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  1. Valhalla Inc - Cockpit Project - Detailed information for home cockpit builders. Lots of photos.
  2. Real Cockpit Photos - Cockpit photos which could be used for research and development.
  3. Build Your Own Cockpit - How to build your own cockpit, rudders, and other items. Links, articles, and email contact.
  4. Home-Built Aircraft Cockpits - Webring for the hobby linking similar sites.
  5. F-16 Cockpit project - F-16 Cockpit project home-made from scratch using found and recycled components. Pictures and narrative of construction.
  6. The Deltasoft Group - Simulator cockpit based on an IFR cockpit.
  7. SimPits International - A not for profit organization made up of volunteers dedicated to helping all who would like to construct their very own personal cockpit system.
  8. Simhangar - Contains much information about building home simulation cockpits.
  9. Aimsworth F-16 Cockpit - High end home F-16 Simulator
  10. Simhangar - Provides assistance for those building their own simulator cockpit.
  11. FScockpit - Provides detailed instructions on the development of a flight simulator cockpit with the use of the Microsoft Flight Simulator.
  12. WebRing; SimPits International - Webring for the hobby linking similar sites.
  13. Cobra's Cockpit Page - A site is about the building of a home "cockpit" for use with computer flight simulator programs.
  14. Kev's Cockpit - Article on how to build a fixed base cockpit mock-up comprising left seat, centre consul, overhead system panel, flight controls and a simple seat motion system.
  15. Aero Cockpit - RC model airplane instrument panels and cockpit kits, pictures.
  16. Flyit Simulators - Designs and manufactures personal, professional, contract, and entertainment interactive flight simulators.
  17. The Ejection Site - Home built sim built with surplus parts, including an F-100 ejection seat.
  18. Avro Arrow 206 - Interactive Arrow page
  19. Martin Baker MkH7 USAF Ejection Seat - Photos of a MB MkH7 USAF ejection seats.

  20. [ Link Deletion Request ]

    cockpit voice recordings cockpit movie cockpit videos cockpit clothing cockpit usa smart cockpit cockpit photos smoke in cockpit


    View of the cockpit of an Airbus A319 during landing
    Interior of a IndiGo A320 flight

    A cockpit or flight deck is the area, usually near the front of an aircraft, from which a pilot controls the aircraft. Most modern cockpits are enclosed, except on some small aircraft.

    Cockpit of an Antonov An-124
    Cockpit of an A380. Most Airbus cockpits are glass cockpits featuring fly-by-wire technology.
    Swiss HB-IZX Saab 2000 cockpit during flight
    Dashboard of a Robin DR400

    The cockpit of an aircraft contains flight instruments on an instrument panel, and the controls that enable the pilot to fly the aircraft. In most airliners, a door separates the cockpit from the passenger compartment. After the September 11, 2001 attacks, all major airlines fortified their cockpits against access by hijackers.[1]

    Cockpit Etymology of "cockpit"

    The term cockpit described the sailing term for the coxswain's station in a Royal Navy ship, and later the location of the ship's rudder controls.[citation needed] Cockpit appeared in the English language in the 1580s, "a pit for fighting cocks", from cock + pit. Used in nautical sense (1706) for midshipmen's compartment below decks; transferred to airplanes (1914) and to cars (1930s).[2] From about 1935 cockpit came to be used informally to refer to the driver's seat of a car, especially a high performance one, and this is official terminology in Formula One.

    On an airliner, the cockpit is usually referred to as the flight deck. This term derives from its use by the RAF for the separate, upper platform in large flying boats where the pilot and co-pilot sat.

    Cockpit Ergonomics

    The first airplane with an enclosed cabin appeared in 1912 on the Avro Type F; however, during the early 1920s there were many passenger aircraft in which the crew remained open to the air while the passengers sat in a cabin. Military biplanes and the first single-engined fighters and attack aircraft also had open cockpits, some as late as the Second World War when enclosed cockpits became the norm.

    The largest impediment to having closed cabins was the material the windows were to be made of. Prior to Perspex becoming available in 1933, windows were either safety glass, which was heavy, or cellulose nitrate (i.e.: guncotton), which yellowed quickly and was extremely flammable. In the mid-1920s many aircraft manufacturers began using enclosed cockpits for the first time. Early airplanes with closed cockpits include the 1924 Fokker tri-motor, the 1926 German Junkers W.34 transport, the 1926 Ford Tri-Motor, the 1927 Lockheed Vega, the Spirit of St. Louis and the passenger aircraft manufactured by the Douglas and Boeing companies during the mid-1930s. Open-cockpit airplanes were almost extinct by the mid-1950s, with the exception of training planes, crop-dusters and homebuilt aircraft designs.

    Cockpit windows may be equipped with a sun shield. Most cockpits have windows that can be opened when the aircraft is on the ground. Nearly all glass windows in large aircraft have an anti-reflective coating, and an internal heating element to melt ice. Smaller aircraft may be equipped with a transparent aircraft canopy.

    In most cockpits the pilot's control column or joystick is located centrally (centre stick), although in some military fast jets the side-stick is located on the right hand side. In some commercial airliners (f.i. Airbus) both pilots use a side-stick located on the outboard side, so Captain's side-stick on the left and First-officer's seat on the right.

    The layout of the cockpit, especially in the military fast jet, has undergone standardisation, both within and between aircraft different manufacturers and even different nations. One of the most important developments was the "Basic Six" pattern, later the "Basic T", developed from 1937 onwards by the Royal Air Force, designed to optimise pilot instrument scanning.

    Ergonomics and human factors concerns are important in the design of modern cockpits. The layout and function of cockpit displays controls are designed to increase pilot situation awareness without causing information overload. In the past, many cockpits, especially in fighter aircraft, limited the size of the pilots that could fit into them. Now, cockpits are being designed to accommodate from the 1st percentile female physical size and the 99th percentile male size.

    In the design of the cockpit in a military fast jet, the traditional "knobs and dials" associated with the cockpit are mainly absent. Instrument panels are now almost wholly replaced by electronic displays, which are themselves often re-configurable to save space. While some hard-wired dedicated switches must still be used for reasons of integrity and safety, many traditional controls are replaced by multi-function re-configurable controls or so-called "soft keys". Controls are incorporated onto the stick and throttle to enable the pilot to maintain a head-up and eyes-out position – the so-called Hands On Throttle And Stick or Direct Voice Output of aircraft status information and for the spatial localisation of warning sounds for improved monitoring of aircraft systems.

    The layout of control panels in modern airliners has become largely unified across the industry. The majority of the systems-related controls (such as electrical, fuel, hydraulics and pressurization) for example, are usually located in the ceiling on an overhead panel. Radios are generally placed on a panel between the pilot's seats known as the pedestal. Automatic flight controls such as the autopilot are usually placed just below the windscreen and above the main instrument panel on the glareshield. A central concept in the design of the cockpit is the Design Eye Position or "DEP", from which point all displays should be visible.

    Most modern cockpits will also include some kind of integrated warning system.

    In a 2013 comparative study of a number of novel methods for cockpit-user interaction, touchscreen produced the largest number of "best scores".[3]

    Cockpit Flight instruments

    USAF and IAF airmen work inside the cockpit of an IAF Ilyushin Il-76
    Vickers VC-10 cockpit of the 1960s
    A later analogue cockpit (1970s) of a Hawker Siddeley Trident airliner

    In the modern electronic cockpit, the electronic flight instruments usually regarded as essential are MCP, PFD, ND, EICAS, FMS/CDU and back-up instruments.

    Cockpit MCP

    A mode control panel, usually a long narrow panel located centrally in front of the pilot, may be used to control heading, speed, altitude, vertical speed, vertical navigation and lateral navigation. It may also be used to engage or disengage both the autopilot and the autothrottle. The panel as an area is usually referred to as the "glareshield panel". MCP is a Boeing designation (that has been informally adopted as a generic name for the unit/panel) for a unit that allows for the selection and parameter setting of the different autoflight functions, the same unit on an Airbus aircraft is referred to as the FCU (Flight Control unit).

    Cockpit PFD

    The primary flight display is usually located in a prominent position, either centrally or on on either side of the cockpit. It will in most cases include a digitized presentation of the attitude indicator, air speed and altitude indicators (usually as a tape display) and the vertical speed indicator. It will in many cases include some form of heading indicator and ILS/VOR deviation indicators. In many cases an indicator of the engaged and armed autoflight system modes will be present along with some form of indication of the selected values for altitude, speed, vertical speed and heading. It may be pilot selectable to swap with the ND.

    Cockpit ND

    A navigation display, which may be adjacent to the PFD, shows the current route and information on the next waypoint, current wind speed and wind direction. It may be pilot selectable to swap with the PFD.

    Cockpit EICAS/ECAM

    The Engine Indication and Crew Alerting System (used for Boeing) or Electronic Centralized Aircraft Monitor (for Airbus) will allow the pilot to monitor the following information: values for N1, N2 and N3, fuel temperature, fuel flow, the electrical system, cockpit or cabin temperature and pressure, control surfaces and so on. The pilot may select display of information by means of button press.

    Cockpit FMS

    The flight management system/control unit may be used by the pilot to enter and check for the following information: flight plan, speed control, navigation control, and so on.

    Cockpit Back-up instruments

    In a less prominent part of the cockpit, in case of failure of the other instruments, there will be a set of back-up instruments, showing basic flight information such as speed, altitude, heading, and aircraft attitude.

    Cockpit Aerospace industry technologies

    In the U.S. the Federal Aviation Administration (FAA) and the National Aeronautics and Space Administration (NASA) have researched the ergonomic aspects of cockpit design and have conducted investigations of airline industry accidents. Cockpit design disciplines include Cognitive Science, Neuroscience, Human Computer Interaction, Human Factors Engineering, Anthropometry and Ergonomics.

    Aircraft designs have adopted the fully digital "glass cockpit". In such designs, instruments and gauges, including navigational map displays, use a user interface markup language known as ARINC 661. This standard defines the interface between an independent cockpit display system, generally produced by a single manufacturer, and the avionics equipment and user applications it is required to support, by means of displays and controls, often made by different manufacturers. The separation between the overall display system, and the applications driving it, allows for considerable specialization and independence.

    Cockpit See also

    Cockpit References

    1. ^
    2. ^
    3. ^ Stanton, N. A., Harvey, C., Plant, K. L. and Bolton, L., 2013, "To twist, roll, stroke or poke. A study of input devices for menu navigation in the cockpit", Ergonomic Abstracts, Vol. 56 (4), pp. 590-611

    Cockpit External links

    Cockpit Store Cockpit Photos Cockpit USA F|16 Cockpit 747 Cockpit Airplane Cockpit Aircraft Cockpits Space Shuttle Cockpit

    | Cockpit Store | Cockpit Photos | Cockpit USA | F-16 Cockpit | 747 Cockpit | Airplane Cockpit | Aircraft Cockpits | Space Shuttle Cockpit | Cockpit | Glass_cockpit | Cockpit_Theatre | Cockpit_(sailing) | Cockpit_(cockfighting) | Cockpit-in-Court | The_Cockpit_(Leeds) | Cockpit_Theatre,_Marylebone | Operation_Cockpit | Cockpit_(disambiguation) | Cockpit_(film) | Video_game_arcade_cabinet | Cockpit_(novel) | Cockpit_voice_recorder | Cockpit_Country | The_Cockpit | Simulation_cockpit | Sterile_Cockpit_Rule | Management_cockpit | The_Cockpit_(OVA)

    Dieser Artikel basiert auf dem Artikel aus der freien Enzyklopaedie bzw. und steht unter der Doppellizenz GNU-Lizenz fuer freie Dokumentation und Creative Commons CC-BY-SA 3.0 Unported. In der Wikipedia ist eine Liste der Autoren unter verfuegbar. Alle Angaben ohne Gewähr.

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