Auto GCAS technology uses information gathered from Global Positioning System data and incorporates it with Digital Terrain Elevation Data maps to enable aircraft to reference terrain below. In the event that an aircraft is flown dangerously close to the ground, this critical data enables the aircraft to automatically execute avoidance maneuvers without pilot intervention. Photo: USAF, AFRL

The U.S. Air Force completed the final 103rd test flight in the testing for the Automatic Ground Collision Avoidance System (Auto GCAS), part of the Automatic Collision Avoidance Technology (ACAT) /Fighter Risk Reduction Program. Researchers hope the lessons learned during these tests will lead to the virtual elimination of fighter aircraft mishaps.

The cooperative program was conducted by the Air Force Research Laboratory (AFRL) in conjunction with the Air Force Flight Test Center and NASA Dryden. The Auto GCAS flight testing effort has collected data over the course of over 141 flight hours, with more than 1,600 automatic recoveries executed. The F-16 test aircraft will now be transitioned to the Air Force Flight Test Center 416th Flight Test Squadron, who will begin production flight testing in the next phase of the ACAT program. The Auto GCAS software was recently transitioned to Aeronautical Systems Center, with the goal of incorporating the system into F-16 production aircraft in 2014.

Auto GCAS technology uses information gathered from Global Positioning System data and incorporates it with Digital Terrain Elevation Data maps to enable aircraft to reference terrain below. In the event that an aircraft is flown dangerously close to the ground, this critical data enables the aircraft to automatically execute avoidance maneuvers without pilot intervention.

Onboard for the final test flight was Lockheed Avionics Design Engineer Charles Canney and NASA project pilot Nils Larsen. The flight took place over a widespread area including portions of California from Edwards Air Force Base to Death Valley and the peaks and canyons of the Sierra Nevada Range. The flight evaluated the ability of the system to fly at low levels without “nuisance fly-ups,” or unwarranted activations of the system. Additionally, the system’s collision avoidance capability was evaluated with the execution of numerous mishap profiles that are typically seen in the F-16 fleet.

Mr. Canney, who has served as part of the design team for Lockheed since 1989, flew aboard many of the collision avoidance runs throughout this testing effort. He described the final test flight as “the best flight anyone has ever had,” and stated, “As Nils got down low, I could see dirt being kicked up off of the desert floor and no nuisance activations.”

RADA Electronic Industries Ltd. (NASDAQ: “RADA”) is a Defense Electronics System House specializing in sophisticated, military-oriented electronic systems for airborne and land applications. RADA offers complete system solutions in addition to OEM subsystems and products, designed primarily for the aerospace and defense markets.

Website link: rada.com

RADA’s product lines include :

• Data Recording & Management
• Inertial Navigation Systems (INS)
• Avionic Solutions
• Radar Sensors for Force Protection Systems

RADA is a recognized world leader in the field of airborne video and data recordings. The company’s INS solutions, based on Fiber Optic Gyros (FOG) or Micro-Electro Mechanical Sensors (MEMS), are highly affordable and are suitable to a wide range of airborne and land military applications . RADA’s Radar technology provides compact and affordable sensors for APS and Perimeter Surveillance.

Based on its product range and extensive engineering experience, the company also offers complete system solutions, primarily in video and data recording and management systems, and avionic upgrade suits for military and aircraft and Mission (ISR) aircraft .

RADA’s customers include leading air forces the world over and prime integrators such as Lockheed Martin, Boeing, General Electric, Israel Aerospace Industries (IAI), Hindustan Aeronautics Ltd (HAL), Rafael Advanced Defense Systems, Embraer, Israel Military Industry (IMI) and many others .

RADA was founded in 1970 and has been traded on the NASDAQ stock exchange since 1985. RADA’s Chairman and President is Maj. Gen. (Ret.) Herzle Bodinger, who served as the Israeli Air Force Commander prior to joining the company.

RADA is certified to ISO-9000: 2000, AS9100B, and ISO-14001 standards.

Data Recording and Management

Digital Video Recorders, Flight Data Recorders, HUD Video Cameras, and Post-Mission Ground Debriefing Solutions.

Inertial Navigation Systems (INS)

FOG-Based Navigation Grade EGI and IMU (the R-100F family), MEMS-Based INS and IMU compact solutions (the R-200M family), for airborne and land applications.

Avionics Solutions

Aircraft Avionics Upgrades, ISR Aircraft Upgrades, and a wide variety of Avionics Subsystems for manned and unmanned vehicles.

Radar Sensors for Force Protection Systems

Compact, lightweight – yet armored – pulse-Doppler Digital Radars, for Active Protection Systems (APS) for armored vehicles and tanks, and Perimeter Surveillance Radars (PSR) for stationary and HLS applications.

Defense Update posts about RADA:

• Eurosatory 2010 Report
• Rada Unveil the Sentinel radar for APS
• Digital Video Recorders Reach the Battlefield
• Generic Avionics Set Path for the Network Centric Israel Air Force
• Heron TP (Eitan) Medium Altitude Long Endurance (MALE) UAV
• Ground Debriefing System for Israel’s F-16I Soufa
• High Capacity Digital Video Recorder
• NGC, RADA Team to Offer a Tactical Rocket Laser Shield
• Israel Air Force to Deploy a New Video Recorder & Data Server from RADA

CONTROP specializes in the development and production of Electro-Optical and Precision Motion Control Systems. The company’s specialists have over 35 years of experience in Electro-Optical / Infra-Red (EO/IR) products for surveillance, defense and homeland security.

Company website: controp.com

CONTROP’s main product lines include automatic passive intruder detection systems for coastal surveillance, port and harbour security, border surveillance, security of sensitive sites, perimeter security surveillance and ground troops security; High performance stabilized observation payloads used for day and night surveillance on board UAVs, mini UAVs and aerostats/balloons, helicopters, light aircraft, maritime patrol boats and ground vehicles; Thermal imaging cameras with high performance Continuous Zoom Lens and state-of-the-art image enhancement features, and more. The company’s range of surveillance, defense and homeland security systems include:

Controp’s Main Product Lines

• Stabilized EO / IR Payload Systems
• Scanning & Observation Systems
• Thermal Imaging Cameras
• Stabilized Gimbals and Antenna Pedestals
• Flat Panel TV Monitors

CONTROP’s specialists design and assemble optical lenses (zoom), in high accuracy mechanical subsystems. The company’s products are also supported by in-house electronic design, of both analog and digital systems, software design and implementation, inertial stabilization, servo-loops design testing, with inertial and GPS-aided INS systems expertise.

CONTROP’s main product lines include: Automatic passive intruder detection systems for coastal surveillance, port and harbor security, border surveillance, securing sensitive sites, perimeter security surveillance and ground troops security; High performance stabilized observation payloads are used for day and night surveillance on board UAVs, mini UAVs and aerostats/balloons, helicopters, light aircraft, maritime patrol boats and ground vehicles; thermal imaging cameras with high performance Continuous Zoom Lens and state-of-the-art image enhancement features, and more. CONTROP’s products are in daily operational use by many of the most critical homeland security and defense programs worldwide.

The company has a vast in-house knowledge base in all technological fields related to inertially-stabilized electro-optical payloads, and their applications for airborne, land or naval applications. The company also has the required design, simulation and testing tools and equipment supporting the product’s life cycle, from CONTROP has mastered all critical technological aspects required for successful implementation and integration of technological advances in electro-optical systems, including system-level design, analysis and simulation of electro-optical and Infra-red (thermal) sensors – both cooled and uncooled thermal imaging cameras. The company’s R&D teams specialize in real-time image enhancement and image processing, video tracker hardware / software design, implementation and integration of laser systems.

CONTROP has mastered all critical technological aspects required for successful implementation and integration of technological advances in electro-optical systems, including system-level design, analysis and simulation of electro-optical and Infra-red (thermal) sensors – both cooled and uncooled thermal imaging cameras. The company’s R&D teams specialize in real-time image enhancement and image processing, video tracker hardware / software design, implementation and integration of laser systems.

Main Products:

Stabilized EO / IR Payload Systems

CONTROP’s payloads are gyro-stabilized in two or three axis, using 3, 4 or 5 gimbals for applications in helicopters, aircraft or ground surveillance vehicles, Unmanned Aerial Vehicles, Unmanned Ground Vehicles, land vehicles or naval vessels, as well as sensors protecting fixed sites. These payloads can carry multiple sensors or a single camera, according to the user’s requirements. They come in different weight and performance levels, from 46 kg to 0.75 kg. Back

Scanning & Observation Systems

CONTROP was one of the world pioneers in the development of Scanning & Observation Surveillance Camera Systems. These sensors are providing both observation and panoramic scan capabilities using a single camera observation system. The company has been delivering such systems since the late 1990′s, meeting a wide range of operational requirements with numerous military and governmental agencies. Typical applications are Intruder Detection for border protection, perimeter security for air bases and other strategic sites, coastal defense and air defense applications. Back

Thermal Imaging Cameras

CONTROP developed a range of cooled and uncooled, high performance thermal cameras, providing night, daylight and adverse weather visibility. Typical applications of these cameras are for military, homeland security uses. CONTROP’s FLIRs are used throughout the company’s product range and also by other manufacturers and are also provided as an OEM sensor. Back

Stabilized Gimbals and Antenna Pedestals

The company offers Gyro Stabilized Gimbal Assemblies and Antenna Pedestals applicable for various optronic payloads and directional datalink antenna assemblies used on UAVs, aerial, naval and land-based systems. Back

Flat Panel TV Monitors

CONTROP also offers high brightness, ruggedized flat panel monitors for use with air, land and naval platforms and applications, including fixed and rotary wing aircraft, sea vessels and ground vehicles. These Super VGA displays are available in 15″, 10.4″ or 8.4″ LCD active matrix (TFT) screen sizes and are compatible to operate at altitudes of up to 20,000 feet. Back

Defense Update posts about Controp:

• SPEED-A, Aerostat-Dedicated Stabilized EO Payload System
• D-STAMP Daylight – Stabilized Miniature Payload
• DSP-1 EO Payload
• ESP-600 Lightweight EO payload
• MSSP-3 EO payload
• UAV Payloads on Display at AUVSI 2007
• Skylark 1 LE Mini UAV
• Israeli Battalions to Get Skylark 1 LE UAVs
• Aeronautics Displays the Orbiter, a New Small UAVs at the Paris Air Show
• Panoramic IR Scanners
• Red-Sky Short Range Air Defense System
• Ground Surveillance Vehicle – ZIBAR M

Israel's Defense Minister Ehud Barak Approves an initial buy of 20 F-35A Stealth Fighters for $2.75 Billion. Photo: Lockheed Martin

Israel will be the first country to receive the F-35 through the United States government’s Foreign Military Sales process. beginning in 2015.

In August 2010 Israel’s defense minister Lt. General (Ret) Ehud Barak has given the go-ahead to a $2.75 billion purchase of 20 fifth Generation, stealth  F-35I Lightning II fighter jets from Lockheed Martin. About a month later, on September 19, the Israeli government approved the procurement authorizing local currency budgeting necessary for the preparation of infrastructure. On October 7, Israel’s Ministry of Defense Director General (Maj. Gen. Ret.) Udi Shani signed the Letter of Offer and Acceptance for the procurement of the F-35 aircraft. The acquisition of the planes will be funded by U.S. military aid, over eight years.  The new fighter will be provided along with an integral support package, sustaining the aircraft through its service life. The decision has yet to pass the approval of the Israeli government. The purchase will be funded by U.S. military aid to Israel. Israel originally planned to initially buy of 25 aircraft. The current decision trims this initial buy by five aircraft. According to Israel MOD sources, the flyaway cost of these aircraft will be $96 million, but this cost reflects only the net price of the platform.

The expenses including the preparation of the new squadron, initial infrastructure, logistical and support package is expected to eventually exceed $150 million per plane. Given the additional integration cost of locally developed Israeli systems, planned for integration into this highly complex aircraft, the cost of future batches is expected to rise significantly for the fully equipped F-35Is in following years. Israel’s future plans are to buy 75 F-35Is. Furthermore, for these enhancement and adaptations Israel may have to rely on local currency funding, unlike the aircraft acquisition program that will be funded entirely by the annual U.S. aid amounting over $2 billion per year.

Israeli pilots will begin training on the new aircraft by 2014 and the first aircraft are expected to arrive in Israel by 2015. The first squadron could become operational in less than two years at one of the Israel Air Force (IAF) southern air bases.

The initial F-35I will represent standard F-35A models. However, the F-35I acquisition agreement is opening opportunities for the installation of Israeli systems in future production batches. These opportunities will also open the aircraft for marketing Israeli systems to other air forces, reflecting an opportunity worth several billions of dollars for the local industry. Gen. Udi Shani has stated that the acquisition agreement also includes a framework for buyback purchasing from the Israeli industry worth $4 billion. The introduction of Israeli components, systems and technologies into the world’s newest fighter plane will also open a potential market opportunity worth about $5 billion among the aircraft users. Read the full article on today’s Defense-Update.com.

F-22A Raptor, 5th Generation fighter. Photo: Tamir Eshel

Our first impressions from the Farnborough AirShow this year are that short termed, urgent requirements, have finally reached the air forces, traditionally known for their long term visionary and meticulous planning processes.

The recent conflicts fought at high profile, in Southwest Asia and Iraq, leave the military with minimal tolerance for error and, under these circumstances, they want everything right now and at the lowest cost.
With the absence of a major enemy, western air forces tend big ticket spending on buying new aircraft, while dragging procurement decisions on almost everything that does not directly support current combat requirements.

Fighter aircraft development and procurement programs are only one symbol of this trend. With a single, next generation fighters dominating the market for the foreseeable future, and the apparent commitment to buy few thousands F-35s over the next decades, the options open for air forces drill down to two – act now or wait and see. Some have already made their choices. The Canadians have recently decided in favor of the next generation fighter, as well as the Australians and British, but firm orders for production quantities are still pending. The U.S. Marine Corps are the most desperate for the new fighter, and the new accelerated test plan, currently underway, seems to brighten the future for the corps’ aviation, held in limbo as its current Vertical Take Off Short Landing (V/STOL) AV-8B and F/A-18C/D Hornets wear out under an extremely intensive operational regime.

F-35 AF-1 & AF-2 Arrival at Edwards Air Force Base. Photo: Lockheed Martin

Lockheed Martin, which has the highest stakes in the next generation fighter, opted to avoid the debate and visibly maintained a low profile with its F-35 program at Farnborough, leaving the scene for the competition. Wether this was a wise move or not, the future will tell, but it should certainly be scrutinized and questioned by the media.

Continue Reading Full Review On Defense-Update.com

Check our Farnborough 2010 review at this page

RADA Electronic Industries Ltd. (NASDAQ: “RADA”) is a recognized world leader in the field of airborne video and data recordings. The company’s INS solutions, based on Fiber Optic Gyros (FOG) or Micro-Electro Mechanical Sensors (MEMS), are highly affordable and are suitable to a wide range of airborne and land military applications . RADA’s Radar technology provides compact and affordable sensors for APS and Perimeter Surveillance.

Based on its product range and extensive engineering experience, the company also offers complete system solutions, primarily in video and data recording and management systems, and avionic upgrade suits for military and aircraft and Mission (ISR) aircraft.

RADA is specializing in sophisticated, military-oriented electronic systems for airborne and land applications. RADA offers complete system solutions in addition to OEM subsystems and products, designed primarily for the aerospace and defense markets.

RADA’s product lines include :

• Data Recording & Management
• Inertial Navigation Systems (INS)
• Avionic Solutions
• Radar Sensors for Force Protection Systems

The U.S. Army is planning to field at least 36 Beechcraft 350ER aircraft equipped for persistent surveillance and reconnaissance, under the Enhanced Medium Altitude Reconnaissance Surveillance System' (EMARSS), Photo: U.S. National Guards

The U.S. Army is embarking on an acquisition program of a new aerial surveillance manned aircraft designated ‘Enhanced Medium Altitude Reconnaissance Surveillance System’ (EMARSS), augmenting tactical ground units with persistent surveillance, intelligence gathering and situational understanding, supporting their ‘Overwatch’ capability. The new program of record represents a low-risk approach to field advanced, critical intelligence gathering capabilities based on the field operationally Hawker Beechcraft 350ER (C-12) aircraft.

The EMARSS will be equipped conduct reconnaissance, surveillance and target acquisition operations in support of ground combat units in overwatch and to maintain a persistent presence over demonstrated at-risk areas. The program calls for the delivery of four engineering and manufacturing development aircraft within 18 months of contract award. The Army will have an option to buy four additional aircraft as part of the low-rate initial production phase. These aircraft will support the Army’s Aerial Exploitation Battalions (AEB), operated under the Army Intelligence and Security Command (INSCOM).

Proposals for the program were submitted in June 2010. The program calls for the delivery of four engineering and manufacturing development aircraft within 18 months of contract award. The Army will have an option to buy four additional aircraft as part of the low-rate initial production phase. Northrop Grumman, Boeing and L-3 are known to compete for the program as prime contractors. While Boeing and Northrop Grumman are eying the program which surfaced as a major C4ISR program of record, L-3 is well positioned to compete with the experience it gathered through the Liberty MC-12 platform. The C-12 has also been operating successfully on airborne counter-IED missions, supporting Task Force ODIN in its IED hunting activities in Iraq and Afghanistan.