Tag Archives: Engineering

Appropriate Technology Brings a $1.30/month Cell Phone Plan to Remote Village

I love this kind of stuff: smart use of engineering provides cell phone service to remote Mexican village, with 9,000 residents, for $1.30/month (1/13 of the price charge by traditional cell phone service in Mexico City).

The town that Carlos Slim forgot

It’s so remote that there was no cell service. In stepped Rhizomatica, a nonprofit with the goal of increasing “access to mobile telecommunications to the over two billion people without affordable coverage and the 700 million with none at all.”

The U.S. and European experts working with Mexican engineers got the network set up by March of this year. At first, they ruled that phone calls were not to be longer than five minutes each to keep the small network from getting saturated.

By May, local numbers in Mexico City, Los Angeles and Seattle were set up, meaning that Oaxacans in Villa Talea could call relatives in the capital or in California as if it were practically a local call, a few cents a minute.

Given the success they are buying equipment that can handle the volume and will donate the existing equipment to setup a new village (a smaller one, I imagine). This was the first village they setup.

Long-distance is go

After almost two months of fine-tuning, long-distance service is finally ready to launch. This means folks in the town will be able to call out of the coverage area (only around 5-10km) to any phone, anywhere. Likewise we purchased a few DID numbers which allow people to call a Mexico City, Los Angeles or Seattle number and connect right to the village.

This is one of so many great efforts to use appropriate technology to improve people’s lives. It is easy for me to get frustrated at the cash for votes mentality of the USA politicians which creates policies against improvement for society and for protection of obsolete business models (until the bought-and-paid-for politicians make the business models sustainable by legislating against better options). It is great to see these kind of examples for the good work being done outside of the political sphere.

Hyperloop – Fast Transportation Using a Better Engineering Solution Than We Do Now

Elon Musk (the engineer and entrepreneur behind Tesla electric cars and before that he helped create PayPal) has a very cool idea of how to provide fast long distance transportation (faster than a plane). Essentially it is a big version of pneumatic tubes that used to be used to send small packages around a building, as seen in the movie – Brazil 🙂 Details are scheduled to be released August 12th.

This Is How Elon Musk Can Build the Hyperloop for a Tenth the Cost of High-Speed Rail

Having a elevated Hyperloop main line also completely avoids or reduces many of the pitfalls of ground-level right-of-ways, and opens up some new opportunities as well:

The crossing of other right-of-ways, like roads and railways, will be a breeze.
Rivers and other terrain obstacles will only be a 10th the problem of rail construction.
Hyperloop can avoid tunnels completely by having more flexible choices of right-of-way.
An elevated right-of-way opens up new route options, like leasing farmer’s fields using contracts similar to what wind-power companies sign.
That could be paid for by leasing Hyperloop’s right-of-way to communications companies for fiber optic cables, cell phone towers, etc.
…and let’s not forget the solar power that a couple of square miles of surface area can generate!

Hype Builds Before Elon Musk’s August Alpha Plan for Hyperloop

The Hyperloop would transport passengers from San Francisco to Los Angeles in about 30 minutes and at about twice the average speed of a commercial jet. The system would be on-demand, cheaper than current alternatives, impossible to crash, and potentially, run entirely on solar power.
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Travelers ride in pods magnetically accelerated and decelerated into the main tube (like a rail gun) where the air circulates at speed. The air between pods acts as a cushion, preventing crashes, while more air injected through perforations in the tube levitates the pods and reduces friction, much as it might on an air hockey table.

Elon Musk has some very good ideas but what really sets him apart is turning them into functioning enterprises. Great ideas are wonderful but a huge number never go anywhere. Those people that can actually get ideas into the marketplace are the people that provide a much greater standard of living for all of us. And many of them are engineers.

Update: link to his blog post announcement.

More examples of cool extreme engineering: Monitor-Merrimac Memorial Bridge-Tunnel – Transferring Train Passengers Without Stopping – transatlantic tunnel – Webcast on Machine That Bores Subway Tunnels

3d Printers Can Already Save Consumers Money

I first wrote about 3d printing at home here, on the Curious Cat Engineering blog, in 2007. Revolutionary technology normally takes quite a while to actually gain mainstream viability. I am impressed how quickly 3d printing has moved and am getting more convinced we are underestimating the impact. The quality of the printing is improving amazingly quickly.

3d printed objects

As is so often the case these day, our broken patent system is delaying innovation in our society. For 3d printing there is a good argument the delays due to the innovation crippling way that system is operating today will be avoided as critical 3d patents expire in 2014. Patents can aid society but the current system is not, instead it is causing society great harm and delaying us being able to use new innovations.

“For the average American consumer, 3D printing is ready for showtime,” said Associate Professor Joshua Pearce, Michigan Technological University.

3D printers deposit multiple layers of plastic or other materials to make almost anything, from toys to tools to kitchen gadgets. Free designs that direct the printers are available by the tens of thousands on websites like Thingiverse (a wonderful site). Visitors can download designs to make their own products using open-source 3D printers, like the RepRap, which you build yourself from printed parts, or those that come in a box ready to print, from companies like Type-A Machines.

3D printers have been the purview of a relative few aficionados, but that is changing fast, Pearce said. The reason is financial: the typical family can already save a great deal of money by making things with a 3D printer instead of buying them off the shelf.

In the study, Pearce and his team chose 20 common household items listed on Thingiverse. Then they used Google Shopping to determine the maximum and minimum cost of buying those 20 items online, shipping charges not included.

Next, they calculated the cost of making them with 3D printers. The conclusion: it would cost the typical consumer from $312 to $1,944 to buy those 20 things compared to $18 to make them in a weekend.

Open-source 3D printers for home use have price tags ranging from about $350 to $2,000. Making the very conservative assumption a family would only make 20 items a year, Pearce’s group calculated that the printers would pay for themselves quickly, in a few months to a few years.

The group chose relatively inexpensive items for their study: cellphone accessories, a garlic press, a showerhead, a spoon holder, and the like. 3D printers can save consumers even more money on high-end items like customized orthotics and photographic equipment.

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Research on Ancient Roman Concrete Will Allow the Creation of More Durable and Environmentally Friendly Concrete

Analysis of samples of ancient Roman concrete pinpointed why the best Roman concrete was superior to most modern concrete in durability, why its manufacture was less environmentally damaging – and how these improvements could be adopted in the modern world.

“It’s not that modern concrete isn’t good – it’s so good we use 19 billion tons of it a year,” says Paulo Monteiro (U.S. Department of Energy’s Lawrence Berkeley National Laboratory). “The problem is that manufacturing Portland cement accounts for seven percent of the carbon dioxide that industry puts into the air.”

Portland cement is the source of the “glue” that holds most modern concrete together. But making it releases carbon from burning fuel, needed to heat a mix of limestone and clays to 1,450 degrees Celsius (2,642 degrees Fahrenheit) – and from the heated limestone (calcium carbonate) itself. Monteiro’s team found that the Romans, by contrast, used much less lime and made it from limestone baked at 900Ëš C, or lower, requiring far less fuel than Portland cement.

Cutting greenhouse gas emissions is one powerful incentive for finding a better way to provide the concrete the world needs; another is the need for stronger, longer-lasting buildings, bridges, and other structures. Roman harbor installations have survived 2,000 years of chemical attack and wave action underwater. We now expect our construction to last 50 to 100 years.

The Romans made concrete by mixing lime and volcanic rock. For underwater structures, lime and volcanic ash were mixed to form mortar, and this mortar and volcanic tuff were packed into wooden forms. The seawater instantly triggered a hot chemical reaction. The lime was hydrated – incorporating water molecules into its structure – and reacted with the ash to cement the whole mixture together.

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Loon – Balloon Enabled Internet

Project Loon, from Google:

The Internet is one of the most transformative technologies of our lifetimes. But for 2 out of every 3 people on earth, a fast, affordable Internet connection is still out of reach.
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We believe that it might actually be possible to build a ring of balloons, flying around the globe on the stratospheric winds, that provides Internet access to the earth below. It’s very early days, but we’ve built a system that uses balloons, carried by the wind at altitudes twice as high as commercial planes, to beam Internet access to the ground at speeds similar to today’s 3G networks or faster. As a result, we hope balloons could become an option for connecting rural, remote, and underserved areas, and for helping with communications after natural disasters.

Google testing out this system now in New Zealand. If they can get it to work they plan to use ballons to provide wireless internet access to hundreds of millions, or even billions, of people that don’t have access now. These ballons would float about 20 km above earth in the stratosphere (so well above where commercial airline traffic) and they are really working somewhat like to satellites.

Though ballons are much cheaper to put in place than satellites they also offer significant problems as they get blow around by wind (which is why they haven’t been used before and why Google is going to experiment to see if they can get it to work). The ballons will use solar power and be controlled by a mission control to move into different wind zones to position themselves.

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Engineers Save a Life

photo of car resting in river

This photo was taken by the driver’s parents when they arrived. It doesn’t show much of what it went through to get there, but it gets most of the point across. The picture was taken 200 feet away and looking down from the road.

I got into a major accident today that I was able to somehow walk away from. I lost control of my car and went off of a cliff into boulders, and after flipping a few times, settled in the river. I walked away with cuts on my hands from the broken glass and a bruise that runs from my chest over my left shoulder where my seat belt held me in place.

I shouldn’t be alive discussion on Reddit.

swapsrox: Time to send a letter to the manufacturer thanking them for their safety design! I guarantee your letter will be put on an engineer’s wall, and they’ll know there is a reason they go to work every day.

cmdshftn: Great engineering saved your life. The vehicle’s safety systems from the seatbelt to the crumple zones to the design of the seat kept you safe and alive despite all hell going on around you. Please write a letter to the manufacturer thanking their design team, but above all, follow up with whoever you need to in that jurisdiction to find out why there isn’t a guard rail on that road! Vehicle safety helps, but great road design to prevent an accident like yours helps more!

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Building A Better Bed Bug Trap Using Bean Leaves

Building A Better Bed Bug Trap

An old folk remedy involving hairy bean leaves strewn around the bedroom may have a new life as a modern bed bug trap, according to new research from the University of California, Irvine and the University of Kentucky.
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Although its mechanisms weren’t known at the time, the tactic dates back to at least 1678, when the English philosopher John Locke wrote of placing kidney bean leaves under the pillow or around the bed to keep bed bugs from biting as he traveled through Europe.

In the early twentieth century, the approach was also common throughout the Balkans, according to a 1927 report from the Imperial and Royal Austro-Hungarian Army. That report suggested the leaves stunned the bloodsucking bugs as they traveled from hiding places to their sleeping hosts during the night; in the morning, the bug-covered leaves were removed and burned.
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“The inconvenience of bean leaves is that not everyone wants them scattered around their bed room.” Synthetics mimicking the surface of the bean leaf, however, could be placed “as a ring around the bed legs, a floor mat at the door, a strip on the bed board, it could be something one put’s in one’s suitcase,”

Very cool. The chemical assault on bed buds is failing all over the world. A new vector to assist in the fight against bed bugs will be most welcome. It is interesting to learn the scientific reasons that explain why some folk remedies work.

Introduction Video on 3D Printing

3D printing is an amazing technology that opens up great opportunities for us to enjoy life. The future is great. It is exciting to see how quickly advances are being made in this area. I think the ability to print replacement parts is a huge benefit. And the creative uses people will put these printers too will be a joy to see.

How to Walk on Ice

infographic explaining how to walk on ice - walk like a penguin

Infographic by Tablet. Falling on ice leads to many injuries and even 60 deaths a year in the USA (about the number that will die due to tornados). The graphic encourages thinking like a penguin. Penguins walk well on ice (in some ways) and they also fall well.

Seeking to keep your weight well supported (short strides) is wise (and sliding instead of picking up your feet can help). Falling well is also important. It is basic physics, you want to lower your center of gravity if you are start to slip and avoid any excessive force (so sliding is better than trying to stick out your hand and support all your weight). The elderly are especially susceptible to injuries – avoiding taking direct shocks to the wrist, knees or hips is wise). It does seem kind of silly to learn how to fall but it is very helpful in avoiding injuries.

On sidewalks if you are going to fall and there is snow piled up off the sidewalk, falling into the pile of snow may well be softer than falling directly onto the sidewalk.

On ice you have lower friction so strategies that require friction are not useful – quick moves often rely on very sturdy bases (which are based on the friction of our shoe on for example concrete [which normally is good – though business shoes are not very good] and on ice [where it is very poor – sliding and gradual moves are better]).

Open Source Ecology: Using Open Engineering to Create Economic Benefit

Open Source Philosophy. from Open Source Ecology on Vimeo.

I think the video’s message is overly simplistic and unrealistic (great innovations often seem unrealistic so I don’t mind people trying things I don’t think are likely to succeed in the ways they imagine). But I believe in the concepts of using our knowledge to use appropriate technology to make the standard of living better for everyone. Open access to scientific knowledge is important to such efforts and to the economic well being of modern society.

Open Source Ecology provides a modular, DIY (open access), low-cost, high-performance platform that allows for the easy fabrication of the 50 different Industrial Machines that it takes to build a small, sustainable civilization with modern comforts. The are recruiting for an Operations Manager, and an Executive Team (based in Kansas City or New York City in the USA).