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"Over the last five years, technology has been rapidly changing and expanding in every field imaginable. Smart phones are now capable of acting as standalone computer devices that can take pictures, search the Internet, send emails and text messages and yes, they even make phone calls. While it might seem that the technology of today has reached its limits, it is still actually spreading its proverbial wings. Only twenty or so years ago, personal computers were becoming small enough and affordable enough for families to buy them for home use. Since then, the world of technology has shown no signs of slowing down and practically every device available today is somehow tied to computer technology. It seems hard these days to fathom the original size of computers and how small they have become in the last ten years, but within the last five years they have become even smaller and somehow more powerful and faster than ever before! The Internet allows people to connect with family, friends, and work colleagues from across the globe in the push of a button. Communication options have literally exploded in the instant avenues of text and video based chat as well as the near instantaneous method of email. Gone are the days where one had to post a letter and wait a week or more for a response and long distance phone calls are unnecessary for anyone with a computer, a webcam, and a speedy Internet connection. Automobiles are now being manufactured with standard GPS and emergency call features for the convenience and safety of drivers and their passengers, making the days of carrying a map completely unnecessary and improving the peace of mind of anyone who must travel the roads alone or at night. Computerized cars are now potentially at risk in much the same fashion as a personal computer as a moderately skilled hacker can theoretically take over basic functions of a vehicle - including its engine. Yes, technological advancement has changed our lives completely, and not al

"To call the evolution of the computermeteoric seems like an understatement. Consider Moore's Law, an observation that Gordon Moore made back in 1965. He noticed that the number of transistors engineers could cram onto a silicon chip doubled every year or so. That manic pace slowed over the years to a slightly more modest 24-month cycle."

This page summarizes Chapter 3 (Future of the Medicine). "Kaku discusses robotic body parts, modular robots, unemployment caused by robots, surrogates and avatars (like their respective movies), and reverse engineering the brain. Kaku goes over the three laws of robotics and their contradictions. He endorses a "chip in robot brains to automatically shut them off if they have murderous thoughts", and believes that the most likely scenario is "friendly AI", in which robots are free to wreak havoc and destruction, but are designed to desire benevolence.[1]"

"Nanotechnology: Everything from Nothing?"

"Unlike conventional chemical rockets which use Newton's third law of motion, solar sails take advantage of radiation pressure from stars. Kaku believes that after sending a gigantic solar sail into orbit, one could install lasers on the moon, which would hit the sail and give it extra momentum. Another alternative is to send thousands of nanoships, of which only a few would reach their destination. "Once arriving on a nearby moon, they could create a factory to make unlimited copies of themselves," says Kaku. Nanoships would require very little fuel to accelerate. They could visit the stellar neighborhood by floating on the magnetic fields of other planets."

"CPU clock speed for a single cpu has been fairly static in the last couple of years  - hovering around 3.4Ghz. Of course, we shouldn't fall completely into the Megahertz myth, but one avenue of speed increase has been blocked:"

"A virtual retinal display (VRD), also known as a retinal scan display (RSD) or retinal projector (RP), is a display technology that draws a raster display (like a television) directly onto the retina of the eye. The user sees what appears to be a conventional display floating in space in front of them. (However, the portion of the visual area where imagery appears must still intersect with optical elements of the display system. It is not possible to display an image over a solid angle from a point source unless the projection system can bypass the lenses within the eye."

"Moore's law is the observation that, over the history of computing hardware, the number of transistors on integrated circuits doubles approximately every two years. The law is named after Intel co-founder Gordon E. Moore, who described the trend in his 1965 paper.[1][2][3] His prediction has proven to be accurate, in part because the law is now used in the semiconductor industry to guide long-term planning and to set targets for research and development.[4]"

"But nanotechnologists think they have an answer for treatment as well, and it comes in the form of targeted drug therapies. If scientists can load their cancer-detecting gold nanoparticles with anticancer drugs, they could attack the cancer exactly where it lives. Such a treatment means fewer side effects and less medication used. Nanoparticles also carry the potential for targeted and time-release drugs. A potent dose of drugs could be delivered to a specific area but engineered to release over a planned period to ensure maximum effectiveness and the patient's safety." Nanotechnology can be a better, more efficient way of getting rid of cancer cells.

This seems like a great website to use. It backs up all of its statements with facts, so we know we can rely on it. I know this source will come in handy later because it actually explains how nanotechnology is used in some medical fields. I also know this is reliable because they list the sources that they used. This seems like a very official site to use.

This page gave a good amount on how nanotechnology can change the future of medicine, from taking pills to cancer. It also talks about nerve regeneration and how that is in the near future with nanotechnology.

"Nanotechnology is already being used in products in its passive form, such as cosmetics and sunscreens,"

"Nanotechnology medical developments over the coming years will have a wide variety of uses and could potentially save a great number of lives. Nanotechnology is already moving from being used in passive structures to active structures, through more targeted drug therapies or "smart drugs." These new drug therapies have already been shown to cause fewer side effects and be more effective than traditional therapies. In the future, nanotechnology will also aid in the formation of molecular systems that may be strikingly similar to living systems. These molecular structures could be the basis for the regeneration or replacement of body parts that are currently lost to infection, accident, or disease. These predictions for the future have great significance not only in encouraging nanotechnology research and development but also in determining a means of oversight. The number of products approaching the FDA approval and review process is likely to grow as time moves forward and as new nanotechnology medical applications are developed."

"Computing has developed at an amazing pace over the last few decades, but even today's computers are essentially glorified calculators" This site is useful because it shares very interesting information about the future of computers acting and thinking like humans. This site is reliable because it is on a news website backed by facts.

"Energy is vital to our daily lives. It helps us produce food, fuel transport and power communication channels across the world. Over the coming decades, more people will gain access to energy and enjoy higher standards of living. But these developments could place greater pressure on our world's resources, such as energy, fresh water and food. At the same time, climate change remains a serious concern. At Shell, we use human ingenuity, innovation and technology to unlock the energy our customers need to power their lives in the years ahead, while aiming to limit our impact on the environment."

"The term "nanotechnology" has evolved over the years via terminology drift to mean "anything smaller than microtechnology," such as nano powders, and other things that are nanoscale in size, but not referring to mechanisms that have been purposefully built from nanoscale components. See our "Current Uses" page for examples. This evolved version of the term is more properly labeled "nanoscale bulk technology," while the original meaning is now more properly labeled "molecular nanotechnology" (MNT), or "nanoscale engineering," or "molecular mechanics," or "molecular machine systems," or "molecular manufacturing." Recently, the Foresight Institute has suggested an alternate term to represent the original meaning of nanotechnology"

I think that this is a great site for learning more about nanotechnology and what it does. It is a government website, so all of the facts are going to be true. There are facts on this site from how big a nanometer is to what nanotechnology can be put to use for. Just from reading the website over once I have already learned so much more about nanotechnology. I think this is a source that will be very helpful in the future.

This website focuses all on one branch of nanotechnology: nanobots. The website lists the wide variety of jobs nanobots can do, from cleaning entire kitchens while no one is home to being injected in the bloodstream to kill cancer cells before they form a tumor. This website seems to be very official and is entirely dedicated to spreading the knowledge of every part of nanotechnology. I recommend everyone in nanotechnology to look over this website, because it has such a vast array of knowledge on the topic.

In any realistic learning application, the entire instance space will be so large that any learning algorithm can expect to see only a small fraction of it during training. From this small fraction, a hypothesis must be formed that classifies all the unseen instances. If the learning algorithm performs well then most of these unseen instances should be classified correctly. However, if no restric- tions are placed on the hypothesis space and no "preference criterion" 1124] is supplied for comparing competing hypotheses, then all possible classifications of the unseen instances are equally possible and no inductive method can do better on average than random guessing [261. Hence all learning algorithms employ some mechanism whereby the space of hypotheses is restricted or whereby some hypotheses are preferred a priori over others. This is known as inductive bias I hope to use this source to learn more about how artificial intelligence learns, as I have read in other places that the kind that learns from the "bottom up" learns by making mistakes and learning from them. AI, if to be truly intelligent, is probably going to have to learn the way we did; by experience and example. In Kaku's book, he mentions the differences between two artificially intelligent robots that he "met". One, STAIR, had a limited database and was programmed to do what it did. Another, LAGR, piloted itself through a park, bumping into miscellaneous objects and learning their locations so that on the next pass, it would not hit them. I hope to learn more about that kind of logic by reading this article, as I think it is important to have a better understanding of exactly how artificial intelligence learns.

Mr. Obama's 2010 budget proposal for NASA asks for $18 billion over five years for fueling spacecraft in orbit, new types of engines to accelerate spacecraft through space and robotic factories that could churn soil on the Moon - and eventually Mars - into rocket fuel.

Touchscreen technology will expand beyond fingertips, evolving to incorporate artificial intelligence, light and even sound.This year's Computer Human Interface conference featured several new touchscreen inventions, as over 2,500 international researchers presented their work in Austin, Texas. Scientists and inventors showcased everything from medical to social networking and gaming-related touchscreen technologies, touching on a variety of intriguing directions that interfaces will take in the future.

"In this future, computers have become so small and pervasive that they are in practically everything." This source is useful because it goes with the prediction that we could have computing devices in everything. I will use this site to learn more about touch screen technology being integrated into all parts of our everyday lives. This source is reliable because it is similar to other predictions about future technology of the computer.

This page gives a great comparison between mass customization and restaurants. The author explains how restaurants who have used this kind of method when selling food and how it could extend all over the market. The page was written based off of a college for business and economics.