Help Dennis find love in an icy world that’s not as frozen as it first seems. *Into The Pixel artwork winner and Develop Indie Showcase finalist* "Take note, everybody: Icycle: On Thin Ice is a game to watch out for." - 148 Apps "An extraordinary journey…Icycle is the most bespoke game I've ever played" - Eurogamer "An enchanting flagship title that belongs on every iPad" – Stromstock, 9/10 "Icycle's colorful, clever and a great example of just how far a little imagination can go in the world of indie mobile development." – Modojo "A fantastic and imaginative adventure that's ripe with challenge and humor" – JayIsGames "Icycle is the most engaging journey I’ve taken in a game in a long time, and you owe it to yourself to go along for the ride." – Slide To Play, 4/4 "Must Have" "One of the most beautiful visual styles I've ever seen in an iOS game and is addictive from the first moment." – The Examiner's Holiday Gift Guide 2013 "One of the most bizarre games I have ever played." – Game Informer "A wonderful game from start to finish" – Touch Arcade, 5/5 You may restrict in-app purchasing using your device settings. Play as the cold naked hero Dennis, and pedal, jump and glide through each beautiful but deadly post-apocalyptic frozen wonderland. Games and art become one in the masterfully crafted and visually stunning Icycle: On Thin Ice. All rights reserved.Cult of Mac's Best Damn iOS Games of 2013! Additional testing/standards need to be established to evaluate winter mobility scooter performance further.Īrchitectural accessibility Climate Ice Quality of life Rehabilitation Safety Self-help devices Snow.Ĭopyright © 2021 The Authors. Scooter manufacturers should consider providing winter tires as optional accessories in regions that experience ice and snow accumulation. Our findings showed that Americans with Disabilities Act-compliant built environments, such as curb ramps that conform to a 1:12 (4.8°) slope, become treacherous or impassible to mobility scooter users when covered in ice or snow. Mobility scooters need to be designed with winter months in mind. Winter tires enhanced the MAA, permitting 1:12 (4.8°) slope ascent on ice. Performance was even more unsatisfactory for the forward downslopes on both snow and ice. All but 1 failed to ascend an ice-covered 1:12 grade (4.8°) slope. Half of the scooters we tested were unable to climb a 1:12 grade (4.8°) snow-covered slope without losing traction. The ability to steer around a corner on the ramp.Īll scooters underperformed in winter conditions, specifically when traversing snow- and ice-covered slopes (χ 2 =13.87-15.55, P<.001) and corners (χ 2 =12.25, P<.01). Maximum achievable angle (MAA) and tire traction loss for ramp ascent and descent performance. Winter tire testing used the same slopes with 2 scooters on bare and melting ice surfaces. Ramp ascent and descent, as well as right-angle cornering up to a maximum of 10° slopes on winter conditions, were observed. Scooters were tested on 3 different conditions in a random sequence (concrete, 2.5-cm depth snow, bare ice). Two mobility scooters were used for winter tire testing. Two drivers (50 and 100 kg) tested 8 scooter models (N=8). To quantify mobility scooter performance when traversing snow, ice, and concrete in cold temperatures and to explore possible performance improvements with scooter winter tires. 5 KITE, Toronto Rehabilitation Institute, University Health Network, Toronto, Ontario Institute of Biomedical Engineering University of Toronto, Toronto, Ontario Rehabilitation Sciences Institute, University of Toronto, Toronto, Ontario Department of Surgery, University of Toronto, Toronto, Ontario Department of Mechanical and Industrial Engineering, University of Toronto, Toronto, Ontario, Canada.4 KITE, Toronto Rehabilitation Institute, University Health Network, Toronto, Ontario Department of Surgery, University of Toronto, Toronto, Ontario.3 KITE, Toronto Rehabilitation Institute, University Health Network, Toronto, Ontario Institute of Biomedical Engineering University of Toronto, Toronto, Ontario Rehabilitation Sciences Institute, University of Toronto, Toronto, Ontario. Electronic address: 2 KITE, Toronto Rehabilitation Institute, University Health Network, Toronto, Ontario. 1 KITE, Toronto Rehabilitation Institute, University Health Network, Toronto, Ontario.
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