The University of Aberdeen in the UK has declared that a fully-holographic television (like in Star Wars, yes) is entirely possible by 2018. They base this conclusion on research of their own on holograpic technologies as well as emerging 3D-like televisions that promise to go on sale in the next three to four years. "Whilst the ultimate 3D experience, using fully interactive floating holographic images - similar to that which is seen when Princess Leia appears in front of Luke Skywalker as a hologram in Star Wars - could be on the market by 2018." The team came to this conclusion after recieving $350,000 in funding to study timelines, possibilities and possible applications of a fully holographic television.
The question I find myself asking (other than why someone would still use "whilst" in a sentence) is why someone would even want a holographic television. In every view of the future we see, holograms aren't used for television, but for interactions and display. It will be interesting to see how the public will react to holographic televisions, and how long it will take for them to give way to holographic commmunication and fake girlfriends (Sixth Day). If anything, expect at least five months of Princess Leia parodies once this comes out.
John Callaham over at Big Download reports that Emotiv Systems, the company that was expected to release a brain-wave controller by the end of the year, is delaying its release due to issues of it actually working. The press release where it was unveiled at the Game Developers Conference may be a sign. "The public demo didn't go as planned; the device simply didn't work in front of the media who attended the press conference." And while the company later explained that the product didn't work properly due to "interference from wireless transmitters," it's probably safe to say that the product didn't work because it simply isn't working.
I guess we all should have seen it coming. A Brain Controlled Interface which is good enough to control video game characters seemed too good to be true for a 2008 release, and I guess it was. What Emotiv probably found out was that technology as specific as this, much like Google's Voice Recognition software, takes a lot of time to perfect. Google 411 has been working for years, using hundreds of thousands of voices to finally make a viable product. Emotiv needs more time to do just the same. The real question is how long will it take? 2009? Let's hope.
What if you could charge your portable device simply by having it move around in your pocket while you walk?
Texas A&M Professor Tahir Cagin believes that piezeoelectric materials, that convert motion into electric currents could be closer to applied applications thanks to their recent design breakthrough. (Not Image shown)
Professor Cagin and partners from the University of Houston are using piezoelectric material that can covert energy at a 100 percent increase when manufactured at a very small size – in this case, around 21 nanometers in thickness.
"When materials are brought down to the nanoscale dimension, their properties for some performance characteristics dramatically change," said Cagin who is a past recipient of the prestigious Feynman Prize in Nanotechnology. "One such example is with piezoelectric materials. We have demonstrated that when you go to a particular length scale – between 20 and 23 nanometers – you actually improve the energy-harvesting capacity by 100 percent.
"We're studying basic laws of nature such as physics and we're trying to apply that in terms of developing better engineering materials, better performing engineering materials. We're looking at chemical constitutions and physical compositions. And then we're looking at how to manipulate these structures so that we can improve the performance of these materials."
"Even the disturbances in the form of sound waves such as pressure waves in gases, liquids and solids may be harvested for powering nano- and micro devices of the future if these materials are processed and manufactured appropriately for this purpose," Cagin said.
Why is this important to the future? Micro power systems are in high demand for portable gadgets and sensors like RFID tags used on products in 'smart supply chain' logistics. While batteries and micro fuel cells might be required for higher demand applications, piezeoelectric systems could find a role in the world of micro-power.
The Economist reports that a Humvee-mounted laser is already being used in Iraq to detonate roadside bombs which have plagued the military over the years. And yes, it’s named after the Greek God of lightening.
The Zeus laser (I am inclined to say cannon for all you Final Fantasy fans out there) possesses a range of 300 meters (just shy of 1,000 feet) and has been successfully used in Iraq. Although they only possess one Humvee equipped with the laser, plans are in effect to make more.
Why is the military laser-crazy?
Lasers are the dream weapon for the military. You can fire them from incredible distances with pinpoint accuracy and have the potential to be a game-changer in any battle. Advanced lasers could be used to detonate RPGs or missiles before they get to the target, they can punch through walls, and could potentially blow up ICBMs before they get too far off the ground (Reagan’s infamous Star Wars plan). There’s no ammunition concerns, just power, and despite being totally un-serviceable in the field, the lack of moving parts makes the possibility of breaking very slim.
"You can have children reading about Alice in Wonderland ... and Alice can pop out of the page, and have a tea party on the page."
Every amazing new technology needs to be wrapped in an equally elegant high-demand application if it is to diffuse past just the military on through the human masses. Often the first killer app is targeted at youth (ie, Facebook, Club Penguin, MMORPGs), then gradually spreads upward to older generations that require more convincing and immediately useful applications.
When it comes to augmented reality, it's possible that a company called Mixed Reality Lab (MXR), a spin-off owned by the National University of Singapore, is on the verge of creating such a cross-over app: Virtual 3D Pop-ups for Children's Books.
Coming on the heels of MXR's real-time augmented battlefield displays, the new Magic Books product aims to generate revenue from mommies and daddies who feeled compelled to get their kids interfacing with the most advanced new media.
In the past, the mere mention of an idea system or establishment in this blog has lead to a barrage of complaints and corrections from advocates and opposition alike. So, it is with much apprehension that I attempt to discuss technocracy.
A technocratic society has the goal of: Producing optimum quality goods and services at the lowest possible energy cost, and distributing the maximum amount of goods and services to everyone.
Our broken economy has so far prevented this from being possible. The constant need for money has forced producers to continually produce poor quality goods, essentially, in order to keep the consumer buying. If you have to keep buying, you have to keep working. In today’s developed world, we have far more than our parents did, yet we still continue to slave away, even massively increasing our debts to own more and more.
Essentially, all we really need is:
- Clean Water - Food - Shelter - Basic Clothing
Secondary needs are:
- Consumables - Electricity - Comm infrastructure - Transportation
IBM held its Third Annual "Five in Five" which looks at emerging trends as well as what IBM itself is developing in their own labs around the world. Here's the vid.
While previous predictions given by these "Five in Five" releases can be somewhat fanciful (like mind-reading cellphones for instance), this latest list has the refreshing feel of being very near and very possible.
Solar technology will be built into everything
IBM states that within five years we could be seeing thin-film solar technology built into everything around us. This includes sidewalks, driveways, paint, windows and even clothing. Their belief is that thin-film solar will get so cheap that it can be applied everywhere in our lives. It's ability to be flexible also makes it easy to wrap around our daily devices which could benefit from a little extra power boost. It's interesting to think that while some people are clamoring for white asphalt and roofing tiles to reflect the Suns energy and save on lighting, another faction will emerge that will want solar film instead. Of course the question remains: are you going to want to hook a battery up to your clothing?
Your health can be pre-determined
Mapping DNA keeps getting faster and cheaper as the years go along. It only makes sense that very soon people will begin to use that genetic information to look for hereditary traits that could impact your health. In finding out you have a high chance of becoming diabetic, you may try and change your diet to avoid or delay its effects. Basically, it's the movie GATTACA without being able to actually alter the DNA before birth. I wonder how you'll take the news when they tell you that the junk food you so love is literally killing your body and taking years off your life.
Toshiba recently announced that they would start producing a 16-Gigabyte MicroSDHC in January of next year. "Toshiba Corp. (Toshiba), a leading innovator in memory card technologies and solutions, and Toshiba America Electronic Components, Inc. (TAEC), its subsidiary in the Americas, today reinforced their memory card line-up with the launch of a 16GB microSDHC card offering the largest capacity available in the market." Although the smaller chip only transfers at 6Mps instead of the faster 20Mps, the fact that 16 Gigabytes can be crammed into such a small area could mean huge changes in the computer/smartphone environment.
The bridge between phone and computer has been constantly blurring with the increase of mobile internet use among smartphone users. The ability to link the phone and the computer so far has been relegated to files and applications both share. The increased space on the phone could be used for more files, but it could also be used as a back-up for your computer.
As sensors and computers continue to spread throughout the world they quantify our environment and offer the opportunity of real-time feedback. Case in point is Honda's new "Ecological Drive Assist System for Enhanced Real World Fuel Economy", a sensor/display system that learns your driving style and conditions you to become a more ecologically conscious driver.
Here's what the interface will look like:
And here's Honda's description of the new system:
TOKYO, Japan, November 20, 2008– Honda Motor Co., Ltd. announced the development of the Ecological Drive Assist System, which combines three functions to enhance fuel economy: the ECON Mode utilizes harmonized control of the continuously variable transmission (CVT) and engine to support more fuel-efficient driving; the guidance function uses speedometer color to provide real-time guidance on fuel-efficient driving; and thescoring function provides feedback about current driving practices, as well as feedback on cumulative, long-term fuel-efficient driving.
The 
John Callaham over at 
What if you could charge your portable device simply by having it move around in your pocket while you walk?
