|RoboScooter with ITRI and SYM|
Clean, Green Mobility for Today’s Crowded Cities
In many cities throughout the world, motor scooters provide the least expensive form of powered personal mobility. They are inexpensive to acquire and operate, and they provide higher speeds and greater carrying capacity than bicycles. Their road and parking space demands are minimal since they have footprints not much larger than bicycles: they are not constrained to wide lanes like automobiles: and they can park (often illegally) in very small spaces that could not accommodate automobiles.
One downside of scooters is that, unlike enclosed powered vehicles, they do not provide weather protection – making them most suitable for use in temperate climates. They provide a little more crash protection than bicycles, but not nearly as much as automobiles. And gasoline-powered motor scooters are a major source of urban noise, local air pollution, and carbon emissions.
The tradeoff points that scooters represent make them particularly popular in the developing world. They are also popular in European cities, where narrow streets and crowded conditions are inhospitable to automobiles. In the United States they have a limited use as primary personal transportation, they have recreational uses, and in cities with severe winters their use is mostly seasonal.
The RoboScooter folding electric scooter, developed by the Smart Cities group, maximizes the advantages of the scooter while minimizing some of its disadvantages. It features in-wheel electric motors, lithium-ion batteries, and a cast aluminum frame. To minimize parking footprint – which is a key consideration in many contexts where scooters are popular – it folds up into a very compact configuration. For contexts where this is not necessary, the RoboScooter can also be produced in non-folding models.
RoboScooters are designed to serve as approximate functional equivalents of 50cc gasoline-powered scooters. They are, however, clean, silent, and occupy less parking space. They are also much simpler – consisting of about 150 parts, compared to the 1,000 to 1,500 of an equivalent gasoline-powered scooter – which simplifies supply chains and assembly processes, reduces vehicle costs, and simplifies maintenance.
Like GreenWheels, RoboScooters can be recharged in their racks. Their battery packs are also small enough to be conveniently removable, which opens up the possibilities of charging spare batteries at home, and of battery vending machines that accept discharged batteries and provide fully charged ones.
The final show-quality prototype was presented at the Milan Motor show on November 6-9th, 2007.
RoboScooter Design Team
Sanyang Motors (SYM)