3D TV Technology Has Plenty Of Applications

Three dimensional TV, or 3D TV as it will undoubtedly come to be called, is sure to become a winner when it comes to market in the future. This futuristic way of watching TV has been envisioned for years. In fact, it’s a rare science fiction scenario that doesn’t anticipate some kind of holographic or three dimensional entertainment or communications technology.

3D TV has a lot of practical uses for a lot of different people both professionally and personally. For example, the applications to diagnostic medicine are pretty obvious. After all, a two dimensional X-ray could never compare to viewing a scan of someone’s innards from any angle when it comes to figuring out what’s wrong with them. Three-D scans could take the guess work out of a variety of different types of surgery by allowing doctors to look at wounds, tumors, foreign objects, broken bones, and blockages before even opening a patient up. Plus, when combined with real time scanning technology that’s already available, 3D TV could even allow doctors to look at the physical processes of living people in real time!

The applications for physicists, scientists, and engineers could also be extremely useful. Much like doctors could do with humans, zoologists could look at the inner workings of exotic, even possibly endangered animals, without dissection. Physicists will be able to use the technology to analyze complex processes that would be extremely difficult to conceptualize in two dimensions. Engineers will be able to do similar things with the technology in order to visualize the things that they’re building and designing. If you think about the extremely small applications of nanotechnology, you can see how 3D TV could be extremely useful for the development of that technology as well. After all, with most other mediums people can look at their prototypes.

One of the first forms of entertainment that will benefit from 3D TV will be video gaming. That’s because most modern video games generate their images in 3D and then convert them to two dimensions for display on a computer screen or a TV screen. This means that it would take only minor changes to how video games work in order to display a huge number of them in 3D.

Creating TV programming in three dimensions is a little more difficult, but several well known directors are working on 3D movies right now. There’s also software under development that converts 2D video into 3D images that can be shown on prototypes of 3D TV sets. The software still has a lot of bugs that need to be worked out. While it does convert 2D programming to 3D programming, it doesn’t render the images very realistically. At least one version of the software that’s been developed so far is that it can be run on hardware that’s widely available. In fact, a laptop computer was able to run prototype software without any trouble.

While we can’t be completely sure how 3D TV will play out- especially when it comes to compatibility and creating programming for it- we can be sure that it is coming, and by all accounts it should be coming in the near future.
Source by Emily Sanderson

What Are the Benefits of Bluetooth Technology?

Wireless devices have exploded in popularity and most often, we forget what type of technology is actually being utilized. Granted, you can find the Bluetooth logo everywhere, but do you know how beneficial Bluetooth is, or even why? Let us take a look at the top ten benefits of Bluetooth.

One: Wireless…need I say more. Going wireless alone can have many of its own benefits, mostly, freedom from wires. No more having wires interfere with your work, accidentally being pulled off your head, or tripping someone. No more having to worry about bringing the connection wires when traveling. I always found it a pain, digging in my briefcase, only to realize, I forgot the connection wire to my headphones…bummer.

Two: Low Interference. Bluetooth is known for its ability to stay out of the way of other wireless communications. Interference is a major issue with most other forms of wireless communication.

Three: Bluetooth is fairly homogenized. This means a standard by which all devices, regardless of their operation, has the ability to connect if Bluetooth is installed, or enabled. This guarantee’s connectivity across a wide range of electronics and other product lines.

Four: Bluetooth is automated. Connection of Bluetooth devices is simple. Unlike WI-FI, or others, where a long, drawn-out process is required to connect. For Bluetooth, so long as the devices are within 30 feet (that has been extended now in Bluetooth 2.0), the devices have the capability of acknowledging each other and having quick connections.

Five: From an expense point of view…Bluetooth is less expensive to purchase and implement than other wireless technologies for any business. These savings can certainly help the bottom line.

Six: Instant network capability. Bluetooth allows you to instantly create an intranet, what is known as a PAN (Private Area Network). At the time of this writing, it is possible to connect up to seven devices, within thirty feet. You can also setup multiple PAN’s in a single area, as again, the interference will not be a problem.

Seven: Since the standard for Bluetooth is connectivity, this allows devices the opportunity to instantly share information. What this truly means is that both devices have the ability to receive and send the information as the technology to send it and reproduce is the same. Granted, you will need the respective application handlers on the other end in order to interface with the information sent.

Eight: Low energy usage. Bluetooth incorporates a unique power saving strategy called ‘frequency hopping’. The signals are low in energy, and therefore, low on power consumption. This technology requires little, in terms of battery power in order to proper function. This truly comes into play when in use with mobile devices, such as Bluetooth headsets.

Nine: Easy upgrades. One of the many standards is the ability for easy upgrade of the technology. All devices are required to be upgraded, which will provide new Bluetooth benefits and backwards compatibility.

Ten: Universally recognized. As preferred as Bluetooth is, it was easy to make it a worldwide, universal standard. With the backwards capability, you will only see Bluetooth technology blossom and redefining wireless communications.
Source by Andy Sellars

The Effects of New Technology in Human Lives

New technology impacts our daily lives in every field, from the cars we drive, cell phones we use, computers and networks we access and power we consume! In fact humans have always been greatly affected with the developments in new technology. However, nowadays new information technology is a bit more complex with cloud computing, new methods of security and data encryption!

It’s a universal fact that new information technology not only benefits programmers, database managers, hardware engineers and network analysts but it also benefits the common user as well. New information technology was developed in 1940’s and 1950’s for the better working of military and universities.

There is a whole generation of kids now who are growing up not knowing what was before the internet and the cell phone. This new technology to the older generation is novice and unique in their lives. New science and technology offers breakthroughs in our life times and our children’s lifetimes that will significantly impact the world in which we live. It is believed that new medical science and technology will be able to cure cancer, HIV-AIDS and even the common cold! New medical technology is being continuously developed, from clinical trials for pharmaceuticals to robotics for complex surgery!

New science and technology may also one day lead to mainstream alternative fuel vehicles, space travel for civilians, virtual reality conferences, a worldwide network of personal wireless electronics, data-transmission at the speed of thought, reversal of global warming and too many other innovations to mention. Latest research in computer science is not limited to medical, business, gadget, IT, space, education, etc. But it will mean better health, more knowledge and more power at our finger-tips.

Some of the other hot topics in new research technology include environment and renewable energy, space science, electronics, stem-cell investigations and many others. All these developments in human lives is wholly credited to the amazing invention of computers! The computer application is used and acknowledged worldwide. New models of computers are emerging daily, having different features, unique shapes and attractive designs.

Whether a new or used computer, it occupies a prominent place in our lives. Used and cheap computers are available in the market for the benefits of students and professionals, working mothers or for home-based jobs, from businesses to medicine, from education to aviation, from government departments to the corporate trading world, these used computers and refurbished laptops are performing amazing tasks! Cheap computers and refurbished laptops are available at very affordable rates to help students and young professionals to pursue their career.

Business technology is developing everyday to help companies get an edge on their competition as well as bring more engaging products and services into the market place. But it must be realized that as new business technology will lead to more productivity, it will also create more competition.

New technology, in years past, may have been inventing the wheel, the telescope, the printing press or the first steam-driven car. But it cannot be denied that new technology has driven societies towards greater health, wealth, security and well-being!
Source by Kathy Fernandes

Cell Phones For Seniors – Tips on Finding a Mobile Phone Model For Grandma

As we mature, the features we desire in a cell phone may change. A number of mobile phone providers are looking at ways to make cell phones more “senior-friendly”. At one time we may have been interested in the newest ringtone, however, now we may want a mobile phone that is easier to hear. We may need a larger keypad and display screen for easier input and viewing of telephone numbers and data. Some may look for a cell phone that is more comfortable to handle, possibly larger in size.

I recently came across the new Jitterbug J which boasts a slimmer and lighter design than previous models. It comes equipped with Bluetooth which allows the use of wireless headsets. One feature that would appeal to everyone is the battery that claims a 30% longer life than previous models. Standard features include a panic button that provides one-touch emergency dialing to a neighbor or caregiver. As found in most cell phones, it also provides a global positioning system (GPS) that may become invaluable should a senior get lost or become unreachable by phone. The 24/7 call-in feature to a nurse has already shown to be a lifesaver for many users.

Additionally, users may subscribe to a Complete Care package offering roadside assistance and free replacement of lost or damaged phones. This service has been very helpful to my grandmother who always seems to be misplacing her phone.

Once you have decided on your new wireless phone and all its snazzy features, check out your local school and public agencies for further assistance. Many organizations have begun offering classes to help seniors make the most of their mobile phone by familiarizing them with the many features offered such as text messaging, voice mail and calendar functions.

After we purchased her new mobile phone model, we then had to find an easy way for my grandmother to carry her high-tech mobile device. We found a unique, stylish cell phone cover in the shape of an adorable pink ladybug that provides protection for her phone and offers a fun and easy way to carry it. Now when she drops her phone, as she does quite frequently, it simply bounces! The plush cell phone accessory came with a durable key clip that allows her to easily attach the phone to her purse so when it rings she is not fumbling around to find it.

Technology can be made easier and more fun for everyone with a little research and pre-planning.
Source by Kenly Taylor

How Personal Electronic Devices Are Used in Sports

Technology has always benefited the sports that it is involved in, and this can easily be seen at major sporting events with large scoreboards or some type of electronic timer. Technology has also been used to create better golf clubs or light weight tennis rackets, but when personal electronic devices started to be produced in mass quantities in the 1990s some sports equipment manufacturers began to worry. They thought that this new technology would keep people indoors and hence would not purchase their sporting products. This fear was largely unfounded and with the cost of most electronic devices falling, it is the perfect time for companies to take advantage of this new technology. The biggest piece of technology that is becoming common in outdoor sports such as running or bicycling is global positioning systems.

GPS is quickly becoming the standard for navigation while bikers, runners or even kayakers are out in wilderness or even in the city. GPS systems can now be linked to Google maps so that a jogger can look at the device on their arm and be told where to turn in order to reach their destination. Previously this technology was generally used in cars but more and more it is becoming more popular for sporting purposes. The overall market for sporting equipment is on the rise and companies that do not take advantage of the new technology will fall behind. Nike has placed an electronic in one of their shoes that records the mileage that the runner has run. Then this mileage is put on a social networking site and users can chat with each other about their runs, how far they have run, where they like to run et cetera. These social networking sites have become very popular in many different areas of sports. Technology has become such a force that the Sporting Goods Manufacturers Association is hosting a three-day conference on the subject starting Tuesday. Speakers are to include executives from Google and Nike. It is no surprise sporting has benefited from technology and consumers can assume that technology will continue to be integrated into their sport to make it more enjoyable.
Source by John Severin

Importance of Electronic Technology

We have taken steps on the road to the future that can not be retaken or undone. The importance of electronic technology is now ingrained in every fiber of our society, from the lowest station all the way to the coveted office of the President of our country.

Importance of electronic technology flourishes with abandon, doubling upon itself every fourteen to twenty-four months, constantly becoming that which we won’t do without, thanks to the growth of technology. Time-consuming tasks that once took hours, even days, are now accomplished in minuets.

Computers and the Internet provide various new methods which have been incorporated for the processing of normal business activities, growing bigger and being customized to the point where it is heavily integrated in the current structures.

Without the Importance of electronic technology, routine tasks that now only take moments, thanks to the computer, would otherwise have taken hours, even days for the compiling of information alone.

The Importance of electronic technology in communications is where news is most called upon. As one of the fastest developing industries in the world, the cell phone has revolutionized the way we live and communicate with each other and the world.

Everyone wants to be informed when a new innovation in the cell phone industry is unveiled. The addition of the internet, as well as GPS navigation systems, sent the communications industries staggering to the bank under the weight of the money being made.

Technology in the Health-care system alone has had long reaching effects. The speed and storage ability of computers has simplified and increased the efficiency of the record keeping systems, this being only the tip of the technological iceberg.

Many hospital systems connect entire departments, from their doctors to the accounting departments, pharmacy, and billing. All use a system called HIS. HIS is a (hospital information system). HIS is software used by all hospitals and integrates most of their departments.

I believe inroads in the field of electronic technology in the Education System need to be explored more extensively. The outrageous cost of a good college education borders on the realm of criminal larceny.

By placing for some an unattainable price on the education of their choice, the educational system is stealing not only their futures, but depriving society of their potential contribution.
Source by G.W. Moran

Virtual Reality Gaming

For some of you reading this, virtual reality gaming is no big deal. Some of us, however, were not born all that recently, so this new virtual reality gaming phenomena is pretty fascinating.

VR, itself, is fairly new. Even the term, VR gaming, has a very short history. The earliest usage of the term, virtual reality, only goes back so far as the beginning of the last century, the early 20th. But even then, they weren’t talking about the same thing we are today when we discuss it. In fact, this has generally come to mean a sensory-filled, immersive and 3D (3 dimensional) environment generated through some form of technical equipment.

You can enjoy this way of interacting with a simulated, or virtual, environment. This is accomplished through the use of a technical interface, such as your computer keyboard, mouse or even a specialized glove. Headsets, helmets, data suits, special tech-toys and even an omni-directional treadmill are also used to create as virtual a simulated environment as possible.

This means that the environment you might find yourself in could look and almost feel as real as the world you live in today. But it could, just as easily, be filled with a reality you’ve never faced before. Ever seen a real, living, breathing dinosaur up close? You could, in a virtual reality gaming session!

Because this technology is still so new, it still has a romanticism surrounding it. In the early 20th century, the phantasmagoria of live theater was about as virtual as it got, and even then, did not fully immerse a person in its “virtualness.” It lead a person, in mind only, into other realms.

The complete immersion of VR gaming requires physical interaction, not just mental. During a virtual reality gaming session, input is sent to the player through the various devices mentioned earlier, with which the player must interact. This is the part of the phenomena that makes it interactive. In order to get through the session, you have to participate. And that’s what makes it fascinating.

That you could see a dinosaur up close, or engage futuristic battle-bots or even just play tennis with Martina in your living room, through VR gaming, is evidence that we are truly entering another technological advance in our society and culture.

But we’re not there yet. Of the several elements required for virtual reality gaming, sight and sound are the easiest to simulate, especially in a 3d reality. Advances are being made in other areas, as well, such as the sense of smell. The Sony Corporation has been rumoured to be working on a beaming technology that would engage the human brain in all senses, including taste. But that’s pretty far off, yet.

As it stands today, the technology behind virtual reality gaming is very cost prohibitive. So, don’t expect to be installing a holodeck in your house anytime soon. You will have to keep your virtual reality gaming sessions in your living room, in front of your TV or computer screen.
Source by R. David Smith

Why Electronics and Technology Are Important

People today live in a world that relies greatly on electronics and gadgets to make our everyday activities easier and faster. Most of us could not fathom what life we be like without computers, cell phones, iPods, televisions, or electronic toys. Over the years, technology has continued to advance, improving the quality of life for people who use electronics and gadgets to make their lives more convenient.

When we wake up in the morning, we are often greeted by our alarm clocks. How many people would be late for work if they had to rely on their internal body clocks to wake them up at the same exact time every weekday morning? Once up and out of our bed some people may enjoy a cup of coffee or espresso from the convenience of their own kitchen coffee making appliance. Others may head to the bathroom to start getting ready for the day. This may include using a hair dryer or curlers to style their hair, or maybe an iron to de-wrinkle their clothes. All the while, people may be catching up on the day’s news by watching their local news station on television. All this use of technology and electronics and they haven’t even left for work yet!

The list goes on and on. The advancement of technology has allowed us to enjoy our favorite music while we exercise via the use of an MP3 player, warm our food in seconds with the convenience of microwaves, and even read our emails from anywhere in the world with the use of smart phones and laptops. This is just the tip of the iceberg. While most people understand that electronics and gadgets are important, they don’t take the time to really comprehend just how much we use this type of technology in all aspects of life. Certain electronics and equipment have made medical procedures easier, not to mention just plain possible. Life expectancies have increased with the advancement in technology and suffering has lessened due to the invention of medical equipment and technologies.

Whether it’s the coolest new GPS gadget to help you located and get to your favorite vacation destination along with every restaurant, store, and gas station in the area, or the newest sonar machine that can allow a doctor to see any possible development issues with a mother’s unborn baby, technology and electronics means more to us than we can realize. New products are developed every single day and the more people shop for fun gadgets and electronics, the easier and more fun life will become!
Source by Christa M O’Conner

Electronic Keyboards – Their History and Development

The term “electronic keyboard” refers to any instrument that produces sound by the pressing or striking of keys, and uses electricity, in some way, to facilitate the creation of that sound. The use of an electronic keyboard to produce music follows an inevitable evolutionary line from the very first musical keyboard instruments, the pipe organ, clavichord, and harpsichord. The pipe organ is the oldest of these, initially developed by the Romans in the 3rd century B.C., and called the hydraulis. The hydraulis produced sound by forcing air through reed pipes, and was powered by means of a manual water pump or a natural water source such as a waterfall.

From it’s first manifestation in ancient Rome until the 14th century, the organ remained the only keyboard instrument. It often did not feature a keyboard at all, instead utilizing large levers or buttons that were operated by using the whole hand.

The subsequent appearance of the clavichord and harpsichord in the 1300’s was accelerated by the standardization of the 12-tone keyboard of white natural keys and black sharp/flat keys found in all keyboard instruments of today. The popularity of the clavichord and harpsichord was eventually eclipsed by the development and widespread adoption of the piano in the 18th century. The piano was a revolutionary advancement in acoustic musical keyboards because a pianist could vary the volume (or dynamics) of the sound the instrument produced by varying the force with which each key was struck.

The emergence of electronic sound technology in the 18th century was the next essential step in the development of the modern electronic keyboard. The first electrified musical instrument was thought to be the Denis d’or (built by Vaclav Prokop Dovis), dating from about 1753. This was shortly followed by the “clavecin electrique” invented by Jean Baptiste Thillaie de Laborde around 1760. The former instrument consisted of over 700 strings temporarily electrified to enhance their sonic qualities. The later was a keyboard instrument featuring plectra, or picks, that were activated electrically.

While being electrified, neither the Denis d’or or the clavecin used electricity as a sound source. In 1876, Elisha Gray invented such an instrument called the “musical telegraph.,” which was, essentially, the very first analog electronic synthesizer. Gray discovered that he could control sound from a self-vibrating electromagnetic circuit, and so invented a basic single note oscillator. His musical telegraph created sounds from the electromagnetic oscillation of steel reeds and transmitted them over a telephone line. Grey went on to incorporate a simple loudspeaker into his later models which consisted of a diaphragm vibrating in a magnetic field, making the tone oscillator audible.

Lee De Forrest, the self-styled “Father Of Radio,” was the next major contributor to the development of the electronic keyboard. In 1906 he invented the triode electronic valve or “audion valve.” The audion valve was the first thermionic valve or “vacuum tube,” and De Forrest built the first vacuum tube instrument, the “Audion Piano,” in 1915. The vacuum tube became an essential component of electronic instruments for the next 50 years until the emergence and widespread adoption of transistor technology.

The decade of the 1920’s brought a wealth of new electronic instruments onto the scene including the Theremin, the Ondes Martenot, and the Trautonium.

The next major breakthrough in the history of electronic keyboards came in 1935 with the introduction of the Hammond Organ. The Hammond was the first electronic instrument capable of producing polyphonic sounds, and remained so until the invention of the Chamberlin Music Maker, and the Mellotron in the late 1940’s and early 1950’s. The Chamberlin and the Mellotron were the first ever sample-playback keyboards intended for making music.

The electronic piano made it’s first appearance in the 1940’s with the “Pre-Piano” by Rhodes (later Fender Rhodes). This was a three and a half octave instrument made from 1946 until 1948 that came equipped with self-amplification. In 1955 the Wurlitzer Company debuted their first electric piano, “The 100.”

The rise of music synthesizers in the 1960’s gave a powerful push to the evolution of the electronic musical keyboards we have today. The first synthesizers were extremely large, unwieldy machines used only in recording studios. The technological advancements and proliferation of miniaturized solid state components soon allowed the production of synthesizers that were self-contained, portable instruments capable of being used in live performances.

This began in 1964 when Bob Moog produced his “Moog Synthesizer.” Lacking a keyboard, the Moog Synthesizer was not truly an electronic keyboard. Then, in 1970, Moog debuted his “Minimoog,” a non-modular synthesizer with a built-in keyboard, and this instrument further standardized the design of electronic musical keyboards.

Most early analog synthesizers, such as the Minimoog and the Roland SH-100, were monophonic, capable of producing only one tone at a time. A few, such as the EML 101, ARP Odyssey, and the Moog Sonic Six, could produce two different tones at once when two keys were pressed. True polyphony (the production of multiple simultaneous tones which allow for the playing of chords) was only obtainable, at first, using electronic organ designs. There were a number of electronic keyboards produced which combined organ circuits with synthesizer processing. These included Moog’s Polymoog, Opus 3, and the ARP Omni.

By 1976, additional design advancements had allowed the appearance of polyphonic synthesizers such as the Oberheim Four-Voice, and the Yamaha series CS-50, CS-60, and CS-80. The first truly practical polyphonic synth, introduced in 1977, was the Sequential Circuits Prophet-5. This instrument was the first to use a microprocessor as a controller, and also allowed all knob settings to be saved in computer memory and recalled by simply pushing a button. The Prophet-5’s design soon became the new standard in the electronic keyboards industry.

The adoption of Musical Instrumental Digital Interface (MIDI) as the standard for digital code transmission (allowing electronic keyboards to be connected into computers and other devices for input and programming), and the ongoing digital technological revolution have produced tremendous advancements in all aspects of electronic keyboard design, construction, function, sound quality, and cost. Today’s manufactures, such as Casio, Yamaha, Korg, Rolland, and Kurzweil, are now producing an abundance of well-built, lightweight, versatile, great sounding, and affordable electronic keyboard musical instruments and will continue to do so well into the foreseeable future.

Source by Preston Champion

The Virtual Reality Rise?

Virtual reality, the idealised next step in both gaming and simulations. With the rise of Oculus Rift, HTC Vive, Sony’s Project Morpheus and the recent OnePlus Cardboard virtual reality is beginning to find a place in the consumer household, rather than with only arcades and technology enthusiasts.

The question is, and will be whether virtual reality is here to stay and how will it affect the current gaming market. TMR, a market intelligence company has released a report estimating that the United States virtual reality market was worth US $466.6 million in 2012. With anticipated growth to reach US $5.8 billion dollars by 2019.

Such massive market potential is likely the driving force behind the broad range of companies jumping on the VR scene. Everyone from Sony to Valve are currently developing or have released early products, such a range of heavy hitting gaming companies is a sign that virtual reality has a place. Whilst this anticipated growth is impressive, it remains to be seen if this new technology will be purely a passing fad or a long-term gaming option.

According to this report the constant increase in technology, such as 3D effects and motion tracking are pushing the rise of virtual reality. Whilst increasing disposable incomes are letting more and more households give this new technology a try. On the flip-side the cost of these technologies, demonstrated by Valve stating that their HTC Vive is aimed at the high-end consumer is expected to harm growth and widespread adoption.

The worldwide spread of VR is obviously concentrated within North America and Europe, with both representing 69% of the revenue share. Though surprisingly Asia is slated as the region of highest potential due to the growing online involvement and presence of Sony, who have easy to Asia for their Project Morpheus.

This single report highlights that VR has huge potential, both for the companies producing them and the consumers. Yet ultimately it will depend on the content that will be available for these machines and the cost of them. At the current time an average consumer will not spend the equivalent of an Xbox One or PlayStation 4 for a machine that offers only a limited range of games. Though if games such as the “Keep Talking and Nobody Explodes” demonstrate anything, it is that the right sort of game style can work seamlessly with headset VR. We look forward to the day that Call of Duty can be played on a virtual reality machine, or maybe that wouldn’t be such a good idea.
Source by William Cooper