Google to build a futuristic neighborhood in Toronto

Matt McFarland for CNN Money:  Sidewalk Labs, an urban innovation company owned by Google's parent company Alphabet, is teaming with Toronto to begin planning a neighborhood designed as a model for urban life in the 21st century.

Sidewalk Labs will invest $50 million in an initial phase of planning and pilot testing. Alphabet has also pledged to relocate Google's headquarters in Canada to the new neighborhood, called Quayside, which is on the Toronto waterfront. Google has roughly 1,000 employees in Canada.

Sidewalk Labs plans to do everything from reduce pollution, commute times and landfill waste to improve the weather. It envisions reducing the impact of wind, increasing shade on sunny days and blocking rain due to smart building design and tree planting.

In an ambitious proposal, Sidewalk Labs promised to make the weather more comfortable to enjoy the waterfront. It also believes it can reduce greenhouse gas emissions by 73%, potable water consumption by 65% and landfill waste generation by 90%.  Full Article:

Comments (0)

This post does not have any comments. Be the first to leave a comment below.


Post A Comment

You must be logged in before you can post a comment. Login now.

Featured Product

Schmalz Technology Development - The Right Gripper for Every Task

Schmalz Technology Development - The Right Gripper for Every Task

In order to interact with their environment and perform the tasks, lightweight robots, like all industrial robots, depend on tools - and in many cases these are vacuum grippers. These form the interface to the workpiece and are therefore a decisive part of the overall system. With their help, the robots can pick up, move, position, process, sort, stack and deposit a wide variety of goods and components. Vacuum gripping systems allow particularly gentle handling of workpieces, a compact and space-saving system design and gripping from above. Precisely because the object does not have to be gripped, the vacuum suction cupenables gapless positioning next to each other.