Advanced Flight Simulation devices
Encyclopedia
A flight simulator is a system that emulates and reproduces the actual experience of flying an aircraft as realistic as possible. The different types of flight simulator range from video games up to full-size cockpit replicas mounted on hydraulic (or electromechanical) actuators, controlled by state of the art computer technology. Flight simulators are extensively used by the aviation industry for design and development and for the training of pilots and other flight deck crew in both civil and military aircraft.

Full flight simulator

A full flight simulator (FFS) duplicates all aspects of the aircraft and its environment, including:

• Realistic sounds in and outside of the aircraft

• Motion in all six degrees-of-freedom

• Banking, pitching and yawing of the aircraft

• Aircraft vibration and turbulence

In a full flight simulator, movement is simulated by traversing along the arms of the hydraulic cylinders, so personnel in the simulator are required to belt up as they would in a real flying aircraft. Advanced military simulators are able to generate scenarios like aerial refueling, the firing of weapons, and also has a built in databank of roughly 250 malfunctions, such as engine fire, smoke in the cockpit or electrical and hydraulic failures.

Manufacturers of civil Full Flight Simulators include FlightSafety International (FSI) Frasca International (www.flightsafety.com), Inc., Rockwell Collins (www.rockwellcollins.com) and in Canada: CAE Inc. (www.cae.com) and Mechtronix Inc. (www.mechtronix.com). FSI provides flight trainers for the Cessna 172
Cessna 172
The Cessna 172 Skyhawk is a four-seat, single-engine, high-wing fixed-wing aircraft. First flown in 1955 and still in production, more Cessna 172s have been built than any other aircraft.-Design and development:...

, while Rockwell Collins produces the Cessna Citation Jet and King Air 350 simulators. CAE on the other hand, is geared towards commercial flight simulations such as the Boeing 777
Boeing 777
The Boeing 777 is a long-range, wide-body twin-engine jet airliner manufactured by Boeing Commercial Airplanes. It is the world's largest twinjet and is commonly referred to as the "Triple Seven". The aircraft has seating for over 300 passengers and has a range from , depending on model...

 and Airbus A380 wide body passenger jet. Mechtronix produces several flight trainers and full flight simulators for models ranging from single engine piston (e.g. C172) to narrow body commercial aircraft (e.g. B737 or A320).

CAE (Canadian Aviation Electronics)

In 1971, CAE developed a 6 degree of freedom motion system. Thompson CSF, now under BAE systems (www.baesystems.com), acquired 2 of CAE's 6DOF motion systems, one of it which was used on the Concorde simulator. Goodyear Aerospace also purchased motion systems for use on the USAF's F 15 simulators. During the early 80s, CAE developed a flight
simulator which provided customers with a 'glass cockpit" experience. CAE received orders from Lufthansa, UA and Korean airlines for their B757 and B767. Grumman Aerospace also placed an order for a 6-axis hand controller for future space-system development activities. In 1994, CAE was awarded a contract by Boeing to design the world's first B777 full-flight simulator for the newly introduced wide-bodied twin-jet aircraft. Subsequent years saw the introduction of CAE Tropos• and CAE Atmos• systems, a revolutionary new generation of display generators for the 5000 and 7000 series full flight simulators. Today, CAE specializes in building flight simulators for current generation wide body aircraft, ranging from the new generation 737s, A340, A380, B777 up to tomorrow's 787 Dreamliner
Boeing 787
The Boeing 787 Dreamliner is a long-range, mid-size wide-body, twin-engine jet airliner developed by Boeing Commercial Airplanes. It seats 210 to 290 passengers, depending on the variant. Boeing states that it is the company's most fuel-efficient airliner and the world's first major airliner to use...

. To learn more about the company, please follow this link to CAE's website

CAE 7000 series full fight simulator

The CAE 7000 series was developed for modern wide body aircraft which includes the A330/A340/A380 and Boeing's 747/777/787. It is also used on Regional Jets like the Embraer 190, and also on private jets like the Cessna Citation X for example. Some features of the CAE 7000 series simulators include:

• CAE's True Electric Motion System

• Liquid Crystal on Silicon (LCoS) projector

• CAE Tropos-6000 image generators using commercial-off-the-shelf (COTS) graphics processors

• Visual display system with a wide field-of-view (minimum 200° x 43°)

• Speech recognition-enabled Air Traffic Control environment simulation

CAE's True Electric Motion System, as the name suggests, uses electrical actuators to move the motion cylinders instead of conventional hydraulic pumps. The 7000 series is the first full flight simulator with electric motion to receive level D certification. This system was jointly developed in partnership with control system expert Moog FCS, which also specializes in aviation electronics and defense solutions. The use of electric actuators eliminated the need for hydraulic pumps, which drastically cut down the required labor for maintenance since it consumes only half the amount of power that is required to power a similar system with hydraulics, reducing simulator operating cost.

Another breakthrough for the 7000 series was due to the use of Liquid Crystal on Silicon (LCoS) projectors, which works similar to Digital Light Projection (DLP) technology, but projects light onto liquid crystals itself instead of tiny mirrors that would normally make up the resolution of DLP images. LCos projectors are able to generate higher resolution images when compared to LCS or Plasma devices, and also at a higher contrast level (13000:1), which is also almost double that of the average LCD screen. LCos pixels are also smoother than the pixels of other systems, which some people say creates more natural pictures. This enables the 7000 series simulators to generate a real world environment with great accuracy.
The CAE Tropos-6000 as mentioned above takes advantage of commercial off the shelf
Commercial off-the-shelf
In the United States, Commercially available Off-The-Shelf is a Federal Acquisition Regulation term defining a nondevelopmental item of supply that is both commercial and sold in substantial quantities in the commercial marketplace, and that can be procured or utilized under government contract...

 technology from graphic card manufactures ATI, and is available in three configurations: Tropos-6100, Tropos¬6200, and Tropos-6400. The high-end CAE Tropos-6400 is designed to meet the demanding requirements of Level D training by employing four graphics processing units (GPUs) per projector covering a field-of-view of 2000 x 430 for a 3-channel configuration. The CAE Tropos¬6200 is designed for full-flight simulators and flight training devices not requiring Level D certification and uses two GPUs per projector. The CAE Tropos-6100 is ideal for laptop or desktop applications such as airport familiarization and uses a single GPU. The 6400 series is able to cover imagery around airport scenes in ultra high resolution (4 million rendered pixels) within a 6 kilometer radius of the current position. 3-D clouds, storm fronts, fog, snow and dust, and over 250 airport scenes are able to be rendered at a refresh rate of 60 Hz, with a 5ms transport delay. Utilizing COTS graphic processors, CAE Tropos e is the only image generator developed with the ability to generate realistic runway lighting with occlusion, a critical achievement since the FAA requires realistic runway lighting for Level D certification. Other features of the CAE Tropos-6000 series include the ability emulate views from cameras positioned on the underside of the aircraft. These camera views, known as Ground Maneuver
Camera System (GMCS) designed for the B777-300 and Taxi Aid Camera System (TACS) for the A340-600 provides a visual of the landing gears on the ground for pilots performing taxiing training, allowing pilots to track the center line on the taxiway and during takeoff.

More information on the Tropos 6000 Visual system can be found here.

Specification sheet for the CAE 7000 series FFS

Xenosphere

The Xenosphere is a modern flight training device based on the idea of using a spherical capsule to carry a passenger for motion simulation in a spherical capsule that rotates around any combination of three axes (roll, pitch, yaw). The X1 Xenosphere prototype had a capsule that was fabricated from composite materials and measured slightly under 8 feet in diameter. The capsule shell, without contents, weighted approximately 300 pounds. The performance of roll and pitch rotation proved to be good. However, steel was used throughout the structure which meant that the heavy structure could not provide reasonable yaw performance. This led to the development of the second Xenosphere prototype X2.


The X2 prototype is currently under active development. The horizontal motor “ring” of the X1 has been rotated to vertical, providing roll, yaw, and structural support for the capsule. The ring itself is rotated for capsule pitch control. Using the vertical ring for structural support eliminates the compressed air requirement of the X1. It is hoped that the second generation Xenosphere will result in substantial improvement in the capabilities of high performance motion simulation. – Steve Jones, Xenosphere website

Desdemona simulator

The Desdemona concept was developed by TNO Human Factors (The Netherlands)(www.tno.nl) in conjunction with AMST Systemtechnik (Austria) (www.amst.co.at). It features a rotating cockpit similar to the Xenosphere, mounted on a rotating platform, allowing translation and rotation in all directions. The cockpit can move along an 8 m horizontal track, along with a 2 m translation on the vertical axis. Acceleration of 0.5 G is attainable while moving along the horizontal and vertical track. The entire platform is rotated around a vertical axis, opening the possibility to centrifugal force
Centripetal force
Centripetal force is a force that makes a body follow a curved path: it is always directed orthogonal to the velocity of the body, toward the instantaneous center of curvature of the path. The mathematical description was derived in 1659 by Dutch physicist Christiaan Huygens...

. Variation of the angular velocity with constant eccentricity results in a varying G-load. This can also be achieved by varying the eccentricity while keeping angular velocity constant. This allows the Desdemona to simulate accelerations up to 3G.

View the release article here
View a short video clip of the Desdemona simulator here
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