situational awareness, vehicle protection, and space-based surveillance in challenging visual and operational environments.

Athena 1920
New, high-definition thermal camera core unveiled

The Athena 1920 delivers high-definition infrared imagery with exceptional clarity, minimal motion blur, and sharp detail in degraded visual conditions. The small, lightweight, and power-efficient Athena 1920 is ideal for a variety of applications, including wide-area surveillance, threat detection and monitoring, targeting, and commercial applications.

«BAE Systems has been at the forefront of thermal sensor design and manufacturing for years, and we keep advancing the technology», said Robyn Decker, Director of Lexington Business Center and Sensor Solutions at BAE Systems. «Athena 1920 is already one of the most capable high-definition thermal sensors, and we’ve enhanced it to help our customers better execute their challenging missions».

The new thermal camera core has protective coatings that resist humidity, heat, and corrosion. For operation in space and high-altitude environments, Athena 1920 now has redundant software-based single event upset mitigation to help reduce the impacts of harmful radiation.

The Athena 1920 also features two frame rates options (30Hz and 60Hz) and frame synchronization for multi-camera systems. Its sensor hardening allows for the delivery of high-quality, broad-view night vision images from a range of platforms, including ground vehicles, aircraft, Unmanned Aerial Vehicles (UAV), and satellites.

In addition, images captured from multiple Athena 1920s running at the same time can be chained together for broader situational awareness, including real-time 360-degree sensing capabilities for a ground vehicle.

BAE Systems develops and manufactures visible, infrared, and X-ray imaging sensor solutions for demanding military and commercial applications, including surveillance and targeting, firefighting, and medical and scientific imaging. The company manufactures its thermal camera cores at the company’s facility in Lexington, Massachusetts.

Air

Military versions

Airbus Helicopters is introducing the first U.S.-built H125 military configurations, known as AH-125 and MH-125 Ares, to the Airbus range of military helicopters. These combat-capable aircraft will feature militarized options that meet the needs of military and parapublic allies and partners around the world.

AH-125 Ares
Eurocopter AS350 Ecureuil A-Star Helicopter flying over the hills of Malibu, CA during a Fast Rope type military operation

The AH-125 Ares will be configured as the armed variant of the helicopter, while the MH-125 Ares will be configured as a multi-role helicopter capable of a wide range of operations. The new offerings complement the extensive line of military helicopters already produced by Airbus, including the H125M.

«The AH-125 and MH-125 Ares helicopters will offer the capability, reliability and flexibility needed by America’s allies and partners as they perform an array of rotary wing missions, ranging from light attack to disaster response and other parapublic missions», said Scott Tumpak, Vice President of Military Line of Business for Airbus U.S. Space and Defense. «They represent the latest evolution of Airbus’ H125 family of helicopters, and will be produced in the U.S. at Airbus Helicopters, Inc.’s facility in Columbus, Mississippi».

Globally, the H125 family accounts for almost 80% of the single-engine market and has the highest number of certified modifications (supplemental type certificates) available. With the new addition of a flexible weapons capability, the H125 helicopter will easily be re-configured between multiple mission sets in less than 30 minutes, ranging between light attack, air assault, search and rescue, casualty evacuation, and disaster response, as well as other combat and parapublic operations.

MAG Aerospace will perform the weapons installation design, engineering, certification and manufacturing. The helicopter will accommodate a wide range of weapons such as a .50 cal (12.7-mm) gun and unguided rockets, and precision-guided weapons as a growth option. The installation allows for doors-on flight throughout the mission.

«MAG Aerospace is thrilled to team with Airbus to combine our unique platform engineering and modification capabilities with the world-class leader in the single-engine helicopter market. It’s an honor to work with Airbus and expand our ability to serve our partners in the U.S. and around the world», said Matt Bartlett, President of MAG Aerospace.

The H125 is the world’s top-selling helicopter with a long history of use by U.S. law enforcement and government agencies. Currently, the H125 is the light enforcement helicopter used by U.S. Customs and Border Protection, with more than 100 H125 family aircraft in service, making the U.S. government the single largest customer and operator of the aircraft.

Airbus provides a range of reliable and versatile helicopters to the U.S. government and military, enabling them to perform a wide variety of missions. More than 480 UH-72A and UH-72B Lakota helicopters have been delivered to the U.S. Army and National Guard since the program began in 2006. Airbus also continues to support the U.S. Coast Guard’s fleet of nearly 100 MH-65 helicopters, which play a critical role in the USCG’s homeland security, drug interdiction and lifesaving missions.

Air

RAIVEN

Raytheon Technologies on April 24, 2023 announced the launch of RAIVEN, a revolutionary electro-optical intelligent-sensing capability, which will enable pilots to have faster and more precise threat identification.

RAIVEN
Raytheon Technologies unveils next-generation electro-optical intelligent-sensing capability

RAIVEN can identify objects optically and spectrally simultaneously in real-time – a single Electro-Optical/InfraRed, or EO/IR, system has never been able to do this before.

RAIVEN’s ‘intelligent-sensing’ capability uses artificial intelligence, hyperspectral imaging, and light detection and ranging, or LiDAR, to enable operators to see up to five times farther and clearer than traditional optical imaging. This helps increase platform survivability and gives the warfighter decision advantage over peer threats.

«The future battlespace will consist of a myriad of threats from all directions evolving at an unprecedented pace», said Torrey Cady, vice president of Surveillance and Targeting Systems at Raytheon Intelligence & Space. «RAIVEN improves platform survivability and keeps the warfighter safe by providing accurate, persistent target observation coupled with accelerated information sharing. This combination enables a decision-making process that simultaneously reduces pilot workload while accelerating engagement decisions to prosecute targets much faster than adversaries».

Paired with AI, RAIVEN synthesizes reams of data into a detailed picture of the battlespace and the threats within it. The AI automatically detects and identifies threats, delivering a level of automation for the operator to choose what decisions need to be made – providing a critical capability while drastically reducing operator workload.

RAIVEN is a modular, open system that builds upon the successes of Raytheon Technologies’ combat-proven Multi-Spectral Targeting System family of sensors. RAIVEN provides more mission versatility and capability than ever before – all within the same size, weight and power specifications.

The first version of RAIVEN, RT-1000, can support a wide array of missions, including the U.S. Army’s Future Vertical Lift modernization effort, with the first flight test being conducted in 2024.

Work for this program is being done in McKinney, Texas.

Air, Air Force, Fighters, Missiles & Guided Weapons, Rocket

Most advanced AMRAAM

The U.S. Air Force has completed the Functional Configuration Audit, or FCA, of the latest variant of Raytheon Technologies’ Advanced Medium Range Air-to-Air Missile. The AMRAAM AIM-120D-3 is on-track toward fielding by both the Air Force and Navy this year.

AIM-120D-3
Most advanced AMRAAM variant, AIM-120D-3, completes critical milestone for operational use

The AIM-120D-3 features modernized hardware, including 15 upgraded circuit cards developed with model-based systems engineering initiatives under the Form, Fit, Function Refresh program, and uses the latest System Improvement Program-3F software. The missile brings tremendous capability to counter both current and future threats and is postured to receive continuous Agile software enhancements through upcoming SIP efforts.

«Integrated on 14 platforms in 42 countries, AMRAAM is the only fielded air-to-air weapon with the ability to counter peer threats at extended range», said Paul Ferraro, president of Air Power, Raytheon Missiles & Defense. «The AIM-120D-3 takes the known and trusted AMRAAM to the next level to meet the evolving needs of the warfighter and combatant commanders».

The AIM-120D-3 Functional Configuration Audit follows a test program encompassing captive carry missions, platform bench testing and a series of live firings from multiple Air Force and Navy platforms – proving out the weapon’s effectiveness. F3R testing continues with the AIM-120 C-8 variant – designed for international customers – with FCA expected on that version later this year.

All AMRAAMs planned for production are D3 or C8 variants incorporating the F3R functionality.

Air, Air Force

Basic weapons tests

During one of a series of tests that the new L-39NG jet aircraft from Aero successfully passed, engineers and pilots tested the use of weapons. They fired 230 missiles and dropped nearly 70 bombs to test engine effects, emergency load shedding, and accuracy.

L-39NG
Aero successfully conducted L-39NG basic weapons tests

Aero successfully conducted tests of the L-39NG’s primary weapons. This is one of many tests that the new Aero aircraft has undergone. The aircraft can carry both Eastern and Western weapon systems and the corresponding avionics system. The L-39NG eastern armament test phase took place on Hungarian territory, with the aircraft operating from the Pápa air base and using the missile range near Veszprem.

«The results of the tests were successful. It was a set of tests of the basic weapons that the L-39NG can use. However, we are considering an additional range of weapons according to specific customer requirements. The aircraft can carry both Eastern and Western armament and can equally have Western and Eastern avionics», says Petr Jinda, Executive Vice President & Chief Development Officer, Aero.

Weapons trials, which were divided into three phases, began on 13 February with the first part to determine the effect of missile firing on engine performance, followed by emergency load drops and the third phase was bombing and firing missiles for accuracy. All weapons tests met expectations.

Specifically, the designers and pilots tested the firing of S-5 missiles from UB-16 missile blocks and their effect on engine operation. They conducted tests of emergency bomb drops, overhead fuel tanks, and missile blocks. During the tests, the pilots fired a total of 230 S-5 missiles and dropped 42 P-50-75 and 24 OFAB-100-120 bombs.

The aircraft has a measurement system that records about 300 flight parameters. Video recordings are also used to evaluate the success of the tests. A digital video recorder is installed in the aircraft and the pilot’s Heads-Up Display (HUD) is also recorded. Aero uses a companion aircraft for filming, from which a cameraman films the progress of the tests from the rear cabin. The L-39NG aircraft itself then houses 5 additional cameras that record the tests from different angles. 2 drones with cameras were used to detect the exact impact of the weapons in the target area. All recordings and measurements are precisely synchronized in time for the purpose of evaluating the results of each test, determining the resulting accuracy of the shots and the trajectory of the dropped loads.