Even something as basic as the pilot’s helmet is crammed with state of the art technology which allows the user to dominate the battlefield with speed and efficiency. The helmet mounted sight projects flight path and targeting data onto a semi-reflective transparent visor on the helmet. On top of this, there is the capability for night vision output to be projected onto the visor, as well as optical motion tracking for missiles – i.e. the pilot directs the missile with his eyes. Each aircraft is programmed to recognise the voice of its pilot and will respond to around 200 words of command, which saves time in the air and reduces the number of tasks the pilot has to manually do. In addition to radar, missile and laser warning receivers, the Eurofighter Typhoon can not only deploy chaff and flares to counter incoming missiles, it also possesses a frequency jammer to disrupt and disable them. Specific to the RAF typhoons is also a radar decoy, which can be towed from the jet. All movements of the throttle, stick and pedals are interpreted by an onboard computer, allowing for much more precise movements and a smooth, controlled flight, as well as ensuring the jet does not operate outside its stress limits. There are various onboard backup systems to ensure that even if without the engine, the onboard electronics will all function …show more content…
The high financial burden of this joint venture was shared by both the governments of the respective countries involved, and the industry involved in its production, including companies such as BAE Systems, Alenia Aeronautica and the European Aeronautic Defence and Space Company. Initially envisaged to cost the British taxpayer £7 billion and to have entered service by 1992 , it is needless to say that somewhere along the line, targets were not met. Even as early as 1992, the project was heavily over budget and heavily delayed, with all involved nations having to cut their initial orders due to the rapidly rising cost of an already expensive venture. In 1995 the cost to the British was estimated at £14.5 billion. By the time Typhoon entered service in 2003, the total cost was £19 billion and was 54 months behind schedule. Many are of the opinion that a conventional air-to-air fighter jet is in fact not needed in the modern day. Designed with an invasion of Europe by the Russians in mind, Typhoon would surely have effectively countered that threat, but on the modern battlefields of Afghanistan and formerly Iraq, some question if there is any justification in spending such vast amounts of public money on a resource which will likely not reach its full potential. The huge budget over-runs and delays of course only add fuel to this