An American tech startup is currently running a crowdfunding campaign on Indiegogo for an electronic skateboard called the 'ACTON BLINK' that is made for modern commuting. With a growing number of consumers looking for cheaper and more eco-conscious modes of transportation this suped-up longboard could be a viable option.
The ACTON BLINK is an electronic skateboard that features advanced technology in every element of its design. Unlike other eboards that use analog decks, the ACTON BLINK is made of space-age materials that respond to the user's movements just like a sportscar. The longboard is also capable of travelling 22 miles per charge and handling hills with ease thanks to its advanced hub motors and its powerful four-wheel drive.
With three different models for everyday needs, the ACTON BLINK is the ideal choice for commuting.
Responsive Electronic Longboards
The ACTON BLINK is a Electric Skateboard Made for Commuting
Trend Themes
1. Electronic Skateboards - The rise in environmentally-conscious consumers and the need for efficient urban transportation presents opportunities to innovate in the electronic skateboard industry.
2. Advanced Mobility - Advanced hub motors and motor-powered wheels present opportunities to innovate in personal mobility devices for urban commuters.
3. Space-age Materials - The use of advanced materials and responsive design in personal mobility devices presents opportunities for innovation in materials science and the development of responsive interfaces.
Industry Implications
1. Transportation - The rise in environmentally-conscious commuters and the need for efficient urban transportation presents opportunities for transportation companies to innovate in personal mobility devices.
2. Sports/recreation - The integration of advanced technology and responsive design in sports equipment presents opportunities for innovation in the sports and recreation industry.
3. Materials Science - The use of space-age materials and responsive design in personal mobility devices presents opportunities for innovation in materials science and the development of responsive interfaces.