History of the Internet

The internet has become a cultural, economical and life changing technological phenomenon. Enough can not be said about this incredible technology. However, the internet is not one single invention; it is a simple idea that has evolved throughout the decades into something bigger than us all. While the internet was started fairly recently, today we are still at the tip of the iceberg of what this technology in all its many forms can help us achieve. So in essence the internet has already and will continue to revolutionize the world. Even as its beginnings were humble, no one could have predicted its amazing growth through the last several decades. The internet has brought us so much information and not only to the social and business elite, but to the entire world.

Looking back, the essential idea of the internet is extremely basic, however with several innovations, the internet has grown and evolved to where it is currently at today.

Typically the 20^th century was defined by communications that went from one major source to thousands or millions of people at a time. This type of communications was characterized by television and radio broadcasters which sent out communications signals to TV sets and radios around the country and world. While the telephone evolved and became ubiquitous in the world as a way for an individual to reach out and talk with a specific person, this type of communications usually involved mostly two people, or a handful of people at most if you were on a conference call. However, with the advent of the internet, a new type of communications technology would be available, where not only can two people communicate simultaneously, but thousands, millions and yes even billions of people at the same time.

Again, the old style of communication technologies not only limited who was able to send a message (think about the big 3 TV networks of the 20^th century), but this technology didn’t allow others to offer their opinion or collaborate. This is just many of the reasons that the internet has grown so far, so fast. The internet is able to have an impact on our entire society whether it is in education, our social circles, military, business, etc. While most may think the history of the internet started in the early 90’s or even the 80’s, the idea of the internet started much earlier- back to the 1950’s.

The Early Beginnings of the Internet

In a lot of ways war is the mother of invention and during the 1950’s besides the Korean War, there was also the Cold War. The Cold War pitted the USA against the Soviet Union and the Eastern Bloc. Nothing was scarier than the Soviet Union launching nuclear weapons against US soil. While there were plenty of events that scared us Americans during this time, one event made it seem that the Russians were pulling ahead of American technology and know how- the launching of Sputnik satellite.

With the launch of the Sputnik satellite in 1957, America feared that the Soviet Union would not only militarize space, but be able to gain a huge advantage over us and this threatened our very security. In reaction to the launching of Sputnik, the USA tried to come up with ideas in how to protect us against the Soviet Union and diminish their strategic advantages. One of the ways that we responded to this crisis was to create ARPA (Advanced Research Project Agency). Now known as DARPA (Defense Advanced Research Projects Agency), this agency was given the mission to create technologies that would help give our military a high tech edge. The goal was to once again lead in the arms race, as well as protect our country and security.

While DARPA was launched in the late 1950’s, it wasn’t till 1962 that the first ideas about a web or interconnected net type of system were formed. First written about by J.C.R. Licklider of MIT in August of 1962, Licklider wrote several memos in what he termed was a “Galactic Network”. In essence, this Galactic Network was able to access information in electronic form- either by data or programs from a large network of computers. The key was that all of the computers in this Galactic Network would be some way connected to each other. In that year, Licklider headed up the first computer research program for DARPA.

Besides the idea of a Galactic Network, there were other ideas and events that played a part in ultimately creating the early internet. Another event that figured prominently into the history of the internet is a commissioned study by the USAF on how the military would be able to keep and maintain control and command of airplanes, bombers and nuclear missiles during and after a nuclear attack. Pretty much, the USAF wanted to understand the best ways to create a decentralized network of communications in order to run their branch of the military during and after a nuclear strike. The important point was that this command would have to be decentralized, so no matter the extend of damage the military would still be able to control it’s nuclear weapons, airplanes and bombers in order to counter strike or protect itself. The original study was commissioned and overseen by Paul Beran, a member of the RAND Corporation.

As the RAND Corporation completed its final report of the study, Paul Beran suggested that one way to achieve decentralization and accomplish the goals put forth by the USAF is to institute a type of technology called packet switching in a network.

The Packet Switching Theory

With the Galactic Network by Licklider, the solution offered by Paul Beran, there were other early players that influenced the creation of the early internet. Another aspect called packet switching theory, which was developed by Leonard Kleinrock at MIT in 1961 also played a huge part in the early origins.

Licklider

The idea of packet switching is that a packet of data which included both its origin and destination could be sent from one location to the other. While this might seem like a simple idea, the technology at the time was different- specifically the type and how data traveled when used in the phone company’s circuits. One of the differences in packet switching technology than what was being used was if a packet of data was lost at any given point in its journey, the packet could be easily resent by the originator. This was not the case with data being sent at the time.
While packets of data being sent which included the origin and destination was a big improvement over the current circuit system used by the telephone company another component of creating the internet that resembles the one used today was the idea that a decentralized system of computers (a network) could communicate with one another. During the 1960’s there were many experiments that tried to create productive and efficient networks of computers. If you remember, at this time, computers were very specialized machines and some were huge taking up an entire room. In 1965 an experiment took place in which a TX-2 computer that was located in Massachusetts connected with a Q-32 computer in California. This experiment was successful and it is considered to this day to be the first time a connection of two computers was made using a low speed dial up phone line. The experiment specifically proved that not only can two computers connect to one another, but it also demonstrated that computers can both exchange programs and data with each other. While the experiment was successful, it was clear that the current set of telephone circuits were not practical and that packet switching technology would be needed to advance this technology.

The First Internet- ARPANET

The original internet was known as the ARPANET. The ARPANET was pretty much the first configuration of a network of computers and while in its very early stages, the ARPANET was

Arpanet Diagram

a huge springboard of innovation to the technologies we now use today. The physical construction of the ARPANET occurred in 1968 and it used the Honeywell minicomputer for its base. In fact, it took a network of 4 Honeywell minicomputers to create the first ARPANET, these computers or nodes were located at four separate universities including: the

University of California at Santa Barbara, the University of California at Los Angeles, SRI at Stanford and the University of Utah. While the network was originally supposed to have a line speed of only 2.4 kbps (thousand bits per second), technology was already available to boost the line speed to 50 kbps. It is also important to note that during the 1960’s, important contributions to computing and communications changed our world completely, unfortunately, these innovation, inventions and contributions are unknown or unnamed today. As the first internet- the ARPANET was in place in 1969, the internet started to build up steam and practicality during the 1970’s.

The Internet Progresses Into the 1970’s

The internet grew in leaps and bounds during the 1970’s. After its initial start in late 1969, the ARPANET as it then was known was about to experience rapid changes not only to its own network, but to the massive amounts of technology and innovation happening around the world. One of the key innovations that helped grow the internet during the 1970’s is an application still considered to be the internet’s “killer app”.

As the 1970’s where under way, plenty of experimenting took place with ARPANET. In fact, another 19 computers were hooked up into the ARPANET network. By 1972, the list of computers hooked into ARPANET totaled 23 host computers that made up the backbone of the network. And while many computers were hooked up, the line speed still continued to be 50 kbps. During the early days much innovation took place and protocols were being developed, the initial host protocol was created called NCP or Network Control Protocol.

It turned out that 1972 was a banner year for the internet, in fact that was the year that the killer app that not only spread the use of the ARPANET in its early days, but continued to fuel growth over the coming years and decades took place- the application that changed the internet forever was Email.

Ray Tomlinson is known as the creator of Email. Created in 1972, Ray Tomlin working for BBN Corporation created the foundation for the basics of sending and reading messages over the ARPANET. While this initial invention was extremely crude, over the years much innovation went into making emails more user friendly. Email not only gave the ARPANET a great application, but added a social dimension to this burgeoning network.

A New Protocol Is Created

Today, when we connect our computer to the internet, we are able to talk with millions upon millions of computers. And while the first ARPANET network consisted of only 19 computers, the one big disadvantage was that the protocol being used NCP (Network Control Protocol) only worked with specific types of computers. Imagine today if your computer logged onto the internet and was only able to talk with Toshiba, Apple or Sony computers. This was the problem that ARPANET was facing in the early 1970’s. There were much more than a few dozen computers that would like to connect to the ARPANET, however NCP was only able to utilize a few dozen at best. Since this was a major flaw with NCP, a new protocol needed to be created. A new, more inclusive type of open source protocol needed to be developed. This new protocol turned out to be TCP/IP. It was originally created in 1973 and it was first used to communicate between computers in 1974. In fact, Vint Cerf and Bob Kahn, two internet pioneers were considered the first individuals to utilize TCP/IP protocol and in a few years, NCP was no longer needed, making ARPANET requiring TCP/IP instead. Many that are familiar with internet protocol recognize TCP/IP since it is still in use to this very day.

ARPANET Grows Beyond the United States

While the early 1970’s would prove to be the formative years for the early internet, as the 1970’s unfolded many innovations took place that expanded ARPANET’s reach past the shores of America and around the world for the first time. It was the Sputnik satellite that originally got the idea off the ground and less than 20 years later it was the satellite that led to the development of the first transatlantic link. The ARPANET expanded without the help of a fixed line for the first time, instead using satellite radio waves to transmit data packets. This first satellite link was called SATNET. SATNET effectively connected both the USA and Europe (Norway to be exact) and then Norway connected the rest of Europe to the network of computers. While the military started ARPANET, it grew bigger than just a military project. In fact, the satellites that were used in the SATNET project were owned not by the US military, but a consortium of several countries.

Making the Connection Easier and Quicker

While the ARPANET and SATNET expanded the reach of the first internet, connecting computers to the internet was still a hodgepodge of cables and quite unorganized. This lead to the creation of the Ethernet cable. The Ethernet cable is still used today. In fact, many home computers still use a fixed line that connects their computer via an Ethernet cable to their modem and then to their ISP (internet service provider). Ethernet offers an easy, economical and practical way to move data quickly from one computer to another computer or device at high speeds. Ethernet cables not only made connecting a LAN (local area network) more simple, but increased the speed at which these computers can talk to one another.

Besides Ethernet, another major innovation developed during the 1970’s was UUCP which stood for (Unix to Unix Copy). This innovation was created by Steve Bellovin. It was a protocol developed for computers that run on the Unix platform. During the 1970’s, Windows and Mac OS’s didn’t exist, mainly more technical types of platforms were available- Unix being one. UUCP was used by Unix computers to easily send and receive files. As UUCP developed more throughout the years, it grew into what is now known as Usenet. Usenet is a news group network still used by millions of people to send news, data files and email throughout the internet. As the 1970’s came to a close, the ARPANET changed drastically. While it started with only a few computers, by 1979 it had around 111 computers linked into the network, however the line speed continued to be the same at 50 kbps. As the 1980’s would start, there would be huge changes to the internet as we know it today.

The Internet Continues to Grow in the 1980’s

While the 1970’s saw the very beginning of the internet called the ARPANET and innovations in packet protocol, Ethernet, UUCP and SATNET, during the 1980’s, the internet will change drastically, never to be the same. By the end of the decade, the internet will be well on its way of becoming the internet many of us know and experience today.

There are many reasons why during the 1980’s the internet changed drastically. First was the many technical innovations that occurred and most of these innovations happened due to much more smaller, faster and affordable computers and hardware. No longer were computers out of reach of most users and organizations. During the 1980’s computers became commonplace and were easily affordable to universities, businesses and ultimately individuals. But besides the influx of technology, many new organizations were developed to help manage the many new users that were utilizing the internet in its growing forms. For instance during this 10 year period, the internet grew from about 150 computer hosts on the net to a staggering 200,000 computers by the end of 1989. As the internet took off, the technology and potential known as the internet was finally being fulfilled.

The Early 1980’s

ARPANET still continued to dominate the internet during the 1980’s, but other networks were already established and continued to grow. While ARPANET was created by the government for military use initially, more and government programs were utilizing the ARPANET along with a wide variety of research institutions. One network that found the ARPANET quite useful was the National Science Foundation, they created a network called the CSNET (Computer Science Network). CSNET was specifically created to conduct scientific research. While many organizations and institutions wanted to connect to ARPANET, unfortunately, not all were allowed or capable of doing so. The CSNET made it easier for a research institution to communicate with one another. Finally in 1981, a plan was put into place that finally allowed computers that utilized either ARPANET or CSNET to connect both nets, making an easy way for both networks to communicate with each other.

There were other innovations that improved communications between computers around the country and world. One innovation that is still in use today and proved to make the internet more uniform and facilitate use was the creation of DNS (Domain Name System).

DNS (Domain Name System) was an innovation that vastly improved the way individuals communicate with one another or other servers on the internet. Before the implementation of DNS, long cumbersome numbers had to be inputted in order to contact another computer. Not only was it very difficult to remember, but made the entire process take a long time. DNS is a system that makes it easy to connect with another computer. In fact, we continue to use this system today. While we may actually input a name into our internet browser to visit a site, each name has an IP number (IP stands for internet protocol). So when we enter the name Google.com into our browser, what you don’t see is that the computer actually is not searching to connect with Google.com, but the DNS IP address that is 216.239.51.99. Once DNS became operational and used, no longer did individuals or organizations have to remember meaningless numbers, instead they only had to remember the name of the site or actually the server that one computer connects to.

As DNS took hold, other protocols would become mandatory. On January 1, 1983, all computers on ARPANET and CSNET no longer worked with the original protocol NCP and instead, all computers required TCP/IP to continue to connect.

Big Events in 1985

During the early to mid 1980’s plenty of innovation occurred and the prices of technology and hardware became much more affordable. Moore’s Law, which states that a computer chip will double in power and halve in price every 18 months was being realized and as more and more businesses, organizations and individuals purchased computers and as they became easier to use, many wanted more than just a stand alone appliance, they wanted to talk and connect with others around the world. 1985 turned out to be a huge year for the internet. The ARPANET was growing exponentially year after year and in 1985, there were over 1,000 computers (hosts) connected to the network. While this network was initially created for military uses, other organizations found it to be useful including universities, businesses and more. The Department of defense came to the realization that its military programs that were also on the network would be a liability and easy to attack. So the ARPANET was split into two, one net for military purposes now called MILNET and the existing ARPANET which was now dedicated to other disciplines without any military components on it. It should still be noted that ARPANET continued to be supported by the DOD (Department of Defense) even though military organizations didn’t utilize the network.

Besides ARPANET splitting in two, another innovation occurred in 1985. CSNET which during the 80’s molded into the ARPANET contracted MCI Corporation to upgrade the network. The line speed from its earliest days was 50 Kbps, in 1985 it was only 56 kbps, however with new innovations in technology, circuits could be implemented that offered a much faster data transfer speed- 25 times faster. The new lines that were implemented were called T-1 lines. They delivered data transfer speeds up to 1.5 Mbps (million bits per second). To use these faster lines, other technology was necessary. IBM for instance created advanced routers and a company called Merit, would manage the network. The new upgraded network would go online in 1986. It was called NSFNET for National Science Foundation Network. However, it is important to note that the older network CSNET that had speeds of 56 kbps still continued to operate.

As the mid 1980’s came and went, traffic on the internet exploded. From 1985 to the end of 1989, traffic soared from a few thousand computers (hosts), to about 200,000 hosts. In addition, organizations and individuals could communicate much faster, while the first T-1 line offered speeds of 1.5 Mbps, by the end of the decade T-3 line was in the works and when it was finally implemented in 1991, it allowed for data transfer speeds of 45 Mbps.

The Internet as We Know It

While the internet started in late 1969, it revealed its true potential by the end of the 1980’s. However, throughout the 1990’s, the internet would continue to grow in leaps and bounds beyond anyone’s comprehension. In 10 short years, the internet will have transformed from a tool used by mainly research and tech savvy individuals to a household appliance that was found in almost anyone’s home and which turned into an economic boom that fueled the economy to grow. While the internet grew, it required the help of many components including more and more powerful home computers, software, overall technological advances and applications that made it worthwhile for common people to use.

The Internet and the Early 1990’s

During the 1990’s as the internet continued to take off, there were plenty of innovations that spurred more and more growth. Besides being more popular with individual users, other areas entered into the mix including innovations that included the social side of the internet and the commercial side that continued to fuel money and research into this incredible technology.

As stated earlier before, the speed at which the transfer of information occurred was about 1.5 Mbps with a T-1 line, however in the late 80’s a new, faster line of communications was planned, it finally became operational in 1991. It was the T-3 line and it made communications incredibly fast at 45 Mbps. With this new T-3 line the slower, more cumbersome CSNET was no longer needed. It was finally retired. However, with the fall of CSNET, a new network rose, it was called NREN (National Research and Education Network). It was created to conduct high speed networking research.

In the early 1990’s, the internet had about 300,000 host computers, however by the end of the decades the number would be in the hundred of millions and today the amount of computers tied to the internet is likely in the billions. With so much innovation over the last few decades, the internet grew from a couple of dozen computers to billions in a blink of an eye. It has transformed our world forever. Besides the technological advances that occurred, the internet also changed our society and pretty much has had an impact on every aspect of our lives.

The World Wide Web

The vast majority of internet users do not start up their computers and log onto the ARPANET, we usually open our browsers and start typing www. WWW stands for the World Wide Web and this web is one of the most important innovations that the internet has seen in its relatively short life. The World Wide Web is pretty much a platform that makes it easy to access data on the internet. The Web uses hypertext links which are pieces of code that links one site to another (and in many cases one computer host to another computer host). Using a browser, you can easily access a link by clicking a mouse, essentially moving from one computer to another located on a web with a single click. Most of today’s computer users access the internet via a browser, whether it is Microsoft’s Internet Explorer, Mozilla’s Firefox or other browsers. The browser itself helps a user to not only access data, but view it. Today, via the web and a browser, you can view text and other types of media and navigate easily from one page to another utilizing hypertext links.

The World Wide Web was actually created in 1989 by Sir Tim Berners-Lee, Sir Sam Walker and Robert Caillau. They were doing research at CERN (European Organization for Nuclear Research); however the World Wide Web was introduced publicly on August 6, 1991. This is when the Internet finally took off.

The World Wide Web was one of several types of platforms developed for the internet that utilized hypertext systems. While others existed in the early 1990’s, there were a few reasons that the Web took off in popularity and use. First off, hypertext links on the Web platform did not need to be bi-directional, they could be one way links (another platform required that links needed to be bi-direction complicating use) and perhaps the biggest reason that the Web took off was that it was free. It didn’t require licensing restrictions. Other platforms required special hardware and this hardware and the use of software cost money making many organizations to choose the free alternative.

In order to use the World Wide Web proficiently, a browser is necessary to view text and media. The World Wide Web took off in popularity when the first web browser named Mosaic was released in 1993. Mosaic was an easy to use graphical browser created by NCSA. It revolutionized the way that many accessed information and data on the web and it definitely helped to grow the internet into what it is today. With the use of a browser, you can view a web page that includes many different pieces of data or media. Before, to access each image or piece of data or media, you would have to open a new file or window. As Mosaic grew in popularity, the project became the Netscape browser. Marc Andreessen was the leader of the Mosaic project and it was this browser that became the most widely used in the early to mid 1990’s. It should also be noted that in 1995, many consider the public offering of Netscape’s stock to be the beginning of the Dot.com boom changing the industry forever.

While Mosaic and then Netscape were dominant in the early to mid 90’s as more and more of the public using Microsoft Windows software on their home computers started to go online, Microsoft started a browser wars of sorts to control the browser that many would use to access the web. Microsoft was extremely effective in promoting their IE (Internet Explorer) browser; in fact they did this by bundling the software with their operating system- most notably Windows 98. While Netscape had about 85% of the browser share in the mid 90’s, by 2003 Netscape was used by less than 1% and is now defunct. Today, Internet Explorer is still the dominant browser used by Window’s computers, however other browsers are now available and have been eating into Microsoft’s market share including the open source Mozilla browser Firefox, Google’s Chrome, Safari and more.

While it was the browser that made it possible and easy to view web pages simple and quickly, other components of navigating the web were necessary. For instance, the web was growing so fast, it was hard to keep track of what was on it. What was needed was a directory. With so much information on the web in the early 1990’s many tried to come up with a way to easily search for this information and retrieve it. The solution to this problem was the search engine and the very first search engine to make it big was Yahoo!

The First Mainstream Search Engine is Created

Going back to the early 1990’s, the web was more or less a huge depot of information, unfortunately, there was no easy way to organize it to help the millions of people now able to access the web find the information that they were looking for. Yahoo was created by two students, one was Jerry Yang. In January of 1994, he created Jerry’s Guide to the World Wide Web. However, it wasn’t until March of 1995 that Yahoo (Yet Another Hierarchical Officious Oracle) was incorporated. While most consider Yahoo, a search engine of sorts where you can find specific items in a web page, it originally started out as a directory of websites. Today, Yahoo is more specifically a web portal offering quite a lot of services that are web oriented including email, instant messaging, streaming radio, news and more.

Google, Today’s Ultimate Search Engine

While Yahoo was the pretty much the first major search engine, a few years later Google took over the reigns and became the de facto search engine and one of the largest companies in the world ( by market capitalization). Google too started at a university. It originally started as a research project to make searching the web more effective. During the early and mid 90’s search engines primarily used meta tags and on-page information to rank and include web pages into the directory. Unfortunately, this system was easily gamed and the information that an individual searched for did not turn up the results that were relevant, a better method of search needed to be developed. Google created what is now known as Page Rank. This is an algorithm that bases the relevance or importance of a web page on the weighted sum of the page ranks that linked to the corresponding page. The more a web page correlated with topics, the more relevant a page would be and this page would be ranked higher for that specific search term.

In turned out that from the very beginning, Google’s main hypothesis was correct. The popularity of the site and it’s clean almost baron home page without the clutter of advertising was seen as attractive to many. However, not only was Google a great search engine that delivered extremely relevant results, it was able to monetize it’s technology with targeted text ads that made Google.com one of the most profitable companies in the history of the world.

Accessing the Internet

While the internet grew in leaps and bounds during the 1990’s, it was fueled in part, because it was more and more easier to access. For instance, during the early 1990’s, many accessed the web via an ISP or Internet Service Provider. Since broadband technology was mostly in development in those years or utilized by big corporations and organizations that could afford T-1 or T-3 lines, most individuals utilized dial up access to the internet. For the most part, using a computer dial up modem usually gave you speeds of about 14Kbps to 28Kbps. During the later part of the decade, faster speeds were realized with top rated dial modems that could deliver up to 56 Kbps. During the very late 90’s newer technology was starting to first come to market, this included cable modems and DSL modems. Cable modems utilized the bandwidth of the TV cable that came to most people’s home. DSL utilized technology to turn a regular home or business telephone connection into a high speed pipe to the internet. While dial up service was relatively affordable, usually around the $20 mark, broadband in its initial stages was much more expensive, usually close to the $100 or more price range. One company that took the ISP to a new level was AOL. AOL not only combined a way to access the internet, but pretty much created a walled community with plenty of internet applications for use by its members.

AOL

Besides Yahoo and Google, another huge force for making it easier for the general public to utilize the web was AOL (America Online). During much of the 1990’s many households saw the internet as a foreign technology that was not that easy to use. However AOL was focused on these new, non-technical users. AOL offered and still does a very easy, non technical way of experiencing the web and the internet. AOL offered its own proprietary software that included many of the services that most wanted from the web including email. Some journalists went on to call the ease at which AOL was to use as being the “internet on training wheels”. While in the late 1990’s AOL had close to 30 million subscribers that utilized a dial up connection, as broadband took over, AOL lost the bulk of their monthly subscribers and now its service has seen its prominence much diminished.

Over the years, AOL had an enormous influence on introducing plenty of web services to the masses including email, chat rooms, instant messenger, and more.

The Many Applications for Internet Use

The History of the internet would not be complete without mentioning the many applications that fueled its growth. Throughout the years, many applications and innovations have made the internet and specifically the World Wide Web a destination for not only individuals, but businesses. Here are just a few of the technologies that have a considerable impact on the way we communicate and do business.

Email- the Internet’s Killer App

Most would say that Email was and still continues to be the killer application that makes the internet irresistible as a technology for both business and individuals. It’s hard to fathom a world without email; however it wasn’t that long ago that we relied on post or at most the fax. Email has made sending a text message half way around the world instantly child’s play. Not only was it fast, easy and very effective, it was free. Originally conceived in 1972, email is now essential to practically all types of businesses and personal communications. We still usually log on only to check our email and whether you send one email, two or thousands the cost is free. Today, email has grown to include not only a text message, but all types of media, hypertext links, etc.

Email has grown in other ways as well. When it was originally conceived, you needed your own server, however today there are plenty of free email services online where you can access your own email account. Whether you use Yahoo Mail, Hotmail, Gmail, accessing mail from your computer or online is usually free and easy. In addition, web based email does not require you to be at your computer to check your email, you can be at any location around the world to read, write and send email.

The Innovation of the Forum

For those that used the internet in the 80’s and early 90’s, one way to access information was the digital bulletin board. Bulletin board systems were like little internet communities. A user would dial up the internet on a phone line and either upload, download or write messages to a bulletin board. Before the web page, information was usually exchanged at these types of destinations. The early bulletin boards turned into the forums of today. Today, you can visit a wide variety of forums to discuss cars, music, health, sports, etc. Not only can you create a thread or topic to talk about, but you can read others comments or respond to other threads. These mini communities helped to forge the internet and still play a huge role in the social aspects of the internet today.

Online Dating

Another social aspect of the internet that fueled its growth throughout the last two decades is online dating. While many don’t realize it, online dating has had a huge impact on how we meet and date today. While people met using digital bulletin boards in the early years, once AOL became popular, chat rooms became one way to meet a wide selection of people instantly. Chat rooms were a popular application for AOL users. You can join a general chat, where you can talk to 20 or more people in a room at one time or join a chat room that had a specific topic or orientation. And while many people might have not went online to find a date at first, with so much demand for chatting and meeting people, websites started to spring up to specifically meet people.

Social Networking

Besides search engines, web browsers and ISP’s other innovations helped make the internet what it is today. The social aspects of the internet have been incredible and the internet over the last few decades have touched pretty much all of our lives. However, social networks have taken these aspects a step further making it easier than ever to stay close to friends, be part of a large online group or organization and mobilize the masses for a wide variety of political and social causes. Two social networks that have become huge over the last few years are MySpace.com and Facebook.com. Both are pretty similar, but have enough differences to be unique on their own. They allow an individual to set up their own page on the network and to keep track and make friends easily. Also these pages are made to be updated frequently with images, video, audio and text.

Blogs

Blogs have become quite popular in recent years. Originally, it was static web pages that were the most popular way for sites and developers to post text, images and other media on the web. However, as it became more and more easier to access the internet and more and more people wanted to share their thoughts and ideas instead of create an entire site, blog or weblogs became popular. Blogs help either individuals or organizations communicate to an audience on a regular basis. They are much easy to update than the typical website and most blogs offer commentary, news, thoughts and the occasional rant. Some blogs also offer media on a regular basis, sometimes they are referred to as podcasts for audio media or a vlog for video media.

And while blogs usually take up a rather long form of writing with many entries well over several hundred words, a new type of blogging has become mainstream- twittering. Twitter.com offers the ability for many bloggers to send smaller messages (micro-blogging) to the web easily and conveniently. The messages can only be 140 characters or smaller. However, Twitter.com has taken off and it has become an international phenomenon.

Economic Influence on the History of the Internet

Enough can’t be said about the economic impact that the internet has brought to the world. Perhaps trillions of dollars have been created in wealth from the internet and billions of lives have been changed due to e-commerce. While the internet started to grow quickly in the late 80’s, it grew exponentially, once the US government allowed it to include commercial websites which brought to the internet e-commerce.

The ability for commercial enterprise to take place on the internet had a huge affect on the internet. The US gave the green light in 1991. However, many in the business world began to take note a few years later when an initial public offering (IPO) of Netscape started the Dot.com Boom. Netscape was the first popular web browser. It went up for IPO with an opening stock price of $28, however it closed at a whopping $75 per share. This sent shockwaves through the market as demand for tech companies specifically involved in the internet took place. Many internet based IPO’s had incredible results including: Amazon.com, Ebay.com, AOL.com and Yahoo.com.

While the market and IPO’s made many rich, it also had another effect, billions of dollars were being funneled into the tech sector and specifically to companies that were developing technologies or innovating the internet and the web. Throughout the 1990’s lots of growth in the overall world economy was attributed to computers and the internet and it continues to this day. In fact, the global economy can be attributed to many of the innovations of the internet. With more and more of the world’s population able to do business online, the world markets are more intertwined than ever before.

Google Goes Public

Another incredible success story is Google. Obviously, Google is the premier search engine, however it is also one of the largest companies in the world due to its stock value (market capitalization). In addition, Google has played a big role in helping small businesses advertise with their contextual text ads not only helping many websites draw traffic to their site, but also helping content creators who develop their own web sites and blogs to monetize their site. This affect creates more and more quality content on the web.

Business has Changed Due to the Internet

Conducting business has changed drastically over the last 20 years due to both the computer and the internet, never to be the same again. In fact, with email, VOIP (voice over internet protocol), cloud computing, online banking and other services, it is easier and more convenient than ever to do business. In fact, many of the physical barriers of conducting business have been erased. Today, many can easily work from home or become tech nomads working from either a coffee shop or half way around the world when on vacation. The world has definitely changed due to the internet’s ability to communicate with ease from practically any location. In a few short decades, the internet has grown from a network of a few dozen computers to practically connecting the entire world’s population. These last 20 years have seen tremendous growth, what the internet has in store for the next 20 years can only fathom the mind.

Google Unveils Nexus S

Google has unveiled the successor to their flagship mobile Nexus One, the new android handset has been named as Nexus S and has been built by Samsung for Google. It will feature the latest Android Gingerbread OS (Android 2.3) which comes with numerous interesting changes in design and interface. Lets have a look at the features and specifications of Nexus S.

Nexus S Specifications:

• 4” Super AMOLED Curved Display
• 1GHz ARM Cortex A8 Processor
• Android 2.3 OS
• 16GB Internal Memory (iNAND Flash), 512 RAM
• 5 Megapixal camera with LED Flash
• Wi-Fi
• MicrosUSB
• Bluetooth 2.1+EDR, Near Field Communication (NFC)
• Gyroscope
• A-GPS
• 1500mAH Lithium Ion battery

Augmented Reality Based Enhanced Vision Technology by GM

Technology really never ceases to amaze us, a new Enhanced Vision Technology currently being developed by General Motors aims to turn the ordinary car windshield into augmented reality based virtual display that uses lasers, night vision, eye tracking and GPS to assist you in driving. Enhanced vision technology can pin point obstacles in the path, mark the road using lasers during night and can even display your destination using the GPS technology on your windshield in real time.

Genius Launch 5 MP Hi Def Camcorder

Genius is not a company that you would normally associate with Digital Cameras or Camcorders. Genius mainly deals in Computer Peripherals but they are also involved in Cameras and Camcorders. There latest product is the G-Shot HD55 camcorder which offers high definition shooting at a decent price.

It has a 5 Mega Pixel CMOS sensor and it can record videos at a high resolution of 1280 X 720 pixels at 30 FPS. Other resolutions that are offered are 352 X 240 and 720 X 480. The videos can then be viewed in high definition televisions. It also has 2X digital zoom. It has a 3 inch TFT LCD color screen. It can also capture still images at 8 MP using software interpolation. It also comes with LED lights to shoot in dark environments. Sadly, it has an inbuilt memory of only 32MB so you would definitely need to add a microSD card to it. It can support upto 4 GB of external card.

Latest Digicams: Samsung Unveils ES10 Digital Camera

Samsung has launched a new compact ES10 digital camera which is the first camera in the new ES series. It is an entry level camera and comes with some advanced features which makes it ideal for anyone who wants to take nice photographs.

It is a 8.1 MP camera with 1/2.5″ high resolution CCD sensor which enables taking pictures in high quality. It comes with 3X zoom and a2.5 inch LCD screen which supports a resolution of 230k. It supports video recordings with MPEG VGA resolution 640 X 480 and 30/15 fps. It has an auto sensitivity feature that can adjust sensitivity according to the exposure. Face detecting, Red Eye Fix along with Self Portrait feature are also present. The new Beauty Shot feature identifies blemishes and dark spots on the face and retouches them. The LCD display automatically adjusts to the environment brightness. The Multi slide show features allows pictures to be arranged in a slide show and music can be added.

The camera will be available in silver, pink, white and black colors. The pricing details and availability is not yet announced.

Latest Nokia 6212 Classic Mobile with NFC Technology

The all new Nokia 6212 features a new mobile communication technology NFC( Near Field Communication based on Blutooth) which enables sharing of data between two devices over 10cm range. Users will be able to transfer audio, video files or contact data directly to and from their mobile phones.

The slim Nokia 6212 classic comes with an extensive set of features such as a 2 megapixel camera, bright 2-inch QVGA display, stereo FM radio and music player supporting multiple formats. An optional microSD memory card of up to 4GB provides ample space for personal content such as images and songs.

“NFC-capable mobiles such as the Nokia 6212 classic are set to change the way mobile phone users interact with devices and services in their surroundings,” says Jeremy Belostock, the Head of Near Field Communications, Nokia. “With the Nokia 6212 classic, people can swap items like business cards or calendar notes by simply tapping their handsets together. With ever-increasing device functions and services available, ease-of-use is essential. One way to keep things simple is NFC.”

The Nokia 6212 classic can also be used as a travel ticket or for mobile payments. Travel tickets can be charged over the air, so there is no need to wait at the service counter. Users can store their credit card information on the device and access their account online directly from the handset. Using the Nokia 6212 classic for payment and ticketing purposes requires a service subscription and the installation of an appropriate secure application.

Laptop

A laptop is a personal computer designed for mobile use and small and light enough to sit on a person’s lap while in use. A laptop integrates most of the typical components of a desktop computer, including a display, a keyboard, a pointing device (a touchpad, also known as a trackpad, and/or a pointing stick), speakers, and often including a battery, into a single small and light unit. The rechargeable battery (if present) is charged from an AC adapter and typically stores enough energy to run the laptop for three to five hours in its initial state, depending on the configuration and power management of the computer.

Laptops are usually notebook-shaped with thicknesses between 0.7–1.5 inches (18–38 mm) and dimensions ranging from 10×8 inches (27x22cm, 13″ display) to 15×11 inches (39x28cm, 17″ display) and up. Modern laptops weigh 3 to 12 pounds (1.4 to 5.4 kg); older laptops were usually heavier. Most laptops are designed in the flip form factor to protect the screen and the keyboard when closed. Modern tablets laptops have a complex joint between the keyboard housing and the display, permitting the display panel to swivel and then lie flat on the keyboard housing.

laptops are already familiar in the community, as well as among students who currently make a laptop as one of their vehicles in the study. Sophisticated technology such as this is caused by an urge to be more advanced. The demand for laptops that have occurred at schools or campuses. Laptops among students is very important for learning. The rise of the laptop market to make this tool as an absolute requirement to be possessed by every person in everyday life, both for education and employment business.

Various types of laptops are created in this world. And marketing is starting from a variety of specialty shops selling laptops in the laptop to laptop vendors online.personally, what do you think about your laptop? important in the life of your laptop??. That question will probably get different answers. But if you know what things that distinguishes it? sangalah answer is simple. Differences of opinion were caused because of the economy. Economics is something that makes human beings in this world feels different even though they are basically all the same.

The smartphone accelerometer

Accelerometers have been used in multitudes of ways before Apple ever thought to include one in the iPhone. Indeed, Apple has had an accelerometer in its laptops since at least 2005. If the accelerometer detected that the laptop was dropped, heading for a hard impact on the floor, the machine knew to park the disk head and minimize data loss. But when when you hear the term accelerometer today, everyone immediately thinks, iPhone. With hundreds of games and applications made specifically for this feature, it was another of the stand-outs that made the iPhone so insanely popular.

It can even be argued that Apple is responsible for the whole modern day smartphone. The iPhone’s influence on the smartphone market is undeniable. The form and function of the iPhone has essentially defined what a modern day smartphone should look like and how it should operate. Since then, all of the smartphones emerging from Apple's competitors have closely resembled the iPhone. They all have multitouch, they all have a screen in the ballpark of 3.5 inches, many have an accelerometer and they all share a similar form factor to the original iPhone

China indicates interest in buying maglev train

Beijing - China on Wednesday signalled its interest in acquiring the technology for a German-developed magnetic-levitation, or maglev, train.

"We would greet the sale of the magnetic train technology from the German developers to Chinese firms," said the National Development and Reform Commission, China's top economic planning agency.

It added that it hoped China could win the technology at an "attractive price."

However, the German conglomerate ThyssenKrupp, which developed the Transrapid system with Siemens, rebutted speculation that it might sell the propulsion technology or a license to China after high costs last month killed a maglev track that had been planned between downtown Munich and its airport.

China is home to the only Transrapid track in commercial service. The track runs between downtown Shanghai and the city's airport.

Xie Weida, deputy director of the Railway Institute at Shanghai's Tongji University, who was involved in the development of the Shanghai line, warned that the cost of such know-how would be extremely expensive but would allow China to produce maglev trains itself and market them internationally.

An expansion of the Shanghai line is planned, but it has been put on hold because of protests by residents. Shanghai Mayor Han Zheng recently ruled out a completion of the expansion by the Shanghai-hosted World Expo 2010 as originally planned.

The technology

Buses The DaimlerChrysler buses used for the EcoBus trial ran on hydrogen gas, which was converted to electricity using fuel cell engines produced by Ballard Power Systems. Essentially, the buses were a combination of fuel cell engines and standard bus components such as the automatic transmission.

The advantages of using the hydrogen fuel cell technology include:

• no tail pipe greenhouse gas emissions;
• no particulate emissions (ie smog);
• low vehicle noise compared with conventional vehicles;
• more efficient than standard internal combustion engines; and
• potentially lower operational and maintenance costs than standard internal combustion engine vehicles.

The EcoBuses operated on normal Perth bus routes. Initially their operation was limited to the City Central Area Transit (CAT) routes, the City Link route and the Circle routes. These routes where chosen because they presented the buses with a range of different driving conditions and they maximised public exposure. As the trial progressed the buses operated on a wider selection of routes.

Hydrogen infrastructure

An important part of the trial was investigating the viability of the hydrogen infrastructure required to support the fuel cell buses. The hydrogen used in the Perth EcoBus trial was supplied by BP and was created as a by-product from their petroleum refinery in Kwinana. It was then refined by BOC and delivered to the refuelling station by two 34.8 tonne trailers. A purpose built refuelling station then took the hydrogen from the trailer and further compressed it to fill the EcoBuses.

Harris Corporation Helps Media General Launch Mobile Digital TV Broadcasting

Harris announced that Media General, a leading provider of news, information and entertainment with 18 network-affiliated TV stations, has launched Harris MPH ATSC Mobile DTV systems at its stations in Columbus, Ohio (WCMH-DT), and Tampa, Florida (WFLA-DT).

Media General is now broadcasting two ATSC Mobile DTV channels for each of these stations, featuring the main and supplementary terrestrial channels viewed locally over the air. Media General plans to standardize on Harris equipment for all Media General TV stations launching ATSC Mobile DTV services in the future.

“Most of our terrestrial transmission properties are Harris, and we like the fact that Harris has been involved in the process of defining the standards and technology since the beginning,” said W. Ardell Hill, president of broadcast services for Media General. “Their experience in mobile and track record as a trusted vendor give us the confidence we need.”

The Harris MPH solution spans the entire mobile delivery chain. The system includes the Harris NetVX video networking system, Synchrony™ mobile networking adapter and Apex M2X exciter, as well as the Roundbox Server for Mobile DTV from Roundbox Inc., which generates service signaling and transmits a rich Electronic Service Guide (ESG). Hill added that Roundbox content support will enhance the viewer experience as the tools and features are further defined.

Media General identified the Columbus and Tampa locations as the ideal initial launch sites for a variety of reasons, including the ability to compare VHF and UHF systems for ATSC Mobile DTV, different terrain challenges, and a wealth of local engineering resources. Hill noted Media General’s interest in providing additional delivery choices for their viewers locally, with the intention of expanding to additional markets in 2011.

“Mobile DTV allows us to take our content to the consumer where they want to receive it,” said Hill. “The reality is that the consumer has become very mobile, and it’s critical that we continue to deliver news, information, public safety bulletins and local programming to our audience. As broadcasters, we are the trusted provider and the credible source of information, and we have a responsibility to gather and deliver that information to consumers on the move.”

TVU Networks Adds Full HD Capability to its TVUPack Mobile News Gathering Backpack

TVU Networks, the technology leader in live TV over Internet, is bringing 3G mobile News Gathering capability to a new height. The TVUPack has been the gold standard in 3G News Gathering backpacks in Standard Resolution. Already in use at over 100 broadcast stations around the world, TVU is now deploying an upgrade to the TVUPack that enables all existing and new customers to move to High Definition. Global TVUPack customers include all four major US networks, and many top global broadcasters including Star News (India) and TVBS (Taiwan).

The latest technology developed for the TVUPack TM8000, allows it to accept HD/SDI camera signals, transmit in HD resolution, and output in full HD over wireless cellphone networks. For the first time, journalists can deliver an HD quality signal using a mobile broadcasting backpack. The TVUPack now features HD output in 720p or 1080i at 25 or 30 frames per second with its SDI interface. This HD capability is being deployed to all current TVUPack customers.

The compact TM8000 is packed with advanced networking and compression technologies. The high-powered H.264 video encoding engine delivers a vivid HD signal, even with limited bandwidth. TVU’s VBR, Variable Bit Rate, technology automatically adjusts the bit-rate according to the total available aggregated bandwidth. TVU’s Inverse StatMux technology allows the TVUPack to fully utilize the available bandwidth of multiple 3G/4G data connections. The combination of these technologies ensures that the TVUPack is able to deliver the best and most stable picture in the industry. TVUPack stands as the chosen top-tier product for next-generation mobile news gathering.

Paul Shen, TVU Networks CEO, stated the following about the latest deployment, “There are plenty of Skype-alike solutions in the marketplace, but broadcasters are telling us they want quality and low latency as good as their DSNG vans, which the TVUPack delivers. TVU’s deployment of HD further extends our technology lead, and we have a lot more in the pipeline.”

About TVU Networks:

TVU Networks is the technology leader in live TV over Internet. The company’s products and services allow both broadcasters and viewers to get the full advantage of using the Internet as a broadcast and transmission medium. The company’s TVUPack is the perfect tool for un-tethered broadcasting.

TVU’s TV platform empowers any size broadcaster to effectively monetize their content through a live Internet TV platform that reaches the entire world, has unlimited channel capacity, and allows for very low broadcasting costs. The TVU platform also offers cross platform support, including Windows, Mac, and a best-selling iPhone app. The TVUPlayer applications have been downloaded over 50 million times. TVU Networks was founded in 2005 and has headquarters in Silicon Valley, California, and offices in New York, Boston, and Shanghai.

Yamaha Releases M7CLv3.5 and File Converter Software

BUENA PARK, Calif.—Yamaha Commercial Audio Systems, Inc. has announced the winter 2010 release of M7CLv3.5 and File Converter software application.

The File Converter application, available for both Mac OS and Windows platforms, converts file formats between PM5D and M7CL as well as M7CL and LS9 consoles, providing data compatibility between consoles. A PM5D or LS9, for example, can be brought in to replace an M7CL, using mix data originally created on the M7CL. The File Converter function will also convert parameters for multiple scenes (including HA and Ch Name).

Several new features have been added to the new M7CLv3.5 firmware release. The firmware contains numerous new functions that will further enhance operation and efficiency of the M7CL console. New alternate functions for the Selected Channel have been added that can be assigned to User Defined Keys for even greater efficiency. And, when using HA Remote signal output from Slot 1 on an M7CL-48ES, up to three additional SB168-ES Stage Box units can be connected via MY16-ES64 and MY16-EX cards installed in the expansion slots allowing for six Stage Box units connectivity.

“Based on feedback from our customers, Yamaha M7CLv3.5 enhancements have been developed that will provide even more flexible mixing options,” states Kevin Kimmel, mixer product manager.

Both the M7CL Version 3.5 firmware updates and Yamaha File Converter software will be available for download at no charge.

For more information, visit www.yamahaca.com.
-END-
About Yamaha Commercial Audio Systems, Inc.:

Yamaha Commercial Audio Systems, Inc. (YCAS) provides a full line of integrated professional audio products offering complete systems solutions for the broadcast, sound reinforcement/installed sound, touring, commercial recording, and post production markets. With the addition of NEXO to the product line, the company remains the official U.S. and Canadian distributor for all NEXO speaker models. YCAS offers comprehensive in-house and field product training for its customers, a dedicated dealer network, and 24/7 technical support.

CSP Mobile Productions Equips Its Two New HDTV Trucks with 16 Ikegami HDK-77EC HD Native Mulit-Format CMOS Cameras

CSP Mobile Productions Equips Its Two New HDTV Trucks with 16 Ikegami HDK-77EC HD Native Mulit-Format CMOS Cameras

MAYWOOD, NEW JERSEY, December 8, 2010 – Providing on-location television production facilities for clients that include broadcast and cable networks, corporate communicators, pay-per-view producers, and Internet content providers requires the ability to adapt to many different production environments and to deliver more than just one HD video format. For CSP Mobile Productions, answering these challenges means equipping the company’s two newest HDTV production vehicles with 16 Ikegami HDK-77EC full-digital HD native multi-format CMOS camera systems. Based in Saco, Maine and specializing in Northeast college sports, CSP Mobile Productions specified the superb 720p/1080i imagery of Ikegami HDK-77EC HD cameras for its newest vehicles, designated HD-1 and HD-3.“We have always owned Ikegami cameras for all of our trucks,” notes Len Chase, President/Co-Owner of CSP Mobile Productions. “We already own 24 Ikegami SD cameras. The most important things we’ve experienced throughout that time are the reliability and phenomenal customer service that we get from Ikegami.”

CSP Mobile Productions’ 16 new Ikegami HDK-77EC economical docking-style portable multi-format HD cameras are divided between HD-1, a 53-ft. expando truck, and HD-3, a 53-ft. straight truck. The Ikegami cameras join a full complement of other state-of-the-art HD broadcast technologies that are carried aboard the two vehicles either for on-location deployment or for use within the trucks’ mobile HDTV control rooms. Little Bay Broadcast Services of Madbury, New Hampshire provided integration services for the new trucks.

“In the mobile business, key camera attributes include reliability, ease of use, and versatility,” Chase says. “It’s great to have one camera to address two leading HD formats. This enables us to serve the needs of a wider range of clients.” Leveraging the benefits of its three advanced 2/3-inch 2.5 mega-pixel CMOS image sensors, Ikegami’s HDK-77EC delivers superb 1080i and 720p HD video quality with native interlace and progressive readout modes. The high resolution of the sensors delivers extremely sharp and detailed pictures. Ikegami CMOS technology also provides the added benefits of reduced camera power consumption and operating temperature.

“Versatility also extends to the challenges of different sports venues having different infrastructures,” Chase continues. “The Ikegami HDK-77EC enables us to go into any facility and change between triax and fiber much more efficiently than with any other camera.” The HDK-77EC can connect to fiber or triax for convenient, lightweight, mobile flexibility via Ikegami’s CCU-890M camera control unit. Users can choose the type of camera cable with a simple switch at the CCU, combined with mounting a docking FA Fiber Adapter or TA Triax Adapter to the camera head.

“These cameras can also be easily ‘future-ized’ with a cost-effective upgrade path,” he adds. “The price point on the HDK-77EC was also right, and – of course – they make beautiful pictures.”For Chase and his team, the complete customer support provided by Ikegami was another factor in selecting 16 HDK-77EC cameras for HD-1 and HD-3. “When I call Ikegami they pick up the phone and ask, ‘What do you need?’ ” he says. “If I need a replacement part or a demo unit, it’s taken care of.”Mobile HDTV production presents unique challenges, including the fact that no two assignments are ever quite the same. But, Chase reminds, the personal rewards are worth it. “What’s exciting about mobile production is that you have a group of people coming together every day, using advanced HDTV equipment to mesh and mold something together that becomes a unique TV broadcast,” Chase says. “For us, our clients, and our viewers, Ikegami’s HDK-77EC cameras are an essential part of that experience.”
For more information and the location of the Regional Office nearest you, call Ikegami’s Maywood NJ headquarters at 201-368-9171 or visit www.Ikegami.com.Ikegami Electronics (U.S.A.), Inc. is a leading supplier of professional broadcasting products in the Western Hemisphere. With U.S. offices in New Jersey, California, Florida, Texas, and Illinois, the Ikegami name is recognized worldwide for its state-of-the-art television cameras and closed-circuit TV equipment. Ikegami’s universal High Definition TV cameras have been widely accepted by the broadcast industry as it continues the transition to the High Definition Television Format.

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PSION TEKLOGIX’S VOICE TECHNOLOGY

“Psion Teklogix’s radio network systems have been so successful in rapidly and accurately handling our picking and storage operations at our Cape Town and Durban Distribution Centres over a number of years, that Psion Teklogix was the obvious choice to implement a voice technology system at three of our Distribution Centres (DCs),” explains Pep Distribution Manager, Jannie Hanekom.

Psion Teklogix’s TekSpeech voice technology is a stable “eyes and hands free” solution that ensures improved speed, accuracy, performance and productivity for order preparation, picking, receiving, quality control, data collection, etc. - although Pep only utilises voice technology for picking purposes at this stage.

The user-friendly TekSpeech system opens a two-way dialogue between warehouse management systems and DC teams, guiding workers step-by-step through their daily tasks. Time-consuming, inaccurate manual data entry is eliminated as workers are no longer required to read computer screens, handheld displays or printouts, or utilise other devices to carry out tasks. Utilising speech recognition and synthesis, the system translates data from the host computer into spoken directions for the worker. The worker’s spoken responses are then translated into data for the host. Transmissions are sent via a radio frequency network that connects the host computer to a wireless, light-weight Talkman T2 terminal fitted to a worker’s belt; a headset enables the worker to hear instructions and to literally talk back to the system. This communication process is repeated each time a worker and the host computer exchange information, resulting in real-time working dialogue between the system and the worker.

According to Jannie, Pep replaced RF with voice in July 2005 in order to improve productivity and accuracy. “To alleviate continuous pressure on supply chain capacity due to sales growth in a deflationary environment it was necessary to increase productivity and the voice system is giving us a 15% improvement on productivity which, in turn, has led to substantial savings in operating costs”.

Jannie said that improved accuracy was a pre-requisite for enhancing the goods receive process in the retail stores and here the voice system allowed Pep to realise an improvement of 19%.

Jannie explains the operation of Psion Teklogix’s voice system at their DCs in Durban and Cape Town:

“Our 22 000 m² Durban Prospecton – DC operates with 56 X T2 Talkmans and eight base stations. The DC has 9 000 pallet positions in terms of racking, and processes 12 000 cartons per day, picked with up to 6 teams of 8 pickers each during day shift.

“Four base stations and twenty four T2 Talkmans are used at our Durban Mobeni DC. In this 11 500 m² area there are 522 pallet positions while the rest is a free stacking area. Up to three teams of eight pickers each are responsible for picking 12 000 cartons daily during day shift.

“Kuilsrivier is a high rise, narrow aisle DC with 16 000 pallet positions where 6 000 cartons are processed every day. Five base stations and twenty five T2 Talkmans are used by up to three teams of eight pickers every day during day shift in this 11 500 m² warehouse”.

Jannie continues: “With the implementation of the Psion Teklogix voice system, we also ensured strong focus on Change Management principals. When we arrived to train the pickers, they were hungry for knowledge and excited to learn. They immediately spotted the huge benefits of the hands-free factor and could not wait to start working with the system, which would improve workflow as they would receive pick instructions while in motion. Because of their enthusiasm, training was made relatively easy and we conducted in-depth in-house training based on illustrations pickers could relate to, and elaborate practice. This accelerated the learning curve and ensured quality output. The ergonomics are far better than handhelds and pickers no longer have eye-strain caused by reading small fonts on screens”, says Jannie.

Commenting on Psion Teklogix’s product quality and service support, Jannie said that they have always been able to rely on Psion Teklogix’s prompt response from any of their three branches in Johannesburg, Cape Town and Durban. He added that Psion Teklogix makes sure that technical staff is highly trained, efficient and able to give meaningful support to the customer.

“Although the Psion Teklogix product is not necessarily the least expensive, we know that we are using a high quality, rugged, reliable product which gives us a rapid return on investment by significantly reducing our maintenance costs, and increasing accuracy and productivity, a few good reasons for us to replace RF with Voice in our 3rd and last DC - a process which is currently in progress”, concludes Jannie.

OCZ Technologies intro 4GB DDR3 2kMHz RAM kit

The world of high-performance RAM takes no prisoners, and Super Talent Technology’s previously top-of-the-line memory has now been eclipsed by OCZ Technology. The company has announced their own 4GB DDR3 kit, the PC3-16000, which features two 2GB sticks running at 2,000MHz (compared to STT’s 1,800MHz). OCZ are positioning their RAM as ideal for overclockers and intensive gamers.

“It is no myth that higher memory densities make it harder to push higher clock frequencies. OCZ Technology pulled off this seemingly impossible task with the release of the world’s fastest high-density memory solution. The new OCZ DDR3 PC3-16000 Platinum Edition kits combine two 2GB modules for 4GB system density running at 9-9-9 latencies and a record-breaking 2GHz data rate. All of this is achieved at only 1.9V which falls well within the voltage tolerances of any DDR3 memory controller currently on the market” Dr. Michael Schuette, VP of Technology Development, OCZ Technology

The RAM can be either passively or water cooled, though OCZ recommend the latter if it’s going to be overclocked. Aluminium fins take care of the passive cooling. All of the necessary water-cooling clips, barbs and hoses are included in the package.

It’s unclear what the company will be charging for the high-performance memory. However, given STT’s rival RAM carries a $499 tag, don’t expect it to be cheap!

Using Space Technology to Fight Against Avian Influenza

UNESCAP Holds Experts’ Meeting in Bangkok from 1 to 3 August

Bangkok (United Nations Information Services) Space technology can help countries in Asia-Pacific fight against avian influenza – a major threat to the region. The United Nations is taking steps to promote the application of the technology in an integrated early warning system for avian influenza.

The Information, Communication and Space Technology Division of the Economic and Social Commission for Asia and the Pacific (UNESCAP) is hosting a meeting on space technology and avian influenza from 1 to 3 August in Bangkok.

The meeting is jointly organized with the United Nations Office for Outer Space Affairs (UNOOSA), the China National Space Administration (CNSA) and the Geo-informatics and Space Technology Development Agency of Thailand (GISTDA). About 60 experts from nearly 20 countries are participating.

There are several potential ways for space-based technologies, such as geographic information systems (GIS), remote sensing (RS) and the Global Positioning System (GPS), to be used in the fight against avian influenza. For example, they could help to monitor and determine the migratory routes of wild birds which are believed to have played a role in spreading the disease.

To make an avian influenza monitoring and early warning system effective, it will be necessary to establish a mechanism for systematically collecting and sharing information. Participants will discuss ways for countries to cooperate in using space technology to track avian influenza and other infectious diseases, such as malaria and schistosomiasis.

How Laptops Work

In a way, the skyrocketing popularity of laptop computers is ironic. They're completely portable, and they use less power and make less noise than desktop models. But, they're often a little slower and have less graphics and sound processing power, although these differences can be too small for most users to notice.

Laptops are also more expensive than desktops. The price gap is closing, though -- laptop prices are falling faster than desktop prices, and laptop PCs actually outsold desktop models for the first time in May of 2005 [Source: Windows IT Pro].

How can all the equipment found in a desktop tower fit into such a small package? And how can laptops be efficient enough to run on battery power alone? In this article, you'll discover the answers to these and other questions about laptops.

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Overall, lap­top and desktop computers are very similar. They have the same basic hardware, software and operating systems. The primary difference is how their components fit together.­

A desktop computer includes a motherboard, video card, hard drive and other components in a large case. The monitor, keyboard, and other peripherals connect wirelessly or with cables. Whether the case sits vertically or horizontally, it has lots of space for add-in cards, cables and air circulation.

A laptop, however, is much smaller and lighter than even the most compact PC tower. Its screen is an integrated part of the unit, as is its keyboard. Instead of a spacious case with lots of room for air circulation, a laptop uses a small, flat design in which all the pieces fit together snugly.

­Because of this fundamental design difference and because of a laptop's inherent portability, components have to:

• Fit into a compact space
• Conserve power
• Produce less heat than desktop components

Often, these differences make the components more expensive, which can contribute to higher laptop prices. In the following sections, we'll examine how laptops handle these differences.

TECHNOLOGY FOR OUR LIVES

Technology is the usage and knowledge of tools, techniques, crafts, systems or methods of organization. Technology nowadays constantly seems to seep its way into our daily routines. Everything we do is somehow connected with technology, whether it for working or studying and helping our life. Without technology, life would be more difficult than it already is, knowledge would be limited and more difficult to achieve. The task of technology is to create a better and easier living for ourselves and for the world.

Now I will take some example of technology today, such as Personal digital assistant (PDA) that lightweight, a hand-held computer designed for use as a personal organizer with communications capabilities; also called a handheld, Electric Cars With Plug In Technology, Laser (Light Amplification Stimulated Emission Of Radiation) Is a Mechanism of emitting of light within Electromagnetic Wave radiation based process of stimulated emission, hand phone, mp3 players and so on.

Looking back in time, we realize how much our lives have changed due to the fruits of technology. It has provided us with freedom and less consumption of time and resources. A nation's economic growth can be measured according to the level of technology. This is because a number of factors are responsible for affecting an individual's life style. The most important factor for deciding the working of a particular technology is the presence of competition. Technology has affected society and its surroundings in a number of ways. In many societies, technology has helped develop more advanced economies (including today's global economy) and has allowed the rise of a leisure class.

With the advent of technology, people are building bridges to decrease the distances in their mind. One basic drawback that has taken place is that people are becoming lethargic due to high trends in technology. It is shortening our ability to pay attention. Robotics, automation and computerization are on the go for changing our lives. Implementation of robotics will give higher efficiency and cheaper labor, thereby increasing unemployment rate.

Technology is so integrated with our lives today. Various influences, both positive and negative, of technology already we feel together.

POSITIVE:

The positive effect is that it accelerates what one person can do. With tech you can make one person do much job in same time and do things quickly and better. With tech, you can protect yourself by encrypting all your transmissions, however it makes it that much easier for someone to protect truly harmful transmissions like child porn or criminal activity. Overall, and in a modern sense, tech decentralizes the power and control over the media and distributes it to regular people creating a more democratic society. In the same way, it destabilizes society by challenging the authority of institutions within that society who need to centralize power to maintain that control that does provide stability. However, the emergence of tech will show that old institutions are no longer needed or have to modify.

NEGATIVE

The reality is that today’s society is so dependent on technology. for example almost every family has a television, there are even families who have more than one television. In addition, almost everyone has a mobile phone that can be used to access the internet and open facebook or twitter. as a result, people spent much time in front of the television and browse the internet for updating status on facebook and twitter, or play games on line through mobile phone, laptop. Without parent’s guide the children can be access the porn sites or bad ones that very unsuitable for them because they can not filter whether is true and false exactly.

In our opinion, now the community is very spoiled with technology and highly dependent on technology. For example to calculate ( sum, subtraction, division) we rarely use our brainpower, but rather use the calculator to solve them.

In other hand technology sometimes makes bigger unemployment because the job that was taken by 100 people now can do by a machine just a click. Unemployment is a serious problem for government because sometimes increase the criminal because they can’t have enough money for fill up the life budget.

Now the other side of technology is not so green. It is because of improvised technology only that we have seen nuclear and atomic wars. Many technological processes produce unwanted by-products, known as pollution, and deplete natural resources, to the detriment of the Earth and its environment.

Hence, one must know how to balance between manpower and automation. In the world of automation, cars have created freedom as well as concrete jungle. Technology is affecting our near future so it becomes our responsibility to streamline it in the right direction.