Category Archives: Technology

Lake Superior vs. Silicon Valley Hot Spots

Nice post from Rich Hoeg – Lake Superior vs. Silicon Valley Hot Spots:

Recently I had the opportunity to visit friends in Silicon Valley. While riding the light rail in Mountain View, I experienced a moment of revelation of how life differs between the shores of Lake Superior and Silicon Valley. Six young men boarded the train … all obviously geeks in their young 30’s … their laptops (all Apples) were already fired up and ready. They proceeded to have a LAN party while riding the light rail on the way to work. Why was this possible?? You need to understand that Google provides free wireless to the entire town on Mountain View. The world is connected … and interacts in different ways … at least in Silicon Valley.

Thus, life is different on the shores of Lake Superior. I am a lone software nerd looking for a wireless hotspot … not a light rail rider with free unlimited access anywhere in my community. Out in Silicon Valley I tried Google’s connection; it worked fine and did not ask for anything beyond my normal Google account.

This is one small example of why Silicon Valley is so successful. To be economically successful, countries need to focus on big things (investing in infrastructure, sensible laws relating to innovation, creating and maintaining good capital markets, investing in science and engineering education, encouraging entrepreneurs, transportation systems…) and the small stuff like this. Silicon Valley continue to be a bright light (as do other places, like Boston) but overall the USA seems to be trailing, not leading, far too often lately.

Related: Engineering the Future EconomyUSA Science Losing GroundDiplomacy and Science ResearchUSA Broadband is Slow. Really Slow.

USA Broadband is Slow. Really Slow.

Surprise, surprise: U.S. broadband is slow. Really slow.

The U.S. comes in 15th on a worldwide scale, far behind the leaders Japan, South Korea and Finland.

A file that takes four minutes to download in South Korea would take nearly an hour and a half to download in the U.S. using the average bandwidth. Japanese users leaves U.S. users behind with an eye-popping 63.60 Mb/s download link. This means that Japanese can download an entire movie in just two minutes, as opposed to two hours or more here in the U.S. Just in case you are wondering: No, Japanese users do not pay more for their broadband connections. In fact, U.S. broadband cost is among the highest in the world.

Japan dominates international broadband speed with a median download speed of approximately 63 Mb/s, more than enough to stream DVD-quality video with surround audio in real time. Next on the list is South Korea where download speeds achieve an average of 49.50 Mb/s. Finland and France follow with 21.70 Mb/s and 17.60 Mb/s, respectively. Canada ranked eighth with an average download speed of 7.60 Mb/s. The U.S. came in 15th with 2.35 Mb/s.

I see this as an economic issue. Countries that have provided an investment in internet infrastructure to provide broadband to the home at reasonable prices will be rewarded.

Related: Speed Matter Report (pdf) – PhD Student Speeds up Broadband by 200 timesPlugging America’s Broadband GapThe Next Generation InternetYouTube Access Deniedinternet related posts

Toyota Winglet – Personal Transportation

Winglet Personal Mobility Device from Toyota

Toyota has a long term vision. The population of Japan is aging rapidly. Toyota has invested in personal transportation and personal robotic assistance for quite some time. I must admit this new Winglet doesn’t seem like an incredible breakthrough to me (their earlier iUnit seems much better to me – though I am sure much more expensive too). The interest to me is in their continued focus on this market which I think is a smart move. The aging population worldwide (and others) will benefit greatly from improved personal mechanical assistance.

The Winglet is one of Toyota’s people-assisting Toyota Partner Robots. Designed to contribute to society by helping people enjoy a safe and fully mobile life, the Winglet is a compact next-generation everyday transport tool that offers advanced ease of use and expands the user’s range of mobility.

The Winglet consists of a body that houses an electric motor, two wheels and internal sensors that constantly monitor the user’s position and make adjustments in power to ensure stability. Meanwhile, a unique parallel link mechanism allows the rider to go forward, backward and turn simply by shifting body weight, making the vehicle safe and useful even in tight spaces or crowded environments.

Toyota plans various technical and consumer trials to gain feedback during the Winglet’s lead-up to practical use. Practical tests of its utility as a mobility tool are planned to begin in Autumn 2008 at Central Japan International Airport (Centrair) near Nagoya, and Laguna Gamagori, a seaside marine resort complex in Aichi Prefecture. Testing of its usefulness in crowded and other conditions, and how non-users react to the device, is to be carried out in 2009 at the Tressa Yokohama shopping complex in Yokohama City.

Toyota is pursuing sustainability in research and development, manufacturing and social contribution as part of its concept to realize “sustainability in three areas” and to help contribute to the health and comfort of future society. Toyota Partner Robot development is being carried out with this in mind and applies Toyota’s approach to monozukuri (“making things”), which includes its mobility, production and other technologies.

Toyota aims to realize the practical use of Toyota Partner Robots in the early 2010s.

On a personal note, I bought some more Toyota stock last week. The stock has declined a bit recently. Toyota is one of the companies in my 12 stocks for 10 years portfolio.

Related: Toyota Develops Personal Transport Assistance Robot ‘Winglet’No Excessive Senior Executive Pay at ToyotaMore on Non-Auto Toyota

Plugging America’s Broadband Gap

Plugging America’s Broadband Gap

Martin is concerned about a U.S. broadband gap. Only 60% of American households have speedy Net access. That puts the country in 15th place among developed nations, according to the Organization for Economic Cooperation & Development. It’s a mighty fall from 2001, when the U.S. ranked fourth.

This is one of a number of facts that those in the USA seem ignorant of: we have a far worse internet and cell phone infrastructure than many countries. Those that think the USA is the leading technology country should be alarmed by such poor performance in a critical area such as internet infrastructure.

There are three basic options for catching up. The government can take the lead, making its own investments in broadband. Second, the government can mandate that existing providers make the service available more widely. Most realistically perhaps, the government can create incentives for private companies to roll out more broadband. That’s what Martin is trying to do. He wants to auction off wireless spectrum and require the winning bidder to provide free broadband throughout the country. The company could make money by selling advertising and advanced services.

The free service wouldn’t be the fastest on the market. The winning bidder would have to offer a minimum speed of 768 kilobits per second to 95% of the country within 10 years. Although that’s technically broadband, it’s about half the speed of today’s average U.S. broadband link.

Still, Martin’s proposal has drawn support because it has the potential to crack what has become a broadband duopoly. In most markets, only one telecom company and one cable provider offer the service. A third alternative with decent speed and big savings off the current $50 monthly average price could spark more competition. The leading contender to win the auction is M2Z Networks, a startup founded by former FCC staffer John Muleta.

The FCC approach is no panacea. It’ll provide competition at the low end of the market and will do nothing to bring the U.S. the blazing speeds common in Korea and Japan.

Related: China Builds a Better InternetInternet Undersea CablesUnderstanding Computers and the Internet

Awesome Robot: uBot-5
Cool video on the uBot-5 from UMass Amherst.

The uBot-5 is dynamically stable, using two wheels in a differential drive configuration for mobility. Dynamically stable robots are well suited to environments designed for humans where both a high center of mass and a small footprint are often required.

via: Pop Culture and Engineering Intersect

Toyota has long been interested in personal robot assistants. And the uBot-5, under development at UMass-Amherst, is also looking to meeting that need: Robot developed by computer scientists to assist with elder care:
Baby boomers are set to retire, and robots are ready to help, providing elder care and improving the quality of life for those in need.

The uBOT-5 carries a Web cam, a microphone, and a touch-sensitive LCD display that acts as an interface for communication with the outside world. “Grandma can take the robot’s hand, lead it out into the garden and have a virtual visit with a grandchild who is living on the opposite coast,” says Grupen, who notes that isolation can lead to depression in the elderly.

Grupen studied developmental neurology in his quest to create a robot that could do a variety of tasks in different environments. The uBot-5’s arm motors are analogous to the muscles and joints in our own arms, and it can push itself up to a vertical position if it falls over. It has a “spinal cord” and the equivalent of an inner ear to keep it balanced on its Segway-like wheels.

Such robots have a huge market waiting for them if engineers can provide models that can be useful at the right price. The future of such efforts looks very promising.

Related: WALL-E Robots Coming into Massachusetts HomesRobot NurseToyota iUnitAnother Humanoid Robot

A Whale of a Turbine

A whale of a turbine

a flipperlike prototype is generating energy on Canada’s Prince Edward Island, with twin, bumpy-edged blades knifing through the air. And this summer, an industrial fan company plans to roll out its own whale-inspired model – moving the same amount of air with half the usual number of blades and thus a smaller, energy-saving motor.

Some scientists were sceptical at first, but the concept now has gotten support from independent researchers, most recently some Harvard engineers who wrote up their findings in the respected journal Physical Review Letters.

when models of the bumpy flippers were tested in a wind tunnel, Fish and his colleagues found something interesting. The flippers could be tilted at a higher angle before stall occurred.

The scientific literature had scant reference to the flipper bumps, called tubercles. Fish reasoned that because the whale’s flippers remained effective at a high angle, the mammal was therefore able to manoeuvre in tight circles. In fact, this is how it traps its prey, surrounding smaller fish in a “net” of bubbles that they are unwilling to cross.

In 2004, along with engineers from the US Naval Academy and Duke University, Fish published hard data: Whereas a smooth-edged flipper stalled at less than 12 degrees, the bumpy, “scalloped” version did not stall until it was tilted more than 16 degrees – an increase of nearly 40 percent.

Fish then partnered with Canadian entrepreneur Stephen Dewar to start WhalePower, a Toronto-based company that licenses the technology to manufacturers.

It has all been a bit of a culture shock for Fish, who is more at home in the open world of academia than the more secretive realm of inventions and patents. Two decades ago, his only motivation was to figure out what the bumps were for.

“I sort of found something that’s in plain sight,” he says. “You can look at something again and again, and then you’re seeing it differently.”

Related: Finspiration, Whale-Inspired Wind TurbinesDeep-Sea Denizen Inspires New PolymersWind Power Technology BreakthroughEngineer Revolutionizing Icemakers

The Technology Job Market is Strong

Technology: It’s Where the Jobs Are by Arik Hesseldahl, Business Week:

Here’s a hint for high school graduates or college students still majoring in indecision: Put down that guitar or book of poetry and pick up a laptop. Study computer science or engineering

Seattle added a net 7,800 jobs [in 2006], followed by the New York and Washington (D.C.) metro areas, which added more than 6,000 jobs apiece. The fastest-growing area on a percentage basis was the combined metro area of Riverside-San Bernardino, Calif., which saw its tech-employment figures grow by 12%.

The highest concentration of technology workers – 286 for every 1,000 workers – was in, no surprise, Silicon Valley. Boulder, Colo., came in second, with 230, and Huntsville, Ala.; Durham, N.C.; and Washington rounded out the top five in density.

Now for the answer to the question on everyone’s mind: Where are the highest salaries? That would be Silicon Valley, where the average tech worker is paid $144,000 a year. That’s nearly double the $80,000 national average for tech jobs.

More than 850,000 IT jobs will be added during the 10-year period ending in 2016, which would be a rise of 24%. Add all the jobs that will replace retiring workers, and the total increase could be a tidy 1.6 million. That means one job in every 19 created over the course of the next decade will be in technology.

And while demand for tech-savvy employees is certainly multiplying, another survey, this one from the Computing Research Assn. and released in March, found a 20% drop in the number of students completing degrees in computer-related fields, and the number of students enrolling in these programs is the lowest it’s been in 10 years, as far back as the data go.

Related: Engineering Graduates Again in Great ShapeWhat Graduates Should Know About an IT CareerIT Employment Hits New High AgainThe IT Job Marketposts on technology, science and engineering careers

Fold.it – the Protein Folding Game

Foldit is a revolutionary new computer game enabling you to contribute to important scientific research. This is another awesome combination of technology, distributed problem solving, science education…

Essentially the game works by allowing the person to make some decisions then the computer runs through some processes to determine the result of those decisions. It seems the human insight of what might work provides an advantage to computers trying to calculate solutions on their own. Then the results are compared to the other individuals working on the same protein folding problem and the efforts are ranked.

This level of interaction is very cool. SETI@home, Rosetta@home and the like are useful tools to tap the computing resources of millions on the internet. But the use of human expertise really makes fold.it special. And you can’t help but learn by playing. In addition, if you are successful you can gain some scientific credit for your participation in new discoveries.

Related: Expert Foldit Protein Folder, JSnyderResearchers Launch Online Protein Folding GameNew Approach Builds Better Proteins Inside a ComputerPhun PhysicsProtein Knots

The site includes some excellent educational material on proteins and related material. What is a protein:

Proteins are the workhorses in every cell of every living thing. Your body is made up of trillions of cells, of all different kinds: muscle cells, brain cells, blood cells, and more. Inside those cells, proteins are allowing your body to do what it does: break down food to power your muscles, send signals through your brain that control the body, and transport nutrients through your blood. Proteins come in thousands of different varieties, but they all have a lot in common. For instance, they’re made of the same stuff: every protein consists of a long chain of joined-together amino acids.

structure specifies the function of the protein. For example, a protein that breaks down glucose so the cell can use the energy stored in the sugar will have a shape that recognizes the glucose and binds to it (like a lock and key) and chemically reactive amino acids that will react with the glucose and break it down to release the energy.

Proteins are involved in almost all of the processes going on inside your body: they break down food to power your muscles, send signals through your brain that control the body, and transport nutrients through your blood. Many proteins act as enzymes, meaning they catalyze (speed up) chemical reactions that wouldn’t take place otherwise. But other proteins power muscle contractions, or act as chemical messages inside the body, or hundreds of other things.

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Gmail Failure

I really liked Gmail. Today Google has blocked me from accessing my email. I do nothing that remotely could be considered suspicious behavior. Yet without any preliminary warnings Gmail just blocked my access to email and provides only the following.

Gmail refuses access to account

While this might not be evil it is extremely bad service. Email users need to trust providers to provide reliable service. To act with integrity, etc.. When instead they take unilateral, immediate action with no significant response one can only draw the conclusion that they are dealing with another Verizon or Comcast or the long litany of companies that cannot be trusted to treat you well or even remotely fairly.

They do provide a form to fill out, which I have done. They responded with the following: “Thanks for your report. We apologize for any confusion or inconvenience. For your security, we may temporarily disable access to your account if our system detects abnormal usage. It will take between one minute and 24 hours for you to regain access, depending on the behavior our system detected.”

Not really clear is it? I still have no access. Google’s “mission”: “Google’s mission is to organize the world’s information and make it universally accessible and useful.” How about making clear the information that Google itself says it has detected, this “abnormal usage.” Have they even made that information “accessible and useful.” No they have not. Google choosing to break Gmail access without notice and without explanation and even after questioning still providing no real explanation seems like a very serious threat to users of Gmail. Google seems to believe that breaking access to Gmail is not something they need to even know why they are doing it. I would say a policy that makes Gmail unreliable for users threatens to send users to a provider that does not chose to act in such a way. This seems like a very bad policy on Google’s part.

This is so frustrating, I actually liked gmail. But I guess I will have to look for a reliable provider unless Google can actually provide an explanation of how they will change to actually provide reliable email services.

My account is back now. Maybe it was down for an hour. Which, frankly, if it had been a technical glitch I would have been fine with. That it was a policy decision to break access without notice or explanation I find extremely worrying, however. How am I suppose to trust that they will not do so at any point in the future. If they send me some explanation of this choice to disable my account temporarily, I will update this post.

Related: Good customer service (why is it so rare)Poor Customer Service from Discover CardGoogle Video Customer ServiceGoogle Customer ServiceWhy is Customer Service So Bad?