Category Archives: Engineering

How Lysozyme Protein in Our Tear-Drops Kill Bacteria

A disease-fighting protein in our teardrops has been tethered to a tiny transistor, enabling UC Irvine scientists to discover exactly how it destroys dangerous bacteria. The research could prove critical to long-term work aimed at diagnosing cancers and other illnesses in their very early stages.

Ever since Nobel laureate Alexander Fleming found that human tears contain antiseptic proteins called lysozymes about a century ago, scientists have tried to solve the mystery of how they could relentlessly wipe out far larger bacteria. It turns out that lysozymes have jaws that latch on and chomp through rows of cell walls like someone hungrily devouring an ear of corn.

“Those jaws chew apart the walls of the bacteria that are trying to get into your eyes and infect them,” said molecular biologist and chemistry professor Gregory Weiss, who co-led the project with associate professor of physics & astronomy Philip Collins.

The researchers decoded the protein’s behavior by building one of the world’s smallest transistors – 25 times smaller than similar circuitry in laptop computers or smartphones. Individual lysozymes were glued to the live wire, and their eating activities were monitored.

“Our circuits are molecule-sized microphones,” Collins said. “It’s just like a stethoscope listening to your heart, except we’re listening to a single molecule of protein.”

It took years for the UCI scientists to assemble the transistor and attach single-molecule teardrop proteins. The scientists hope the same novel technology can be used to detect cancerous molecules. It could take a decade to figure out but would be well worth it, said Weiss, who lost his father to lung cancer.

“If we can detect single molecules associated with cancer, then that means we’d be able to detect it very, very early,” Weiss said. “That would be very exciting, because we know that if we treat cancer early, it will be much more successful, patients will be cured much faster, and costs will be much less.”

The project was sponsored by the National Cancer Institute and the National Science Foundation. Co-authors of the Science paper are Yongki Choi, Issa Moody, Patrick Sims, Steven Hunt, Brad Corso and Israel Perez.

Footballs Providing Light to Those Without Electricity at Home

This is an update on our previous post: sOccket: Power Through Play. This year, Soccket, 3,000 balls are scheduled to be put into use around the world. The college students (all women, by the way) that came up with this idea (harnessing the kenetic energy created while kicking a football [soccer ball] around to power a batter to use for lighting) are continuing to test and develop the product.

That ball has to be able to survive dusty, wet and harsh conditions and continue to provide power. The new, production version of the football powers a water sterilizer, fan, and provides up to 24 hours of LED light. It also can’t be deflated (a side affect of a design that is able to survive the rough environments, I believe).

I love to see engineers focusing on providing solutions for the billions of people that need simple solutions. Creating the next iPhone innovations is also cool, but the impact of meeting the needs of those largely ignored today, is often even greater.

The sOccket inventors also have a talent for publicity, which is always useful for entrepreneurs.

Top Online Graduate Engineering Programs in the USA

Online degree programs are growing quickly in popularity in the USA. Over 6 million students took online courses in 2011. The costs of traditional education continue to rise at extremely high rates – schools have done a horrible job of dealing with this. I personally, don’t understand how they have done so horribly on this measure. Administration costs have exploded. Building vanity projects that costs tens of millions of dollars add little to student achievement and waste limited resources driving up costs.

We really need to find administrators that will reduce administrative staffing levels and costs. Let some schools continue on the ego driven spiraling costs, but let us at least find some who will focus on reducing education costs and providing good education at reasonable costs. For engineering, more than maybe any other discipline, I can excuse some of the costs. But given the universal failure to manage costs I think the failure to manage costs is the primary issue (the extra demands for spending on engineering education, I understand).

The failure to stop the lavish spending has greatly increased the demand for online education. Given the unreasonable cost increases for traditional education many are priced out of considering that option. Given how unable schools have proven to be at providing good education for reasonable rates the last few decades it is reasonable to assume online education will continue to gain popularity. I don’t see the top tier schools facing much competition from online efforts (even if some students are drawn away there are plenty wanting to upgrade their school choice at whatever the cost – as the administrators know as they continue to drive up costs).

One danger is that online education is hardly a proved commodity yet. Both in terms of what you learn and the acceptance and desirability of degrees. So right now students are having to make guesses that are more challenging with online programs than the traditional choices. US News and World Report has selected 3 online engineering master’s programs for the honor roll.

Cool Robot Locomotion: Transforms from Wheeled to Walking For Stairs and Rough Terrain

This is a very cool engineering solution. Wheeled locomotion is very efficient on the right terrain. This transformation lets the robot switch to climb stairs and handle rough terrain very nicely. A team of mechanical engineers at National Taiwan University built this energy-efficient leg-wheel hybrid mobile robot. From their description:

Compared to most hybrid platforms, which have separate mechanisms and actuators for wheels and legs, our leg-wheel hybrid mobile robot, Quattroped, uses a “transformation mechanism” that deforms a specific portion of the body to act as a wheel or a leg. From a geometrical point of view, a wheel usually has a circular rim and a rotational axis located at the center of the rim. The rim contacts the ground and the rotational axis connects to the robot body at a point hereafter referred to as the “hip joint.” In general, with wheeled locomotion on flat ground, the wheel rotates continuously and the ground-contact point of the wheel is located directly below the hip joint with a fixed distance. In contrast, in legged locomotion the leg moves in a periodic manner and there is no specific geometrical configuration between the hip joint and the ground-contact point; thereby, the relative position of the legs varies frequently and periodically during locomotion.

Based on this observation, shifting the hip joint out of the center of the circular rim and changing the continuous rotation motion to other motion patterns implies the locomotion switches from wheeled mode to legged mode. This motivated us to design a mechanism that directly controls the relative position of the circular rim with respect to the hip joint so it can generate both wheeled and legged motions. Because the circular rim is a 2-dimensional object, the most straightforward method to achieve this goal is to add a second degree of freedom (DOF) that can adjust the relative position of the hip joint to the center of the circular rim along the radial direction. The motions of the two DOFs are also orthogonal to each other. In addition, the same set of actuation power can be efficiently used in both wheeled and legged modes.

Popular Curious Cat Science and Engineering Blog Posts

Here I include a list of some of the most popular posts from my blog in the last year. I hope you enjoy them. Only one post was written in 2011. Many of my older posts are consistently popular, while some have huge spikes for a day or two when they are popular on some social site (Reddit, Facebook, Twitter, Google+…). For posts that get huge spikes it isn’t uncommon for that pattern to repeat occasionally. I must have been doing something right in 2008 (based on how many of my popular post are from 2008). I’ll try to repeat that in 2012.

Bacteriophages: The Most Common Life-Like Form on Earth (2008)
Encouraging Curiosity in Kids – my only 2011 post included in this list (and one I am proud of, actually)

Photo of kids intently studying on a Malaysian beach

My mom with a group of Malaysia kids apparently intent on learning something. I am there, but not visible in this photo. Photo by my father.

Science Toys You Can Make With Your Kids (2005)
Monitor-Merrimac Memorial Bridge and Underwater Tunnel (2008) – which is also currently experiencing one of those huge spikes driven by somewhere on facebook
Top Countries for Science and Math Education: Finland, Hong Kong and Kore (2010)

Continue reading →

Remote Presence Robot

Anybots allow remote presence today. They can be rented for just $600 a month. You can purchase your own for just $15,000.

The newest version, just unveiled at a CES has a much bigger screen (which seems very wise to me).

This is another example of robots making it into real use. While I am sure few workplaces are ready for this jump today, 10 or 20 years from now a telepresence robot (that can do much more) is likely I think to be significantly used. Not only will functionality increase, prices will drop dramatically: as the wonderful combination so often happens with technology. There is a great deal of effort going into making commercial viable “personal” robots. I think these efforts will make significant inroads in the next 10-20 years.

My old office wouldn’t have been willing to pay $15,000 but one of our developers looked into creating his own (after he moved and was working remotely). He hasn’t quite gotten it done yet, but may at some point.

Related: Managing By Rolling Around (I like how the robot owner used the robot to have his mother attend his wedding (and dressed up the robot) – Robot Finds Lost Shoppers and Provides Directions – New Yorkers Help Robot Find Its Way in the Big City – Toyota Partner Robots

Awesome Gifts for the Maker in Your Life

See the full Sylvia’s Super-Awesome MAKE Holiday Gift Guide 2011

Using a Virus to Improve Solar-cell Efficiency Over 30%

Solar and wind energy are making great strides, and are already contributing significantly to providing relatively clean energy.

Researchers at MIT have found a way to make significant improvements to the power-conversion efficiency of solar cells by enlisting the services of tiny viruses to perform detailed assembly work at the microscopic level.

In a solar cell, sunlight hits a light-harvesting material, causing it to release electrons that can be harnessed to produce an electric current. The research, is based on findings that carbon nanotubes — microscopic, hollow cylinders of pure carbon — can enhance the efficiency of electron collection from a solar cell’s surface.

Previous attempts to use the nanotubes, however, had been thwarted by two problems. First, the making of carbon nanotubes generally produces a mix of two types, some of which act as semiconductors (sometimes allowing an electric current to flow, sometimes not) or metals (which act like wires, allowing current to flow easily). The new research, for the first time, showed that the effects of these two types tend to be different, because the semiconducting nanotubes can enhance the performance of solar cells, but the metallic ones have the opposite effect. Second, nanotubes tend to clump together, which reduces their effectiveness.

And that’s where viruses come to the rescue. Graduate students Xiangnan Dang and Hyunjung Yi — working with Angela Belcher, the W. M. Keck Professor of Energy, and several other researchers — found that a genetically engineered version of a virus called M13, which normally infects bacteria, can be used to control the arrangement of the nanotubes on a surface, keeping the tubes separate so they can’t short out the circuits, and keeping the tubes apart so they don’t clump.

The system the researchers tested used a type of solar cell known as dye-sensitized solar cells, a lightweight and inexpensive type where the active layer is composed of titanium dioxide, rather than the silicon used in conventional solar cells. But the same technique could be applied to other types as well, including quantum-dot and organic solar cells, the researchers say. In their tests, adding the virus-built structures enhanced the power conversion efficiency to 10.6% from 8% — almost a one-third improvement.

Read the full press release

Toyota Scion iQ: 37 MPG

I posted on the Toyota iQ a few years ago. It has been successful in Europe for several years and is now available in the USA also as the Scion iQ. Sadly it only gets 37 miles per gallon (the same for city and highway, as it is optimized for city driving). The earlier post discussed the Toyota iQ diesel which achieved 59 MPG (now the UK Toyota sites quotes 64 MPG).

The UK gallon (the imperial gallon) is 1.2 USA gallons – why are we not using the metric system yet 🙁 37 MPG would be the highest yield, for a non-hybrid, in the USA, still it is disappointing when compared to the diesel Toyota iQ figures (64 imperial MPG equates to 53 USA mpg).

The base price for the Scion iQ is $15,595. The car is obviously built for city driving: the small size makes it great for finding parking and navigating small streets.

A fully electric Toyota iQ is being planned for 2012 that can be recharged by 4 hours with a normal electric plug. It can be 80% recharged in 15 minutes with a special adapter. It will have a range of about 65 miles.

I really like the management of Toyota and own stock in Toyota.

On another front, sadly, the company behind the aptera concept car (230 MPG) announced they were closing down.

Underwater Pedestrian Bridge

photo of a 'bridge' parting the waters to allow pedestrian to pass

The Dutch water line was a series of water based defenses conceived by Maurice of Nassau in the early 17th century, and completed by his half brother Frederick Henry. Combined with natural bodies of water. The line could be used to protect the economic heartland of the Dutch Republic behind difficult to cross water barriers, when in danger.

The Fort de Roovere was part of this defense. In 2010 the fort was renovated and the moat revived with a small extra bit of engineering: a sunken pedestrian “bridge.” Where once engineers used ingenuity to use water to keep people out, now engineers used wood to let people experience the moat while still reaching the fort.

via: Sunken Pedestrian Bridge in the Netherlands Parts Moat Waters Like Moses!