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Slyce acquires YorkU computer vision technology for retail e-commerce

Deal led by MaRS Innovation and Innovation York to strengthen Slyce’s mobile image recognition application for retail e-commerce

York's technology will help Slyce in developing a mobile app that can be used to take pictures of a product in-store, enabling a user to purchase the item from the retailer immediately on his or her smartphone.
York’s technology will help Slyce in developing a mobile app that can be used to take pictures of a product in-store, enabling a user to purchase the item from the retailer immediately on his or her smartphone.

TORONTO, Feb. 4, 2014—Slyce today announced that it has acquired a computer vision technology developed at York University that quickly analyzes and aggregates similar images.

Through the acquisition, Slyce also hired former York PhD student, Dr. Ehsan Fazl-Ersi, to lead the integration of the intellectual property into Slyce’s Visual Search Platform as their new head of Research & Development.

Slyce is a premium provider of visual search technology for retailers, brands and publishers. Their platform allows customers to take a picture of real-world products with their smartphone and then find direct or close-matching products from the retailer’s catalogue, which they are able to purchase on the spot.

Slyce’s acquisition of York’s technology was covered in the Financial PostDx3 DigestBetaKitMobile Payments TodayGlobal University VenturingWorld News, Consumer Electronics Net and Retail Customer Experience. You can also read the York University announcement.

“Identifying and classifying an object captured within a scene is difficult due to the effects of background clutter, lighting variations and viewpoint changes on the object’s appearance,” says Fazl-Ersi, who designed and developed the technology with his PhD supervisor, Dr. John K. Tsotsos, a professor in the Lassonde School of Engineering’s Department of Electrical Engineering and Computer Science, and a member and former director of York’s Centre for Vision Research.

“This is a much bigger problem for mobile applications where the algorithm’s speed and efficiency are the difference between losing a consumer or making a sale,” says Fazl-Ersi. “Our technology will provide higher accuracy when quickly identifying retail items so that consumers can choose among similar items according to style, colour or pattern using a mobile device.”

YorkUTheme PNGThe researchers partnered with MaRS Innovation and Innovation York, York’s commercialization office, to file patent protection on the initial technology, develop a commercialization plan, secure grant funding, facilitate business development meetings and negotiate the resulting transaction.

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Whirlscape releases Minuum demo on a Smart Watch

Whirlscape continues to build momentum for the Minuum keyboard. On January 21, the UTEST grad launched a demo of their keyboard on a Galaxy Gear Smart Watch.

The remarkably accurate keyboard that encourages sloppy typing for smartphones and wearable technology uses a disambiguation algorithm to make sense of any letter combination, so it’s been proven perfect for big fingers.

Xavier Snelgrove, Minuum’s co-founder and CTO, wrote a detailed explanation on the creation of the keyboard in Input, a blog by Minuum’s creators. From language models to algorithm descriptions, the post offers fans of Minuum an inside look at the science that makes the technology so user-friendly.

The Toronto-based start-up was covered by TechCrunch, TechCrunch JapanMobile Syrup and Android Police within hours of the demo’s release.

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Financial Post lists Whirlscape as Canadian Start-Up to Watch

2014 set to be big year for the start-up and UTEST grad

Whirlscape logoWhirlscape’s Minuum keyboard leads the way in Matthew Braga‘s January 5 Financial Post article highlighting promising start-ups from across Canada.

In 2013, Whirlscape’s Minuum keyboard app debuted at number 2 on Google’s Top New Paid Apps List after raising over $87,000 on an Indiegogo crowdfunding campaign. They’ve also been accepted into Y Combinator, a prestigious U.S. accelerator program.

Here’s an excerpt from the article:

Minuum’s potential goes far beyond improved touchscreen typing. The company’s so-called “one-dimensional” keyboard approach can actually be applied to a wide range of scenarios, in particular, highly touted new wearable technologies like Google Glass, and motion-sensing technologies such as Microsoft’s Kinect and the Leap Motion 3D controller, enabling users to type “anywhere.”

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Bringing mad science to mass production: Financial Post features the Bio Printer project

University of Toronto PhD student Lian Len with a prototype tissue printer. Photo courtesy of Dominic Ali (University of Toronto)
University of Toronto PhD student Lian Len with a prototype tissue printer. Photo courtesy of Dominic Ali (University of Toronto)

“It’s one thing to invent a machine that prints skin, but it’s a whole other challenge to bring what seems like the domain of mad science to mass production,” Matthew Braga wrote in  “Looking for ways to get ‘skin’ in the game,” published in the Financial Post on July 15.

The article focuses on MaRS Innovation’s (MI) and the Innovations and Partnerships Office’s (University of Toronto) joint efforts to commercialize the bio printer, a “prototype 3D printer that, instead of extruding layers of plastic and other inorganic materials into physical shapes, builds layer upon layer of cell-laden tissue, a process that could lead to the cheap, rapid production of human skin.”

Braga’s article was syndicated in the Regina Leader Post, the Saskatoon Star-Phoenix,  and the Vancouver Sun, among other Canadian publications.

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