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F-16’s automatic ground collision avoidance system:

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F-16’s automatic ground collision avoidance system: details, strengths and limitations
Feb 02 2015
By Rocky Jedick

Ground Collision Avoidance Technology (GCAT)
On a recent flight in a Block 40 F-16 with our squadron’s weapons officer I was introduced to the new pilot-activated recovery system (PARS). Starting at about 20,000 feet (FL 200) we rolled inverted and started a rapid 30 degree nose-low dive. The pilot pressed a button initiating the PARS. Immediately the aircraft’s computer took command of the flight controls and we experienced a very intense 180-degree roll until wings level followed by a 5-G pull-up at 4 G’s/second until we were again flying straight and level. On the second demonstration we put the aircraft in a 30-40 degree nose-up attitude. After PARS initiation, the Viper went into autopilot controlling the roll and yaw of the aircraft while allowing the nose to slice down until we were again straight and level.

This PARS feature is part of the F-16’s newest upgrade to avoid mishaps due to controlled flight into terrain (CFIT). The entire fleet of F-16’s in the USAF received this important upgrade during the 2014 calendar year. This is incredibly EXCITING news for the fighter pilot community and hopefully will translate into hundreds of lives and billions of dollars saved. CFIT occurs for a variety of reasons and plagues aviation taking the lives of hundreds of military and general aviation pilots each year. Aside from PARS, the other application of this new capability is the Auto-GCAS (Ground Collision Avoidance System). Auto-GCAS provokes inputs to the flight controls similar to the PARS feature described above, but happens automatically without pilot initiation. The technology relies on sophisticated computer software, terrain maps, GPS and predictive algorithms that will ‘take the jet’ from the pilot when CFIT is predicted to be imminent.

A video HUD demo of the Auto-GCAS can be seen directly below, and further below a NASA video discussing how the GCAT technology was developed and works.


A Brief History of GCAT
The GCAT software was developed by NASA’s Armstrong Flight Research Center at Edwards AFB, in partnership with the Office of the Undersecretary for Personnel and Readiness, the Air Force Research Laboratory (AFRL), the Air Force Test Center (AFTC) and Lockheed Martin. The technology began development in the 1980’s and was ready for testing by the late 1990’s. By 2009, the Ground Collision Avoidance Technology was incorporated into an upgraded USAF Block 25 F-16D and underwent further testing at Edwards AFB, CA.

According to NASA: “The team conducted more than 556 test maneuvers during 49 flights, some of which involved diving at the ground and toward the sides of mountains. Key objectives included demonstrating that Auto-GCAS could significantly reduce the number of mishaps resulting from pilot spatial disorientation, loss of situational awareness, gravity-induced loss of consciousness, and landing-gear-up landings.

Air Force officials announced in 2013 that an operational Auto-GCAS system would be installed in the F-16 fleet and this largely took place throughout the 2014 calendar year. At the base I am currently stationed, we received the upgrade in Sep-Oct 2014. The application has also been tested for general aviation. In 2012, Auto-GCAS was adapted for a small, unmanned research aircraft and implemented as a smartphone application using the Android operating system linked to the aircraft’s autopilot. There remain plans to develop similar systems that can be incorporated into the F-22, F-35, and F-18.


Strengths & Limitations of GCAT
Two of the most common human factors conditions that lead to death or loss of aircraft in combat aviation are spatial disorientation and G-induced loss of consciousness (G-LOC). Spatial Disorientation is the inability to determine one’s position, location, and motion relative to their environment, and is covered in greater detail in a separate post. There are three types of Spatial D: Unrecognized, Recognized, and Incapacitating. The Pilot-Activated Recovery System (PARS) will save pilots suffering from recognized and capacitating Spatial-D as long as the pilot remains able to activate the technology. If a pilot is spatially disoriented but remains unable to initiate PARS, Auto-GCAS should theoretically still save him/her from CFIT. The other big killer, the notorious G-LOC (For more info on Pulling G’s see this post), is expected to occur less frequently with incorporation of the newer, more effective G-suit called ATAGS, but Auto-GCAS will also play a role to save pilot and aircraft if G-LOC were to occur. Lastly, gear up landings in any aircraft utilizing this technology should no longer occur.

Ground Collision Avoidance Technology has some significant software and hardware limitations. For example, the system is not able to make inputs on the throttle. If the throttle is in idle upon activation, the aircraft will quickly lose maneuverability and control authority. This will limit the efficiency and ability for inputs of the flight controls to produce their desired effect. In other cases, a reduction in power may be required for the optimal recovery. Pilots have been trained on this new system and are aware of these limitations. If the GCAT systems find that they are unable to initiate recovery due to the current throttle setting, all it can do is notify the pilot.

Although this technology will undoubtedly give fighter pilot spouses reason to sleep more peacefully, possible exceptional circumstances in which the Auto-GCAS cannot prevent CFIT still exist. The recent loss of an F-16 and death of Capt. Will “Pyro” DuBois after installation of GCAT remains a tragic example of the fact that even though new technologies are creating significant strides in safety, the risk inherent to combat aviation will always be present.

The Aviationist » F-16’s automatic ground collision avoidance system: details, strengths and limitations
 
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Ground Collision Avoidance System ‘Saves’ First F-16 In Syria
Feb 5, 2015 Guy Norris | Aerospace Daily & Defense Report

LOS ANGELES – A U.S. Air Force F-16C believed to be taking part in combat operations against Islamic State (ISIS) forces in Syria has become the first to be officially ‘saved’ from certain impact with the ground by the recently fielded Automatic Ground Collision Avoidance System (Auto GCAS).
Details of the incident, believed to have involved an Air Force F-16 operating from Jordan during a air-to-surface attack last Nov. 10, remain unconfirmed. But the Air Force does acknowledge the system saved an aircraft and its pilot. Auto GCAS, which was developed by Lockheed Martin’s Skunk Works, the Air Force Research Laboratory (AFRL) and NASA, has only recently been integrated in to the USAF Block 40/50 fleet by Lockheed Martin’s Integrated Fighter Group. Installation in the Air Force fleet began last September as part of the latest M6.2+ Operational Flight Program (OFP) software update.

The system protects pilots by taking temporary command of the aircraft and executing an automatic recovery maneuver when it detects that an impact with terrain is imminent. The system constantly compares the trajectory of the F-16 with a terrain profile generated from onboard digital terrain elevation data (DTED). If the system detects a threat, an evasion command is issued. If no action is immediately taken by the pilot, the system automatically assumes control (AW&ST, Aug 2, 2010, p. 50). The recovery includes an abrupt roll-to-upright followed by a 5g pull until clearance of the terrain is assured. Auto GCAS can also be overridden by the pilot at any time. The system incorporates a "Pilot Activated Recovery System" (PARS) function which provides a disoriented pilot with a way to manually engage an automated recovery.

The early save of an aircraft using the system so soon after fleet installation is an important milestone for the long-running Auto GCAS effort, which aims to reduce losses from controlled flight into terrain by up to 90%. According to the Air Force, 26% of aircraft losses and 75% of all F-16 fatalities are caused by such accidents. Based on historic accident rates, the Air Force predicts Auto GCAS has the potential to save 10 lives, up to 14 aircraft and $530 million over the projected remaining service life of the U.S. F-16 fleet. The system, which completed research and development under Air Combat Command’s (ACC) Fighter Risk Reduction Program in 2010, built on several earlier ground collision research efforts extending back over a decade.

More than 440 of the 631 later-build F-16s have now been fitted with Auto GCAS. Most of the remaining fleet still awaiting retrofit is at Luke AFB, Arizona, where modifications are expected to be completed pending the upgrade of the aircraft’s flight control computers with new processors. A system for earlier production Block 30 F-16s with non-digital flight control computers has also been proposed, and an AFRL-funded flight test effort is scheduled to begin early this year. The system is aimed initially at the U.S. Block 30 fleet. But to reduce costs, flight tests are planned on an aircraft configured to the similar EPAF (European Participating Air Forces) midlife update OFP standard developed between the U.S., Belgium, Denmark, Norway and the Netherlands.

Ground Collision Avoidance System ‘Saves’ First F-16 In Syria | Defense content from Aviation Week
 
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NASA is working a version for UAVs too:

Evolving technologies necessary for Unmanned Aircraft Systems (UAS) to safely avoid other aircraft while moving through the nation's skies recently were put to the test using NASA's remotely piloted Ikhana aircraft.

Equipped with a prototype system of Detect-and-Avoid (DAA) sensors working in concert with airborne and ground-based computers, Ikhana made 11 flights involving more than 200 scripted encounters with approaching aircraft.


Micro stories - small news bits too small to have their own thread | Page 32

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ed15-0201-07.jpg


*Special thanks to that Swedish guy. I forget his name.
 
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NASA-pioneered anti-collision software to be installed in USAF F-16 fighters
auto-gcas.jpg


The United States Air Force (USAF) has announced that it is in the process of fitting out its fleet of F-16 fighters with a NASA-developed system that has the potential to save hundreds of lives and billions of dollars by preventing aircraft crashes due to pilot error. The Automatic Ground-Collision Avoidance System (Auto-GCAS) will essentially work by detecting incoming terrain and triggering an autopilot maneuver, safely diverting the plane and its pilot out of harm's way.

In America alone, hundreds of deaths occur each year due to what is called "controlled flight into terrain" (CFIT). Whilst cockpit warnings and other such systems have helped in dramatically reducing CFIT for commercial airliners, no system had been developed that could cope with like fatalities for fighter aircraft. Therefore, loss of life to CFIT is still relatively commonplace in the military sphere.

Hopefully, Auto-GCAS will make such fatalities a thing of the past. The system has been in development since the mid-1980s, however flight testing on the F-16 platform did not begin until 2009, with production testing being carried out by the Air Force Test Center's 416th Flight Test Squadron in August 2010.

In 2012 the technology was further refined, with NASA personnel testing the system on a remotely-operated unmanned research aircraft. This was achieved by running the software through a smartphone using the Android platform, that was then linked into the aircraft's Piccolo autopilot. The same smartphone-based technology was then installed on a Dryden Remotely Operated Integrated Drone (DROID). This series of tests saw the unmanned aircraft repeatedly apply the Auto-GCAS system, reliably executing terrain evasion maneuvers even when contact was lost with the nearby ground station.

"The smartphone aboard the aircraft eliminated the need for the ground control station link to be in constant communication with the aircraft," states Mark Skoog, NASA's principle investigator for the Auto-GCAS project. "On these flights the system performed very reliably, consistently initiating recoveries close to the last possible moment, even in the face of numerous losses of communications with the ground control station [including those] right at the critical point of needing to avoid the colliding with the mountain."

auto-gcas-3.jpg


auto-gcas-2.jpg


The comprehensive series of tests carried out by NASA and its partners made it clear that Auto-GCAS had potential applications far beyond fighter pilot assistance, with project developers seeing uses in the general aviation market and beyond. The system had already proven that it could be a useful safety net for the operators of unmanned drones. Should an operator lose contact with a drone fitted with the system, Auto-GCAS could keep the UAV out of harm's way, possibly allowing the pilot to subsequently regain control.
In its completed form, Auto-GCAS boasts the capacity to recognize when the aircraft is approaching terrain, calculate the time to impact, and when it judges that the danger has exceeded acceptable levels, the system will automatically execute an evasive autopilot sequence. Furthermore, since the software is integrated into the F-16's flight control systems, Auto-GCAS does not require a constant connection with a ground control system in order to function.

The technology is now being developed for USAF F-22 (pictured above) and F-35 fighters. A more advanced version of the Auto-GCAS is also in the pipeline, with improvements due to be made that will allow the system to perform more advanced multi-directional hazard avoidance maneuvers. Upgrades will also boost vehicle performance modelling and allow for improved ground mapping fidelity.

Additionally, the system is set to be integrated into a broader array of handheld devices, allowing the Auto-GCAS system to be used in a wide variety of aircraft, with plans even being made to implement the technology in ground-based vehicles.

NASA-pioneered anti-collision software to be installed in USAF F-16 fighters

****************************************************
In 2005 when the UAE Blk60's were delivered, they were the first F-16's to be equipped with the GCAS system, which has since been upgraded.

"The Desert Falcon has many automated modes, including autopilot, auto-throttle, an automatic ground collision avoidance system, and a pilot-actuated recovery system. The recovery system allows pilots to recover the aircraft with the push of a button the moment they sense they have lost situational awareness."


In recent years, significant improvements in F-16 capability have been developed and added to the stream of software and systems upgrades that have been a part of the program from its inception. Most recently, the US Air Force is fielding the Automated Ground Collision Avoidance System, or AGCAS, which provides the pilot with improved situational awareness of imminent collision with the ground. The system can take control of the aircraft to avoid a collision if the pilot doesn’t respond to the visual cues.

History Of The F-16 Fighting Falcon | Code One Magazine

@Horus @Oscar @Windjammer @araz @MastanKhan I hope this thread proves to be of interest to you.

Further Reading:
Ground proximity warning system - Wikipedia, the free encyclopedia
 
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NASA-pioneered anti-collision software to be installed in USAF F-16 fighters
View attachment 264594

The United States Air Force (USAF) has announced that it is in the process of fitting out its fleet of F-16 fighters with a NASA-developed system that has the potential to save hundreds of lives and billions of dollars by preventing aircraft crashes due to pilot error. The Automatic Ground-Collision Avoidance System (Auto-GCAS) will essentially work by detecting incoming terrain and triggering an autopilot maneuver, safely diverting the plane and its pilot out of harm's way.

In America alone, hundreds of deaths occur each year due to what is called "controlled flight into terrain" (CFIT). Whilst cockpit warnings and other such systems have helped in dramatically reducing CFIT for commercial airliners, no system had been developed that could cope with like fatalities for fighter aircraft. Therefore, loss of life to CFIT is still relatively commonplace in the military sphere.

Hopefully, Auto-GCAS will make such fatalities a thing of the past. The system has been in development since the mid-1980s, however flight testing on the F-16 platform did not begin until 2009, with production testing being carried out by the Air Force Test Center's 416th Flight Test Squadron in August 2010.

In 2012 the technology was further refined, with NASA personnel testing the system on a remotely-operated unmanned research aircraft. This was achieved by running the software through a smartphone using the Android platform, that was then linked into the aircraft's Piccolo autopilot. The same smartphone-based technology was then installed on a Dryden Remotely Operated Integrated Drone (DROID). This series of tests saw the unmanned aircraft repeatedly apply the Auto-GCAS system, reliably executing terrain evasion maneuvers even when contact was lost with the nearby ground station.

"The smartphone aboard the aircraft eliminated the need for the ground control station link to be in constant communication with the aircraft," states Mark Skoog, NASA's principle investigator for the Auto-GCAS project. "On these flights the system performed very reliably, consistently initiating recoveries close to the last possible moment, even in the face of numerous losses of communications with the ground control station [including those] right at the critical point of needing to avoid the colliding with the mountain."

View attachment 264595

View attachment 264596

The comprehensive series of tests carried out by NASA and its partners made it clear that Auto-GCAS had potential applications far beyond fighter pilot assistance, with project developers seeing uses in the general aviation market and beyond. The system had already proven that it could be a useful safety net for the operators of unmanned drones. Should an operator lose contact with a drone fitted with the system, Auto-GCAS could keep the UAV out of harm's way, possibly allowing the pilot to subsequently regain control.
In its completed form, Auto-GCAS boasts the capacity to recognize when the aircraft is approaching terrain, calculate the time to impact, and when it judges that the danger has exceeded acceptable levels, the system will automatically execute an evasive autopilot sequence. Furthermore, since the software is integrated into the F-16's flight control systems, Auto-GCAS does not require a constant connection with a ground control system in order to function.

The technology is now being developed for USAF F-22 (pictured above) and F-35 fighters. A more advanced version of the Auto-GCAS is also in the pipeline, with improvements due to be made that will allow the system to perform more advanced multi-directional hazard avoidance maneuvers. Upgrades will also boost vehicle performance modelling and allow for improved ground mapping fidelity.

Additionally, the system is set to be integrated into a broader array of handheld devices, allowing the Auto-GCAS system to be used in a wide variety of aircraft, with plans even being made to implement the technology in ground-based vehicles.

NASA-pioneered anti-collision software to be installed in USAF F-16 fighters

****************************************************
In 2005 when the UAE Blk60's were delivered, they were the first F-16's to be equipped with the GCAS system, which has since been upgraded.

"The Desert Falcon has many automated modes, including autopilot, auto-throttle, an automatic ground collision avoidance system, and a pilot-actuated recovery system. The recovery system allows pilots to recover the aircraft with the push of a button the moment they sense they have lost situational awareness."


In recent years, significant improvements in F-16 capability have been developed and added to the stream of software and systems upgrades that have been a part of the program from its inception. Most recently, the US Air Force is fielding the Automated Ground Collision Avoidance System, or AGCAS, which provides the pilot with improved situational awareness of imminent collision with the ground. The system can take control of the aircraft to avoid a collision if the pilot doesn’t respond to the visual cues.

History Of The F-16 Fighting Falcon | Code One Magazine

@Horus @Oscar @Windjammer @araz @MastanKhan I hope this thread proves to be of interest to you.

Further Reading:
Ground proximity warning system - Wikipedia, the free encyclopedia
So what is new thing in this news, its an 40 year old technology:hitwall::devil:
 
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Really. When were aircraft flying at 500 knots capable of automatically avoiding the ground in 1975?
Kindly do check if this guy is a false flag. He has been indirectly spewing crap against Pakistani systems.
 
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I think you guys don't understand me, I am just saying that basic technology of ground collision avoidance system for commercial aviation is 40 year old story, and Mr Indus Falcon I am not a false flaggers, I live in Karachi
 
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I think you guys don't understand me, I am just saying that basic technology of ground collision avoidance system for commercial aviation is 40 year old story, and Mr Indus Falcon I am not a false flaggers, I live in Karachi
Sure it has, why dont you elaborate how it is the same if you really think you know about what is in this one?

Your statement sounds like some ignorant argument on Liquid crystal displays have been around for 50 years. They all must be the same then.
 
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