TaxiBot

The TaxiBot is a semi-robotic towbarless aircraft tractor developed by the Lahav Division of Israel Aerospace Industries. The tractor can tow an aircraft from the terminal gate to the take-off point (taxi-out phase) and return it to the gate after landing (taxi-in phase). The TaxiBot eliminates the use of airplane engines during taxi-in and until immediately prior to take-off during taxi-out, significantly reducing aircraft fuel usage and the risk of foreign object damage.[1] The TaxiBot is controlled by the pilot from the cockpit using the regular pilot controls[2] and has an 800-hp hybrid-electric engine.[3]

The TaxiBot has two models. The Narrow-Body (NB) TaxiBot will be used by existing and future single-aisle aircraft such as the Airbus A320 and Boeing 737 while the Wide-Body (WB) TaxiBot aim for all existing and future twin-aisle aircraft such as Airbus A380 and Boeing 747.[4]

History

The TaxiBot completed certification tests on July 2014,[5] was approved for airport towing in November 2014.[6] and had the first commercial flight dispatch-towed, Lufthansa LH140 from Frankfurt to Nuremberg, on November 25, 2014.[7] In February 2015, the TaxiBot entered regular flight operations by Lufthansa at Frankfurt Airport.[3] Certification tests of the wide-body model are expected to start in autumn of 2015 with aim for certification in early 2016.[8]

In October 2019, Air India became the first airline to "regularly" use the TaxiBot by deploying the unit to despatch a Delhi-Mumbai flight from Terminal 3 of Indira Gandhi International Airport in New Delhi, one of the Top 10 airports in the world by annual passenger traffic.[9]

Marketplace

The TaxiBot is the only certified and operational alternative taxiing system currently in the market. Competing products in development by WheelTug and EGTS International are different as they are installed directly on the aircraft landing gear. This allows for shorter turnaround time but adds weight to the aircraft.[10] The EGTS partnership has been dissolved due to the new economics imposed by the sharp drop in the price of jet fuel, though Safran will continue to develop the concept.[11]

gollark: The reason for the first thing is that remote wrapping/peripheral listing/whatever else is actually implemented in Lua using modems' `callRemote` (and other things), and only descends the "peripheral tree" one level because that's all it has to in vanilla CC.
gollark: The only important constraints I know of is that the OC relay must be directly adjacent to the computer (unless you program around this) and that you can't connect to the top of the 3D printer.
gollark: I think it's just that you can't connect stuff to the top.
gollark: Move items in and out, yes.
gollark: I don't think you can *use* it directly with just plethora.

References

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