3 Tips For Surviving Commercial Driver Shortage

The shortage of commercial drivers is no longer a news. In 2015, there was a report of over 30 000 empty seats which needed to be filled in the United States and the problem has kept escalating since then. It so surprising that there is a shortage of commercial drivers when commercial driving schools, as well as trucking companies, have been pumping out newly trained drivers. Statistics have shown a good number of certified commercial drivers who are unemployed but they aren’t lining up to fill the empty seats in trucking companies. As a trucking company, the following tips can enable you to survive the shortage of commercial drivers.Tip 1 – Creating Opportunity for Growth in your CompanyWorking for a company and remaining in the same position for several years can be discouraging. One of the ways to reduce the turnover of drivers and attract new ones is by providing growth opportunities. Based on the performance of the driver, they can be promoted to other roles such as team captains and supervisors. However, the criteria for promoting the drivers should be made known to every driver on the field in other to prevent those who went promoted from getting frustrated and upset. Also, a company where there are growth opportunities are quite attractive to the younger generation of drivers. Better equipped trucks, automatic transmissions, and improved sleeping cabins are few of the other ways to attract young drivers who seek more comfort and convenience.


Tip 2 – Offering Better Compensations and Performance-Based Incentives. Offering better compensations to drivers is not an added expense but a means of reducing cost. It reduces your cost of recruiting and training because you get to attract more experienced drivers while reducing the turnover of your existing drivers. Also, drivers who do their job well, arrive on time, drive safely, and are efficient and productive should be given bonuses. This keeps them motivated.Tip 3 – Making the Job EasyThere are new technologies such as the route optimization software which helps in planning accurate and well-optimized routes. This ensures that drivers never get stuck on the road. It assists them in increasing their productivity and timeliness thus making the job easy and seamless. Also, the software comes with a tracking device which enables the company to know the location of their drivers in real time. This enables the company to be able to send assistance to the driver in case of any problem or breakdown of the vehicle while on the road.


The shortage of commercial drivers does not only increase the cost of operating a company but it also decreases the revenue of the company. Irrespective of what you choose to do in other to mitigate the impact of commercial driver shortage on your company, the best tip is to start as soon as you can. If you have any question concerning how your truck company can survive the shortage in commercial drivers, you can always call or contact a Truck Driver Company.

Technology Enhances Wine, Spirits and Beer Labels

What’s the purpose of a wine label; or for that matter a label on spirits and beer? Obviously, the first response to that question is: to satisfy the TTB (Alcohol and Tobacco Tax and Trade Bureau) regulations. Once that is accomplished, the label space remaining may be used for branding and marketing copy. The fact is, there is very little space on bottle labels to get creative with messages. Now technology is helping solve the limited space on labels by way of RFID (radio frequency identification/ID) technology. Tap a smartphone on a NFC (Near Field Communications) tag embedded on a bottle and see what comes up on your smartphone; assuming there is currently a tag on the label.

Depending on a winery’s budget and the number of smartphones enabled with RFID tag readers (newer smartphones have built-in reader capability), wine, beer and spirits producers can communicate directly with the consumer while they are standing in front of the bottle or can. These electronic tags can impart information in any format. The information can be audio, a message or automatically opening a website page; the choice is up to the winery or craft beverage company. The most economical tag option is to use NFC tags embedded in a label or a very thin flexible film adhered to a bottle.

This NFC technology has different names such as Smart Labels, Tags, and OpenSense Tags; the moniker I use is “Tap Tags”. Smart Labels (originated in the consumer products industry) are starting to appear on food, personal care and pharma items. Although extremely limited, spirits, beer and wine are recent joiners. In fact, companies using smart label tags are not just the big players in the food and personal care space but are also used by small start-ups. Basically, tags are a means for producers of products to give the consumer more information than is possible to print on a label. But, the benefits of such tags aren’t just in dispensing more information, it is also about branding, loyalty, increased sales, etc.

QR codes have been around for decades. They can do some of the operations a NFC tag can perform but are limited. More on QR code versus NFC follows.

Twenty years ago, I was involved with a gentleman who is an expert integrator of RFID (radio frequency identification/ID) tag technologies for casinos. His patented technology is used today in allowing casinos to authenticate and track their gaming chips within a casino. Ken Smith, writing for Blackjackinfo.com on November 5, 2012 reported that Wynn/Encore Casino’s in Las Vegas starting using chips embedded with RFID tags in 2005. Point being: the level of sophistication offered by “tag” technologies allow companies to communicate with consumers, even before they buy the product.

Decades ago barcodes started allowing companies the means to track inventory, monitor parts and adjust pricing instantly. Then RFID tags came along which expanded the capabilities of product monitoring passively and actively; reading and writing information to a RFID tag. Depending on the capabilities of an RFID tag, information can not only be read from a tag, but that tag can also be written to; adding more/different/updated information on the tag. We don’t want to forget the QR (Quick Response Code) that most smart phones can read optically and provide an on-screen response via a link to a landing page. The QR code, invented in 1994 has a similar application as the barcode. Smartphones today come with QR reading capabilities and more recently antenna to communicate with NFC tags.

A derivative of RFID technology that is gaining acceptance rapidly is the NFC tag. A strong proponent of NFC technology is coming from Grocery Manufacturers Association and the Food Marketing Institute-the SmartLabel™ group. They formed an alliance called Trade Partners Alliance to explore ways to be transparent with quick, reliable, actionable, in-depth product information for the consumer. One of their applications involves NFC tags which takes the consumer, via their smartphone, to a navigational landing page. All the consumer is required to do is tap their smartphone on the NFC tag on the product packaging.

Noted previously, most product packaging has limited space for details. The real estate available on a printed wine label may not be enough to provide a plethora of information options various consumers are interested in and/or need. Solution: why not make it possible for a consumer to tap their smartphone against a “tap tag” on a product and instantly be taken to a URL/website/landing page that allows the producer to communicate (in print, video or audio) with a potential customer concerning the product. An adage I hear a lot: You can do anything with enough time and money. Same adage applies to NFC technology. For our discussion I am taking the quickest and most creatively flexible approach to new label technologies; the NFC tag, while not totally forgetting QR codes.

This brings us to the “here and now” concerning new technologies that allow producers of wine, spirits and beer to communicate directly with their customer. I am talking about NFC (Near Field Communications), a technology application already being explored by Diageo, Coronado Brewing, and a winemaker in Spain (Barbadillo Wines). In December 2017 Astral Tequila will feature NFC technologies to promote in-store consumer interactions. It has been reported by one integrator/manufacturer of NFC applications, an alcohol product company realized a 30% increase in conversion rates when testing their foray into NFC label tags. Yes, NFC is part of many label options that can be very transparent to the consumer.

A NFC type smart label is actually a RFID tag that is about as thin as 3 sheets of printer paper or.0002 inches. When labels, with embedded NFC tags, are tapped by a NFC enabled smartphone, the phone receives pre-programmed information. For example, the user may be directed to a predetermined site. The website/landing page the consumer is directed to can be designed as a winery, brewer or distillery deems appropriate. The information in the NFC tag can be approximately 7K in size. Again, larger and more capable RFID tags can offer greater capabilities and much more capabilities, but at more expense and involved integration.

One manufacturer of this technology that demonstrated the NFC options for me was Metal Craft. “The options for NFC to communicate with customers in the beverage industry is mind boggling,” said Austin Elling, Marketing Manager-Metal Craft. “Here are some examples of what can be programmed into one of our NFC tags: vCard to import data into the address book, URL to open a given web address, plain text to display simple messages on a smartphone, telephone numbers to initiate a call, geo location to open a specific destination,” says Elling. “For alcoholic beverage business, my experience says that branding and creating direct communications with a customer is in the NFC sweet-spot. A winery may decide to use NFC capabilities for a loyalty program, announcements, promotional trials, initial trials, wine clubs, etc.”

Digressing for a moment. Recently, Anheuser-Busch launched a new Tequila flavored beer branded as Oculto Beer. The label on the beer was embedded with a tag and battery that lit up the eyes on the skull logo on the label. They positioned the switch where most people would gab the bottle. Obviously, it was creative and very expensive. Unfortunately, consumers bought the beer for the novelty of the label technology; consumers did not like the Tequila flavor and it failed.

Relatively inexpensive, NFC tags can only be read at extremely close range, which is why the label area containing the tag needs to be tapped with the enabled smartphone. Some more expensive and capable RFID tags can have a read/write range of approximately 200 feet. However, at approximately $0.10 each, NFC tags are affordable. The price however does not include set-up costs and integration with the back-end landing page. Nathan Chandler writing in “How Stuff Works” reports, “Memory capacity and speed dictate tag cost, which is a critical consideration for companies that want to spread information far and wide through smart posters or flyers… labels. Right now, tags cost around 30 cents apiece even in bulk, but the price should continue to drop until they’re only a few pennies each [source: NFC Rumors].”

Why would a winery, craft brewery or craft spirits company invest in a new label endeavor? Here are some immediate marketing applications that come to mind:

· Protect the integrity of their brands

· Build a comprehensive loyalty program and brand awareness

· Source for consumers to obtain product reviews

· Detailed product information-tasting notes, retail locations, AVA’s, information about winemaker, DtC (Direct to Consumer) pricing

· E-commerce centric efforts

· Customer surveys

· Encourage wine club and newsletter sign-ups

Coronado Brewing in Coronado, CA found consumers were intrigued with their use of NFC technology (tap tags) embedded in their coasters; “consumers were keeping the coasters to show friends,” reported Coronado Brewing’s Marketing Dept. press release. Coasters are a unique use of NFC tags, because the craft beer industry is all about building brand trials, positioning the beer as being handcrafted and artisanal, and explaining quality. The coaster application certainly achieved the greater objectives. Coronado Brewing know they must be real, accessible, authentic, and back it up by delivering the message with and experience of being new. Once a brand wins loyalty, the brand wins, states the company’s marketing material.

Coronado Brewing tested the NFC tag concept with ThinFilm of San Jose, CA and concluded: “A brand can do the following without the interference of search engines or social media platforms: Communicate directly with the consumer; provide a unique digital experience; and, surprise and delight customers on their terms,” commented Bill Cummings, Senior Vice President-ThinFilms Electronics ASA.

Barbadillo Wines, using ThinFilm NFC tags promoted a contest for consumers on their website form NFC generated visits, by using a series of uniquely generated entry numbers printed on each cork. Basically, they were promoting wine sales at the retail level and at home when the wine was opened. “With SpeedTap (ThinFilm brand name) tags applied, consumers are able to interact instantly with products and the brand by tapping the product tag with their smartphones (no app required). The tap launches the brand’s customized landing page video or other digital asset on the smartphone,” said Cummings. “The ThinFilm application was not on the label, although it could have been, but rather on a bottleneck collar.”

Immediate benefits of the ThinFilm effort was a 10-fold increase in traffic versus social media and a 2.8x increase in average time spent on the site. Further, Barbadillo sold significantly more wine.

In the alcohol related product business, the TTB dictates the requirement of wine labels and it is a rather complex approval process to get a label designed that meets TTB requirements. That fact notwithstanding, there is important information, to me, not currently on a wine label that I would appreciate, especially when I look for a new wine.

From a nice-to-know vantage point there are other bits of information I would find interesting that would probably push me to become a brand loyalist. Looking at a 3.5-inch diameter bottle, it simply doesn’t lend itself to a great deal of copy about the product; small print doesn’t work for me because I always forget to wear glasses. NFC could come to my rescue when looking for more information about a wine.

Here is a potential scenario to illustrate my point.

Assume you walk into your favorite wine store to look for a nice wine as a hostess gift and you are interested in getting more information about the wine than is on the label; such information as suggested food pairings, information about the winemaker, past wine awards, how big is the winery, comments about the wine from other consumers. This is important information you might like before you buy the wine. Maybe it isn’t information that is life-saving, but it certainly would be nice-to-know. Further, I would probably become a loyal customer and maybe join their wine club.

Today what are my options to get ancillary information? I have long learned that large discount retailers are not a reliable source of information. Maybe you come home and do some research on-line. But there is an easy way to get more information. The easiest, and most economical would be the NFC tag on the bottle; the label or a stick-on tag would allow the consumer to tap their smartphone on the bottle. Once the consumer taps the NFC tag their smartphone would pull up a website where all ancillary information about the wine would be available instantly. The information format can be anything.

Any winery or consumer can easily experiment with NFC tags. In fact, by going to Amazon you can find many manufacturers who will sell 6 NFC tags for $8.00. These are thin flexible tags about 1-inch square, although NFC tags can come in various sizes. Then go to YouTube and learn the easy task of writing (programming) to the tag. As a consumer you will start to wonder why the wine, beer and distillery industry isn’t running to this technology for their new labels.

Before rushing into this technology wineries need to understand that there are back-end costs associated with finding the best alternative to integrating the NFC technology into labels. Then there is the issue setting up the tag with the information desired to be on the tag. Then there is the issue of integrating the tag, customer and product interface.

Thus far we have explored NFC tags in general, highlighting myriad applications for the wine, spirits and beer industries and have mentioned QR codes. It is important to understand, there are similarities between NFC technologies and the ubiquitous QR code. Any smartphone with a camera and a QR reader app can retrieve information from this code. NFC is the newest label technology to retrieve information via programmed coding. Google and Apple use NFC technologies for their payment systems. Most smartphones currently produced are equipped with NFC tag readers.

To use a QR code, a business decides what they want the QR code to link to and uses a computer program to generate the image.

Anyone can generate a QR code for free. I have generated 2 QR symbols, one for my vCard and another was another that was a graphic image and text about Image of Wine, LLC. These were relatively simple to generate; just fill in an on-line form. After generating one QR code I needed to change an e-mail address and phone number. The problem was that I had already printed a new brochure and business cards with the now obsolete QR code. I had to re-order all the promotional material.

After experimenting with NXT’s NFC tag’s, I found I could re-program the tag with my smartphone; granted it was only one tag.

A static image of the code must be printed on advertising or product packaging. AS I found out, if anything changes about the product or information, a new QR code must be generated and printed on new material and old materials must be removed from the market. Further, QR codes are read by a smartphone camera and the success of reading a code can be contingent on ambient lighting, quality of image, colors used and the camera itself. One good thing about QR codes, they can be generated for free and NFC tags require creating a design and encode the tag. In the end NFC tags are more reliable and versatile than QR codes. For large volume information both options require a landing page.

QR codes can take a consumer to specific information on a website and provide static information; however, the security and convenience of a QR code is not equal to that of NFC tags. Further, information directly retrieved from the QR label really depends on the size of the QR image; the larger the image the more information. NFC tags do not need to be visible to work.

If customization is going to be an issue with bottles of wine, a QR code must be visible for scanning and the colors used must be dark enough for the smartphone camera to read. Further the consumer must open a QR code reader to scan the image. Conversely, NFC tags offer complete freedom of design options because the tag can be hidden and not compromise the integrity of the label image/branding.

In 2015 Mr. Tony Rosati of Trust Point Innovations wrote about QR code and NFC tags. He said, “NFC tags are more expensive (on the order of $0.10) than printed QR codes printed on a label. The verdict: QR codes could be replaced with the more convenient NFC tags; however, there is an additional cost. It is reasonable to assume that product manufacturers would want to take advantage of consumer convenience and security.” Further, “NFC tags are really easy to use – just tap the tag. No special application to open, it’s built into the smartphone, and NFC tags are much more secure than QR codes.”

The intent in this article is to explain a new technology the alcohol industry should be exploring as NFC technology is becoming mainstream; it is a relevant marketing tool embraced by today’s consumers.

Consumers seem to love technology when it really can work for them. That same thought is transferrable to the winery, distillery and brewer. With all the conversations surrounding labels in the wine business, consumers must wonder, why not NFC tags-convenient, quick, flexible, leading edge method to distribute information and build loyalty.

History of Educational Technology

There is no written evidence which can tell us exactly who has coined the phrase educational technology. Different educationists, scientists and philosophers at different time intervals have put forwarded different definitions of Educational Technology. Educational technology is a multifaceted and integrated process involving people, procedure, ideas, devices, and organization, where technology from different fields of science is borrowed as per the need and requirement of education for implementing, evaluating, and managing solutions to those problems involved in all aspects of human learning.

Educational technology, broadly speaking, has passed through five stages.

The first stage of educational technology is coupled with the use of aids like charts, maps, symbols, models, specimens and concrete materials. The term educational technology was used as synonyms to audio-visual aids.

The second stage of educational technology is associated with the ‘electronic revolution’ with the introduction and establishment of sophisticated hardware and software. Use of various audio-visual aids like projector, magic lanterns, tape-recorder, radio and television brought a revolutionary change in the educational scenario. Accordingly, educational technology concept was taken in terms of these sophisticated instruments and equipments for effective presentation of instructional materials.

The third stage of educational technology is linked with the development of mass media which in turn led to ‘communication revolution’ for instructional purposes. Computer-assisted Instruction (CAI) used for education since 1950s also became popular during this era.

The fourth stage of educational technology is discernible by the individualized process of instruction. The invention of programmed learning and programmed instruction provided a new dimension to educational technology. A system of self-learning based on self-instructional materials and teaching machines emerged.

The latest concept of educational technology is influenced by the concept of system engineering or system approach which focuses on language laboratories, teaching machines, programmed instruction, multimedia technologies and the use of the computer in instruction. According to it, educational technology is a systematic way of designing, carrying out and evaluating the total process of teaching and learning in terms of specific objectives based on research.

Educational technology during the Stone Age, the Bronze Age, and the Iron Age
Educational technology, despite the uncertainty of the origin of the term, can be traced back to the time of the three-age system periodization of human prehistory; namely the Stone Age, the Bronze Age, and the Iron Age.

Duringthe Stone Age, ignition of fire by rubbing stones, manufacture of various handmade weapon and utensils from stones and clothing practice were some of the simple technological developments of utmost importance. A fraction of Stone Age people developed ocean-worthy outrigger canoe ship technology to migrate from one place to another across the Ocean, by which they developed their first informal education of knowledge of the ocean currents, weather conditions, sailing practice, astronavigation, and star maps. During the later Stone Age period (Neolithic period),for agricultural practice, polished stone tools were made from a variety of hard rocks largely by digging underground tunnels, which can be considered as the first steps in mining technology. The polished axes were so effective that even after appearance of bronze and iron; people used it for clearing forest and the establishment of crop farming.

Although Stone Age cultures left no written records, but archaeological evidences proved their shift from nomadic life to agricultural settlement. Ancient tools conserved in different museums, cave paintings like Altamira Cave in Spain, and other prehistoric art, such as the Venus of Willendorf, Mother Goddess from Laussel, France etc. are some of the evidences in favour of their cultures.

Neolithic Revolution of Stone Age resulted into the appearance of Bronze Age with development of agriculture, animal domestication, and the adoption of permanent settlements. For these practices Bronze Age people further developed metal smelting, with copper and later bronze, an alloy of tin and copper, being the materials of their choice.

The Iron Age people replaced bronze and developed the knowledge of iron smelting technology to lower the cost of living since iron utensils were stronger and cheaper than bronze equivalents. In many Eurasian cultures, the Iron Age was the last period before the development of written scripts.

Educational technology during the period of Ancient civilizations
According to Paul Saettler, 2004, Educational technology can be traced back to the time when tribal priests systematized bodies of knowledge and ancient cultures invented pictographs or sign writing to record and transmit information. In every stage of human civilization, one can find an instructional technique or set of procedures intended to implement a particular culture which were also supported by number of investigations and evidences. The more advanced the culture, the more complex became the technology of instruction designed to reflect particular ways of individual and social behaviour intended to run an educated society. Over centuries, each significant shift in educational values, goals or objectives led to diverse technologies of instruction.

The greatest advances in technology and engineering came with the rise of the ancient civilizations. These advances stimulated and educated other societies in the world to adopt new ways of living and governance.

The Indus Valley Civilization was an early Bronze Age civilization which was located in the northwestern region of the Indian Subcontinent. The civilization was primarily flourished around the Indus River basin of the Indus and the Punjab region, extending upto the Ghaggar-Hakra River valley and the Ganges-Yamuna Doab, (most of the part is under today’s Pakistan and the western states of modern-day India as well as some part of the civilization extending upto southeastern Afghanistan, and the easternmost part of Balochistan, Iran).

There is a long term controversy to be sure about the language that the Harappan people spoke. It is assumed that their writing was at least seems to be or a pictographic script. The script appears to have had about 400 basic signs, with lots of variations. People write their script with the direction generally from right to left. Most of the writing was found on seals and sealings which were probably used in trade and official & administrative work.

Harappan people had the knowledge of the measuring tools of length, mass, and time. They were the first in the world to develop a system of uniform weights and measures.

In a study carried out by P. N. Rao et al. in 2009, published in Science, computer scientists found that the Indus script’s pattern is closer to that of spoken words, which supported the proposed hypothesis that it codes for an as-yet-unknown language.

According to the Chinese Civilization, some of the major techno-offerings from China include paper, early seismological detectors, toilet paper, matches, iron plough, the multi-tube seed drill, the suspension bridge, the wheelbarrow, the parachute, natural gas as fuel, the magnetic compass, the raised-relief map, the blast furnace, the propeller, the crossbow, the South Pointing Chariot, and gun powder. With the invent of paper they have given their first step towards developments of educational technology by further culturing different handmade products of paper as means of visual aids.

Ancient Egyptian language was at one point one of the longest surviving and used languages in the world. Their script was made up of pictures of the real things like birds, animals, different tools, etc. These pictures are popularly called hieroglyph. Their language was made up of above 500 hieroglyphs which are known as hieroglyphics. On the stone monuments or tombs which were discovered and rescued latter on provides the evidence of existence of many forms of artistic hieroglyphics in ancient Egypt.

Educational technology during Medieval and Modern Period
Paper and the pulp papermaking process which was developed in China during the early 2nd century AD, was carried to the Middle East and was spread to Mediterranean by the Muslim conquests. Evidences support that a paper mill was also established in Sicily in the 12th century. The discovery of spinning wheel increased the productivity of thread making process to a great extent and when Lynn White added the spinning wheel with increasing supply of rags, this led to the production of cheap paper, which was a prime factor in the development of printing technology.

The invention of the printing press was taken place in approximately 1450 AD, by Johannes Gutenburg, a German inventor. The invention of printing press was a prime developmental factor in the history of educational technology to convey the instruction as per the need of the complex and advanced-technology cultured society.

In the pre-industrial phases, while industry was simply the handwork at artisan level, the instructional processes were relied heavily upon simple things like the slate, the horn book, the blackboard, and chalk. It was limited to a single text book with a few illustrations. Educational technology was considered synonymous to simple aids like charts and pictures.

The year 1873 may be considered a landmark in the early history of technology of education or audio-visual education. An exhibition was held in Vienna at international level in which an American school won the admiration of the educators for the exhibition of maps, charts, textbooks and other equipments.

Maria Montessori (1870-1952), internationally renowned child educator and the originator of Montessori Method exerted a dynamic impact on educational technology through her development of graded materials designed to provide for the proper sequencing of subject matter for each individual learner. Modern educational technology suggests many extension of Montessori’s idea of prepared child centered environment.

In1833, Charles Babbage’s design of a general purpose computing device laid the foundation of the modern computer and in 1943, the first computing machine as per hi design was constructed by International Business Machines Corporation in USA. The Computer Assisted instruction (CAI) in which the computer functions essentially as a tutor as well as the Talking Type writer was developed by O.K. Moore in 1966. Since 1974, computers are interestingly used in education in schools, colleges and universities.

In the beginning of the 19th century, there were noteworthy changes in the field of education. British Broadcasting Corporation (BBC), right from its start of school broadcasts in 1920 had maintained rapid pace in making sound contribution to formal education. In the USA, by 1952, 20 states had the provision for educational broadcasting. Parallel to this time about 98% of the schools in United Kingdom were equipped with radios and there were regular daily programmes.

Sidney L. Pressey, a psychologist of Ohio state university developed a self-teaching machine called ‘Drum Tutor’ in 1920. Professor Skinner, however, in his famous article ‘Science of Learning and art of Teaching’ published in 1945 pleaded for the application of the knowledge derived from behavioral psychology to classroom procedures and suggested automated teaching devices as means of doing so.

Although the first practical use of Regular television broadcasts was in Germany in 1929 and in 1936 the Olympic Games in Berlin were broadcasted through television stations in Berlin, Open circuit television began to be used primarily for broadcasting programmes for entertainment in 1950. Since 1960, television is used for educational purposes.

In 1950, Brynmor, in England, used educational technological steps for the first time. It is to be cared that in 1960, as a result of industrial revolution in America and Russia, other countries also started progressing in the filed of educational technology. In this way, the beginning of educational technology took place in 1960 from America and Russia and now it has reached England, Europe and India.

During the time of around 1950s, new technocracy was turning it attraction to educations when there was a steep shortage of teachers in America and therefore an urgent need of educational technology was felt. Dr. Alvin C. Eurich and a little later his associate, Dr. Alexander J. Stoddard introduced mass production technology in America.

Team teaching had its origin in America in the mid of 1950′s and was first started in the year 1955 at Harvard University as a part of internship plan.

In the year 1956, Benjamin Bloom from USA introduced the taxonomy of educational objectives through his publication, “The Taxonomy of Educational Objectives, The Classification of Educational Goals, Handbook I: Cognitive Domain”.

In 1961, Micro teaching technique was first adopted by Dwight W. Allen and his co-workers at Stanford University in USA.

Electronics is the main technology being developed in the beginning of 21st century. Broadband Internet access became popular and occupied almost all the important offices and educational places and even in common places in developed countries with the advantage of connecting home computers with music libraries and mobile phones.

Today’s classroom is more likely to be a technology lab, a room with rows of students using internet connected or Wi-Fi enabled laptops, palmtops, notepad, or perhaps students are attending a video conferencing or virtual classroom or may have been listening to a podcast or taking in a video lecture. Rapid technological changes in the field of educational have created new ways to teach and to learn. Technological changes also motivated the teachers to access a variety of information on a global scale via the Internet, to enhance their lessons as well as to make them competent professional in their area of concern. At the same time, students can utilize vast resources of the Internet to enrich their learning experience to cope up with changing trend of the society. Now a days students as well teachers are attending seminars, conferences, workshops at national and international level by using the multimedia techno-resources like PowerPoint and even they pursue a variety of important courses of their choice in distance mode via online learning ways. Online learning facility has opened infinite number of doors of opportunities for today’s learner to make their life happier than ever before.