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Microsoft Updates Yammer

August 28, 2015 by  
Filed under Around The Net

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Microsoft unveiled a bevy of improvements to its Yammer enterprise social network, focused on helping people connect more easily with their teams.

By default, people who access Yammer via their web browser will be taken to a new “Discovery” feed on the service’s home page that is supposed to better show them relevant content from their groups along with other public teams across their company’s network. It’s supposed to help keep people in closer touch with important discussions they may be missing on Yammer.

After users finish reviewing new content in one group, Yammer will display a pop up banner with a link to the next group they’re subscribed to that has new content. Yammer’s mobile apps will get similar functionality through a new Group Updates feed that lets users see a list of different conversations in various groups all on one screen. That way, they won’t have to look through individual groups to get the same information. That feature will begin rolling out on Android first before making it to Yammer’s iOS app.

In addition, Yammer is also tweaking the design of individual groups’ pages. Now, each group will have a full-width banner at the top of its page, and discussions within the group can now take up a wider space on the page to aid in lengthier discussions. The whole page has also been redesigned to focus users’ attention on important content.

Icons in the left-hand sidebar will show the users that are active in groups they are a part of, so they can stay up-to-date on where conversations are happening in real time. It’s a move that could make Yammer more competitive with popular chat solutions like Slack, which has been growing incredibly rapidly and was recently valued at $2.8 billion.

Yammer’s mobile app also gained support for attaching files from external storage services like OneDrive and Dropbox, inviting coworkers to a user’s network by email and mentioning people in comments.

There’s even more up Yammer’s sleeve on top of all these updates. The social network’s iPhone app will soon have a companion version for the Apple Watch that will let people interact with content from their coworkers.

The updates come at a time when Microsoft is putting more effort into improving its workplace collaboration tools.

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Can Robots Run On (NH2)2CO?

November 19, 2013 by  
Filed under Around The Net

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Scientists have discovered a way to power future robots using an unusual source — urine.

Researchers at the University of the West of England, Bristol and the University of Bristol collaborated to build a system that will enable robots to function without batteries or being plugged into an electrical outlet.

Based on the functioning of the human heart, the system is designed to pump urine into the robot’s “engine room,” converting the waste into electricity and enabling the robot to function completely on its own.

Scientists are hoping the system, which can hold 24.5 ml of urine, could be used to power future generations of robots, or what they’re calling EcoBots.

“In the city environment, they could re-charge using urine from urinals in public lavatories,” said Peter Walters, a researcher with the University of the West of England. “In rural environments, liquid waste effluent could be collected from farms.”

In the past 10 years, researchers have built four generations of EcoBots, each able to use microorganisms to digest the waste material and generate electricity from it, the university said.

Along with using human and animal urine, the robotic system also can create power by using rotten fruit and vegetables, dead flies, waste water and sludge.

Ioannis Ieropoulos, a scientist with the Bristol Robotics Laboratory, explained that the microorganisms work inside microbial fuel cells where they metabolize the organics, converting them into carbon dioxide and electricity.

Like the human heart, the robotic system works by using artificial muscles that compress a soft area in the center of the device, forcing fluid to be expelled through an outlet and delivered to the fuel cells. The artificial muscles then relax and go through the process again for the next cycle.

“The artificial heartbeat is mechanically simpler than a conventional electric motor-driven pump by virtue of the fact that it employs artificial muscle fibers to create the pumping action, rather than an electric motor, which is by comparison a more complex mechanical assembly,” Walter said.

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