Ready To Taking Off

iPhoneOgraphy – 17 Aug 2016 (Day 230/366)

Simulation cockpits or simpits are environments designed to replicate a vehicle cockpit. Although many pits commonly designed around an aircraft cockpit, the term is equally valid for train, spacecraft or car projects.

By their very nature aircraft cockpits tend to have complex controls, instrumentation, and radios not present in other types of simulation. Recreating these present specific additional challenges to anyone building a cockpit. Aircraft components are often expensive to purchase, and access to real aircraft cockpits is likely to be restricted due to security concerns, especially in the wake of the 9/11 attacks or if the builder has chosen a current military aircraft.

A way to avoid a lot of the pitfalls is to not replicate a specific aircraft, simply a class of aircraft. Thus creating a generic GA, airliner, or military cockpit, which while it will not have every button or switch of the real aircraft, will have all the key elements for simulation. The other end of the scale is to build an exact 1:1 replica of the real cockpit, utilizing real panels or even a complete cockpit from the chosen plane. All cockpit builds will be somewhere between these two concepts, and even highly accurate replica pits will often make some concessions, if only due to limitations of the simulation software driving them.

For replica pits the choice of aircraft will be key. With the growth of home cockpits there are a number of companies who sell complete kits for common aircraft. Thus details of current Airbus and Boeing aircraft panels are fairly easy to obtain. For older aircraft museums or aircraft scrap yards can be valuable sources of information. However while research will often locate a lot of information, sometimes it is a minor detail that is needed. For example, how wide the center pedestal is, or how large it should be. Where the information is not in the public domain, more subtle techniques have been developed to obtain the information. For example pixel counting from a digital photo of the aircraft. By counting the pixels in an item of known size, for example a standard cockpit instrument, a scale can be established. This can then be used to estimate the size of unknown elements in the panel. Accuracy will vary depending on the quality of the photo located, the angle the shot was taken from, etc. However this can give a good guideline on dimensions in situations where there may be no other source of information.

The level of functionality will also vary within the ‘pit’. Very realistic looking pits may have non functioning instruments, simply in place to complete the ‘feel’ of the cockpit. At the top end of realism would be individual real instruments, either modified from actual aircraft components or replicated. This approach provides the maximum immersion, but presents complexity with interface electronics and driver software needing to be fabricated. A compromise between the two is to display the instruments on a monitor and mount this behind the panel. The simulated instruments can then be seen through the cutouts which can give a realistic effect, especially if the aircraft uses ‘glass cockpit’ displays in real life.

Many pit builders go through the process of building a basic, low-spec compromise pit first, just to give them a dedicated environment to practice their hobby. The lessons learned in this process can be put to good use if they later decide to build a high-spec compromise or replica pit, which requires a great deal of time, effort, and passion to complete.

Home based simulators have been a common training aid for private pilots for many years. Recently the increased power of home PCs and improvements in graphics and simulation technology has opened up further opportunities to utilize a PC as a training aid. While early simulators allowed instrument approaches to be practiced, with photographic scenery add ins pilots can now practice visual flights and navigation. Rehearsing a flight in the PC, before performing it in the real world, making training sessions in the real aircraft more productive.

Recognizing this market a number of suppliers provide ready to go desktop simulation products. Radio stacks, instruments, yokes, pedals, throttle quadrants, and seats are readily available from pilot shops. This allows a highly realistic GA cockpit to be put together in a matter of minutes. However an enthusiast is likely to extend well beyond the functional cockpit a trainee would require, adding in items to enhance the suspension of disbelief. Enclosures, projectors, even real aircraft components or nose sections are commonly incorporated in the drive to make the experience as ‘real’ as possible.

While General Aviation pits are often put together for real pilots to train on, commercial aircraft pits are often purely for entertainment. Very few people who are not professional pilots ever have the opportunity to pilot a real airliner, however a realistic home simulator will provide a highly immersing experience.

Commercial airliner pits offer a greater challenge to builders as there are more systems to model such as the auto pilot, CDU/FMS, engine management, etc. Even the throttle quadrant is a complex piece of engineering compared to the simply replicated push / pull throttle used in the GA Cessna. However a number of commercial suppliers exist supplying replica panels, controls, even complete cockpits to the community. Where these or ‘real’ components are not available or are out of budget builders will often fabricate components at home out of wood or similar easily worked materials.

With most modern aircraft utilizing “Glass cockpit” displays it has become easier to create highly realistic panels. The displays on these panels can be driven by multi head graphics cards, or networked PCs running dedicated software that can read from the simulator spreading the processing load. Interfaces for switches, knobs, and other elements needed can be purchased commercially or created by dismantling existing hardware such as keyboards or joysticks. Feedback from the PC to the panel, for example to light warning lamps or move real instrument is more complex and normally completed through a commercial expansion board.

One of the first software requirements for a simpit is a suitable flight simulator to provide the graphics, sound and instrument outputs for the pit. To date, the majority of civilian simpits are built around Microsoft Flight Simulator, and most military pits use Falcon 4.0 as a base, but as of 2013 the Digital Combat Simulator series has spurred interest for the A-10 as well.

Voice communication (VOIP) software is commonly integrated into a simpit, as this allows real-time communication with other virtual pilots.

Other software may be custom written to control hardware aspects of the pit; e.g. an interpreter for an MFD or a custom listener to implement an AoA Indexer. In many cases the need for custom software can be removed by using control hardware with a comprehensive SDK or API, but when you really need that unique instrument and nobody has an off-the-shelf solution for it, hacking code is the only way to get it.

Shot & Edited using iPhone 6+

About The Inspiration Shots

My name is Tommy Too and I'm a newbie in photography and blogging. The intention of creating this blog is to share some of my work and to keep track the improvement of my photography skill. Nevertheless the most important thing is to getting feedback or comment from other professional photographer just like you.

Posted on August 17, 2016, in iPhoneOgraphy 366, Photography and tagged , , , , , . Bookmark the permalink. 9 Comments.

  1. Love the detailed post…

    Liked by 1 person

  2. Hey – just bought my husband a gift certificate to “fly” in one of these set up at Fantasy Flight in Burlington, Ontario. He’s looking forward to choosing his flight path and airport. Hope it’s a good experience…

    Liked by 1 person

  3. I did played a flight simulator game once. Crash landed every time!

    Liked by 1 person

  4. Great article and really nice picture

    Liked by 1 person

  1. Pingback: Ready To Take Off | Peter Singhatey - Just Love Flying...

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