Category Archives: Products

Next steps for Google’s Experimental Fiber Network

Think big with a gig: Google’s experimental fiber

Universal, ultra high-speed Internet access will make all this and more possible. We’ve urged the FCC to look at new and creative ways to get there in its National Broadband Plan – and today we’re announcing an experiment of our own.

We’re planning to build and test ultra high-speed broadband networks in a small number of trial locations across the United States. We’ll deliver Internet speeds more than 100 times faster than what most Americans have access to today with 1 gigabit per second, fiber-to-the-home connections. We plan to offer service at a competitive price to at least 50,000 and potentially up to 500,000 people.

Next steps for our experimental fiber network

So what’s next? Over the coming months, we’ll be reviewing the responses to determine where to build. As we narrow down our choices, we’ll be conducting site visits, meeting with local officials and consulting with third-party organizations. Based on a rigorous review of the data, we will announce our target community or communities by the end of the year.

Of course, we’re not going to be able to build in every interested community — our plan is to reach a total of at least 50,000 and potentially up to 500,000 people with this experiment. Wherever we decide to build, we hope to learn lessons that will help improve Internet access everywhere.

This is another great idea from Google. Not only to push forward the much poorer internet connectivity those in the USA have than other countries but it will hopefully lead to some real engineering breakthroughs. And it is a smart move to increase Google’s potential income – a better internet experience (for users) will likely help Google quite a bit.

Related: Google’s Underwater CablesGoogle Server Hardware DesignChina’s Next Generation InternetNet Neutrality: This is serious

Basketball Padding

Basketball used to be considered a non-contact sport. Now more and more college and pro players are wearing padding. March Madness, this year with more padding

Plumlee and dozens of other college basketball players wear compression shirts and shorts dotted with foam and plastic shock-absorbing pads under their uniforms. There are also padded sleeves for the elbows and knees. In the past few years players have started to wear this layer of protective gear meant to feel like a second-skin in a sport that has bigger, faster and stronger athletes than ever.

“Some of the things you’ll see like these products, a lot of them tend to be more fads that come and go,” he said. “But anything that comes down over the edge of a bony prominence, or on the knee, makes sense. For the ribs — there’s cartilage that is a natural shock absorber so I don’t know how truly affective that piece might be.”

Purchase: McDavid knee and elbow padsMcDavid Hex Power Shooter Arm SleeveHexpad Thudd with Extended Thigh

Related: Teen Goalie Designs Camouflage PadsEngineering Basketball FlopEngineering A Golf SwingThe Glove, Engineering Coolness

Robot Playing Table Tennis

This video shows the robot has a ways to go to become a decent ping pong opponent. But progress is being made. How soon before I can have fun competing with some robot basketball players?

TOPIO can play table tennis with human beings. It has a head, two hands and six legs. It can hit the ball, calculate scores and express feelings upon losing or winning a game. Four high-speed cameras help TOPIO identify the trajectory of the ball and accurately return shots. TOPIO knows how to hit an incoming ping pong ball when it has traveled only 20 cm from the opponents paddle.

The made-in-Vietnam robot TOPIO captured special attention at the International Robot Exhibition (IREX) held in Tokyo in late 2007.

Related: RoboCup: Robot Football (Soccer)RoboCup German Open 2008Toyota Develops Thought-controlled Wheelchair

$100,000 Lemelson-MIT Award for Sustainability

[Sadly the video was made private so I removed it. It is disappointing how often people fail to follow decade old usability advice to make internet urls permanent]

According to the United Nations, more than 40 percent of Africans live in poverty, subsisting on less than US$1 a day. As co-founder and CEO of the nonprofit social enterprise KickStart, Fisher develops and markets moneymaking tools such as low-cost, human-powered irrigation pumps that improve the lives of small-scale rural farmers – the majority of the poor in sub-Saharan Africa.

“These poor rural farmers have one asset: a small plot of land; and one basic skill: farming. The best business they can pursue is irrigated farming,” Fisher explained. “Once they employ irrigation, the farmers can grow and sell high-value crops, like fruits and vegetables. They can grow year-round and reap four or five harvests, instead of waiting for the rain to grow a staple crop once or twice a year.”

Related: High School Inventor Teams @ MITWater Pump Merry-go-RoundAppropriate Technology: Self Adjusting GlassesFixing the World on $2 a Day
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Apple’s iPad

Steve Jobs introduces the Apple iPad. A touch screen tablet with wireless internet connectivity and a touch screen keyboard (when desired).

Related: Freeware Wi-Fi app turns iPod into a PhoneLow-Cost Multi-touch Whiteboard Using Wii RemoteBuild Your Own Tabletop Interactive Multi-touch ComputerVery Cool Wearable Computing Gadget from MIT

Siftable Modular Computers

Pretty cool. I must admit I don’t really see how this would function outside of specifically designed situation. I can imagine it could be very cool for education, especially of young kids. Siftables act in concert to form a single interface: users physically manipulate them – piling, grouping, sorting – to interact with digital information and media. David Merrill and Jeevan Kalanithi originally created Siftables at the MIT Media Lab and have formed a company to commercialize the product and have received a grant from NSF to continue the work.

Related: Cool Mechanical Simulation SystemVideo Cat CamArduino: Open Source Programmable HardwareWhat Kids can Learn

Arduino: Open Source Programmable Hardware

Arduino is an open-source electronics prototyping platform based on flexible, easy-to-use hardware and software. It’s intended for artists, designers, hobbyists, and anyone interested in creating interactive objects or environments.

Arduino can sense the environment by receiving input from a variety of sensors and can affect its surroundings by controlling lights, motors, and other actuators. The microcontroller on the board is programmed using the Arduino programming language and the Arduino development environment.

The boards can be built by hand or purchased preassembled; the software can be downloaded for free. The hardware reference designs (CAD files) are available under an open-source license, you are free to adapt them to your needs.

See the getting started guide to try for yourself.

Related: Home Engineering: Physical Gmail NotifierSelf Re-assembling Robots
Lego Mindstorms Robots Solving: Sudoku and Rubik’s CubeBabbage Difference Engine In Lego

Engineering a Better Football

The football (soccer ball) for the 2010 FIFA World Cup features completely new, ground-breaking technology. Eight 3-D spherically formed panels are moulded together, harmoniously enveloping the inner carcass. The result is an energetic unit combined with perfect roundness.

Aero grooves create the clearly visible profile on the ball’s surface. The Grip’n’Groove profile circles around the entire ball in an optimal aerodynamic way. The integrated grooves provide unmatched flight characteristics, making this the most stable and most accurate Adidas football. The ground breaking performance features have been confirmed in comprehensive comparison tests at Loughborough University in England and countless checks in wind tunnel and the Adidas football laboratory in Scheinfeld, Germany.

The process, shown in the video, for manufacturing the footballs is way more complicate than I thought it would be.

Related: Full Adidas press releaseThe Science of the Football SwerveEngineering Basketball FlopSports Engineering

How the Practice and Instruction of Engineering Must Change

Chief Scientist for the Rocky Mountain Institute and MacArthur Fellow, Amory Lovins, describes how small gains in efficiency at the consumption point can trigger gains that are magnitudes larger at higher levels and discusses how engineering must be practiced and taught fundamentally different.

Related: MIT Hosts Student Vehicle Design Summit59 MPG Toyota iQ Diesel Available in EuropeWebcast: Engineering Education in the 21st Century

Bionic Vision

Micro Machines and Opto-Electronics on a Contact Lense

Fiction now meets reality with prototype contact lenses developed by Babak Parviz at the University of Washington, in Seattle. Dr. Parviz’s prototype lenses can be used as biosensors to display body chemistry or as a heads up display (HUD). Powered by radio waves and 330 microwatts of power from a loop antenna that picks up power beamed from nearby radio sources, future versions will also be able to harvest power from a cell phone.

In his early 2008 lab tests, rabbits safely wore contact lenses with metal connectors for electronic circuits. The prototype lenses contained an electric circuit as well as red light-emitting diodes for a display. The lenses were tested on rabbits for up to 20 minutes and the animals showed no adverse effects.

Contact lenses as replacements for smart phone displays — even to monitor blood glucose levels — might best be done while not operating heavy equipment. “The true promise of this research is not just the actual system we end up making, whether it’s a display, a biosensor, or both,” comments Dr. Parviz. “We already see a future in which the humble contact lens becomes a real platform, like the iPhone is today, with lots of developers contributing their ideas and inventions. As far as we’re concerned, the possibilities extend as far as the eye can see, and beyond.”

Related: A Journey Into the Human Eye3-D Images of EyesScientists Discover How Our Eyes Focus When We Read