Machine Vision (MV) technology integrates imaging components and electronics into computerized analysis and control systems to identify, measure, sort and inspect components as they proceed through an automated process.

The advances in MV technology including smart cameras and vision-guided robotics have increased the scope of the MV market through wider applications in manufacturing and nonmanufacturing sectors. MV is now used to ensure the quality of products from tiny computer chips to massive space vehicles as well as in major security applications and traffic and crowd-control applications. Today, MV has become a vital and effective automation tool that enables computers to replace human vision in many high-speed and high-precision manufacturing and nonmanufacturing applications.

The MV industry is peculiar in nature as many of the components are manufactured in one location, assembled at another which may be in a different country, and finally assembled at another location in yet another country. For example, most of the cameras and optics needed for the MV industry are manufactured in Germany and Japan but are then exported to North America for conversion into an MV system. Finally, they may be sent to China or India for ultimate production.

According to BCC’s published report, Global Markets for Machine Vision Technologies, the global market for machine vision (MV) system components was nearly $13.5 billion in 2012, and is expected to grow to $15.2 billion in 2014. The market is expected to further increase at a compound annual growth rate (CAGR) of 9% the following five years starting from 2014 reaching nearly $23.5 billion in 2019.

This report looks at the application market for MV systems and the competition involved in this ever-expanding field. The report also studies the global market for the various components and different systems that constitute an MV system. The market for these components and systems has become very competitive, and this report will look into the nature of the competition and the regional breakdown of these markets.This study provides important information on the current size and anticipated growth of the overall market and its market segments, characteristics of the market, leading suppliers, trends in customer preference, and geographic market opportunities.

This report will be useful for manufacturers of MV systems and components, systems integrators, design and application engineers, various industries and agencies needing MV systems, traffic and transport planners and security system planners.

For more information about this report, call (781) 489-7301, send an e-mail to , or click here to purchase the report.

The agencies which are responsible for deploying new technologies to deal with heavy workloads have to look for latest inventions everyday to carry on their work smoothly. Their main headache is handling with big data, high performance computing and video analytics. FlexPod Select is specially designed to support huge workload. Flex Pod Select with Hadoop is the first set of reference designs which are preconfigured, validated solutions which is a rare combination of storage, networking and servers. The integration with Hadoop provides an open framework which is capable of processing huge amounts of data. The main target is to meet the requirements of dealing with huge data. This finds application in both government and private sector. Financial services, retail manufacturing and other markets are easily able to deploy this technology and can be kept on upgrading, as the size of the company grows.

The components of FlexPod Select components include NetApp E-Series and FAS storage systems, Cisco Unified Computing System servers and fabric interconnect and Cisco Nexus fabric extender. It is better to combine the NetApp with Cisco for infrastructural support and Clodera or Hortonworks for Hadoop support. This gives access to the users to technical support on all interoperable technologies. With the use of Cisco and NetApp the Flex pod services are expanding further to make the infrastructure in the data center more responsive to the ever changing uses of applications within organizations. New designs and capabilities are offered across the entire portfolio. The companies have also highlighted the invention of the Datacenter with SnapProtect to provide a wide-ranging disk-to-disk-to-tape backup and recovery solution. The Datacenter is a pre-validated solution, which has in store the combination of storage, networking and server components and can integrate them into a single flexible architecture, specially designed for huge workloads. The speed is fast and sometimes is even applicable for critical business applications. The costs are reduced and risk is minimized. Increased flexibility can also be achieved with the help of this technology. The greatest application of this technology is to deal with a variety of workloads in both virtualized and non-virtualized environments. The new Express technology is specially designed for medium organizations.

The management of FlexPod is very simple with the help of best element managers, combination of some of the most reliable partners and virtualization management console. Cisco Unified Computing System Manager tools helps in the optimization of multivendor environment. On Command software controls and helps in the automation of the data storage infrastructure. They also provide embedded management of the servers and the network components. Numerous resources for many virtual machines can be managed.

OLED is a new technology that can make thin, efficient and bright displays. OLEDs are made from organic light-emitting materials, and OLEDs do not require any backlight and filtering systems that are used in LCDs. So OLEDs are more simple to make and actually can be made flexible and transparent as well. OLEDs are also very efficient, and companies are working towards OLED lighting – an OLED “lightbulb” will be efficient and thin, opening the way for great new lighting designs.

There are two types of OLEDs used in displays – PMOLED and AMOLED. The difference is in the driving electronics – it can be either Passive Matrix (PM) or Active Matrix (AM).

With Passive-Matrix OLEDs, the display is controlled by switching on rows and columns. When you turn on row number x and column number y, the pixel at the intersection is lit – and emits light. Each time you can choose just one pixel to light. So you have to turn these on and off very quickly. You do so in a certain sequence, and create the desired image. This is somewhat like the interlace-system used in old CRTs, but the control is done pixel-by-pixel.

PMOLEDs are very easy and cheap to build, but they are limited to small sizes (up to 3″, typically). The image displaying is a bit complicated (because of the row/column method). Also the power consumption is not as good as AMOLEDs.

AMOLEDs have a different driver electronics – each pixel is controlled directly. AMOLEDs are more expensive, and much more difficult to create, but can be used for larger displays (current prototypes are up to 40″) and are very power efficient.

The first OLED products in the market used PMOLEDs – these were MP3 players, sub-displays on cellphones and radio decks for automobiles. The displays were small and usually with just one or two colors. When AMOLED panels started to emerge in 2007 and 2008 we have seen these larger displays in mobile video players, digital cameras, mobile phones main displays and even OLED TVs.

PMOLEDs are still very popular – there are more MP3 player sold today with PMOLED than with LCDs. But for larger displays, AMOLED is the best technology, and is growing much more quickly than PMOLED displays. Obviously for larger displays, such as TV, laptop monitors or PDAs, AMOLED is the only choice.

Today there are several companies that are working on technologies that actually close the gap between PMOLEDs and AMOLEDs – offering a sort of hybrid system. The promise is that these displays will be both easy to make and allow power efficient larger displays. We still have to wait and see whether these technologies actually work on commercial displays. One such technology is Dialog’s SmartXtend.

If you want to get a BS degree in computer science, you will need to complete approximately four years of schoolingthe same as for any bachelors degree. There are different types of schools that offer these computer degrees, ranging from online schools to technical schools to traditional campus-based universities. Whether you choose a traditional four-year college or an alternative program, your information technology coursework will include most of the same materials.

If you want to get a BS degree in computer science, you will need to complete approximately four years of schoolingthe same as for any bachelors degree. There are different types of schools that offer these computer degrees, ranging from online schools to technical schools to traditional campus-based universities. Whether you choose a traditional four-year college or an alternative program, your information technology coursework will include most of the same materials.

When you begin a computer science program, the first semester or two will be spent on the basic introductory courses. This might include computer history, basic terminology, and some other science-related course like calculus and chemistry. This is the point that students often decide which direction they want to take their computer science degree, which could range from programming to networking to computer repair and building. Programming is probably the most popular choice these days, though.

Once you have finished the basic courses and decide on the area you want to specialize in, you can start taking more specific courses. If you want to go into programming, for example, you can start taking fundamental courses in BASIC, FORTRAN and COBOL before more advanced courses on topics such as programming languages like C++ and PASCAL. Or, if you want to go into networking, you will begin taking courses that concentrate on networking systems like Novell and Microsoft Networks.

In most cases, a bachelors degree in computer science or information will involve some sort of final project. The computer and information technology program curriculum may vary from one school to the next, however, and it will also vary greatly depending on the degree you are going after. If you are getting a certificate or an associates degree, you might just focus on one very specific area or get a more basic overview of things. And, if you are getting a masters degree, the learning will be much more in-depth for your specific area of specialization. You can learn more about the program curriculum at various schools by visiting their web sites or speaking to a counselor there.

Find the perfect Computer And Information Technology School today and start your path to a rewarding career.

Over the years, the technology used to calculate car insurance premiums has changed dramatically. Actuaries used to figure out premium levels by hand using books of statistical data. Later, adding machines and early computers ground through the numbers. More recently, online forms were invented which allowed you to get a quote online.

After all that time grinding things out, what most insurers and consumers wanted was speed. As a result, the current model for most traditional or mainline insurance companies in Australia consists of just a few questions. With these tiny points of data, a quote is generated based on aggregated consumer averages.

The result is a fast quote, but not a very accurate one. Most people dont notice that they are being treated as averages. They simply pay the quoted amount and pay rate increases even if they are accident free. However, you dont have to settle for this outdated and inaccurate system any more.

While most insurers havent gotten there yet, there are a few car insurance companies that have been pioneering a new way of calculating premiums. This new pricing methodology is based around creating highly detailed risk profiles of potential customers. This allows a calculation of premium that can truly separate high-risk from low risk customers.

There are several winning elements to this methodology. However, for consumers like you, the main benefit is often lower prices. If you are a good driver with a limited number of claims, you can really make home some substantial savings by switching to a company using this in-depth modelling framework to calculate rates for insurance cover.

It can feel a bit strange, especially after years of living with the old speed-is-everything system. Thats not to imply that this method isnt fast, mind you. It simply asks several additional questions about parking locations, length of commute to work, and so on.

As one of the early adopters, you stand to benefit the most. While your friends potter along with outdated insurance policies with off-the-rack premiums, you can have a custom tailored premium that only charges for the real risk you face as a driver and customer. Youll be able to quit subsidizing the behaviours of others through blanket premiums, and get to enjoy the fruits of your own careful behaviour on the road.

This is especially true if you really arent an “average” driver. If you only drive a few days a week, work from home and dont use your car regularly, or are retired and dont drive long distances, you have a dramatically different risk profile than most Australians. Yet you have been paying “average” rates for years, since the old method never inquired about your true habits.

Even if youre not a fan of the new and different, this is a new technology youll want to embrace. The new technology behind this quoting system isnt all flash and sparkle. It truly represents a way to make insurance premiums cheaper for you through more accurate pricing of your insurance cover based on your real risk profile.

The phrase Go Green means different things to different people. Some people have taken this idea and recycle everything they possibly can in order to keep trash out of the landfills. They also realize that not recycling is wasting products that can be reused. Other have taken the phrase and changed all their light bulbs to compact fluorescents in order to save energy. There are other people who have purchases hybrid cars or starting riding bikes to school and work in order to cut down on carbon emissions. There are literally hundreds of different ways to Go Green in our every day lives, and people are finally getting on board with it. Students have even taken up the challenge with their water science fair projects. Some of the latest submissions to these events are water science fair projects with a focus on the philosophy of Go Green.

Water science fair projects are particularly well suited to the environmental movements occurring today. Much of the concern for the environment by governmental and private eco groups is for the health of our water supply. Water science fair projects can focus on many different aspects of this concern. One area is the need for potable water in many areas of the world. What we take for granted that just comes out of the pipes in our homes is a rare commodity in many parts of the world. In developing nations the lack of clean drinking water is on the top of the list, and for good reason. Nothing survives without water. A students water science fair project just may have the answers for this critical life-threatening problem.

Another area the students focus on with their water science fair projects is the negative effect of pollution. This is particularly suited for demonstration purposes at science fairs. While all are familiar with the disastrous effects of ecological tragedies such as oil spills, less is known about the long-term effects of other types of pollution. This is one area a student may explore with their water science fair project. An additional area of concern lately is the health of the fresh water rivers of the world. Students are also taking these larger issues, researching them, and presenting their findings for their water science fair projects.

If you are interested in forensic science technician jobs, and have completed a degree program in forensics (or chemistry or biology with a concentration in forensics, depending on what was available to you), there are a lot of places where you can look to try to find available forensic science technician jobs.

Before starting your job search for forensic science technician jobs, it might be useful for you to go to the US Department of Labor Bureau of Labor Statistics website (www.bls.gov) to find out what type of salary you should expect for different types of positions in different locations.

The American Academy of Forensic Sciences lists forensic science technician jobs on their website at www.aafs.org. There aren’t necessarily a lot of positions posted here at any one time, but it is a good place to start your search.

You can also look for forensic science technician jobs on general job search websites. However, as there are many possible titles for these jobs, you should be sure to search under all the possibilities. These include: Ballistic Expert, Ballistician, Forensic Ballistics Expert, Crime Lab Technician, Crime Laboratory Analyst, Crime Scene Analyst, Crime Scene Investigator, Crime Scene Technician, Crime Specialist, Criminalist, Criminologist, Evidence Technician, Fingerprint Classifier, Fingerprint Expert, Forensic Chemist, Forensic Investigator, Forensic Pathology, Forensic Scientist, Keeler Polygraph Operator, Latent Fingerprint Examiner, Lie Detector Operator, Polygraph Examiner, Polygraph Operator, Ballistic Technician, Evidence Technician, and Forensic Science Technician, among others.

Different forensic science technician jobs focus on different aspects of the job. You might want to concentrate on applying for the forensic science technician jobs which require the skills you have the most experience with, or enjoy the most. If you have a lot of experience with polygraph tests, it might be better to apply for a Polygraph Examiner Position rather than a more general Forensic Science Technician.

According to Payscale.com, if you are just getting started out on your career, you can expect to make a median salary of $30,000 to $40,000 per year or so for forensic science technician jobs. Those with 10 years experience in forensic science technician jobs have a median salary of $64,998 per year, so experience definitely makes a difference in salary for this career.

Working for the federal government is also likely to pay more than working for state and local governments or a university. Location also makes a difference, with those working in some cities making much more than those in other cities. Source : certforensictechnician.com

Curtain walling metal technology refers to a system of curtain walling that is developed and designed by Metal Technology, a reputed name in window and door systems. It is suitable for high rise and low rise applications.

Windows and doors manufactured by curtain walling metal technology are attractive and have clean lines which are capable to enhance all types of office and commercial facades as demanded by modern building technology.

The Metal Technology high rise curtain wall system is designed as a stick system by curtain walling metal technology. This type of design allows mullions and transoms to be transported to site as prepared components and the grid work is assembled onto the building in stick form.

Carefully designed fixing brackets allow the curtain walling to be fixed back to the structure easily and securely so that all loads are transferred back to the buildings main structural form. Expansion joints are allowed on every floor or every other floor to accommodate any building movement by curtain walling metal technology.

In a case where curtain walling is required for low rise developments curtain walling metal technologys system 8 low rise curtain walling is preferred. Being a metal technology, it is obvious that this kind of curtain walling systems are manufacturing is to exacting standards giving economy with required strength, and many years of aesthetic, trouble-free operation.

In order to help flood the buildings with light, curtain walling metal technology has used System 17 high rise curtain wall, along with its Latitude curtain walling, System 8 low rise and System 10 glazed doors.

Metal Technology’s curtain walling systems offer a wide range of caps and profiles that allow the designer to select a profile to meet the design requirements of the project.

For example, curtain walling metal technology offers the Latitude system which particularly gives a strong horizontal focus and is excellent in drawing attention and drama to a glass elevation.

Curtain walling metal technology also can design and supply bespoke profile options giving the architect greater scope in his design.

Metal Technology has a wide retail portfolio with blue chip clients such as Asda, Tecso, Homebase etc in many parts of the UK and Ireland.

You will barely find an important person without essential knowledge on computers in current context. Even in small towns and villages, use of these current tools is on the increase. However, that does not signify that everybody is a specialist in the subject. Computer science is a huge study with plentiful streams under it. Students on the subject may at times find it tough to whole all assignments on programmed time. There comes the require of tuition centers.

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Elizabeth Whelan, President of the American Council on Science and Health (ACSH) posted a great entry on ACSHs Health Facts and Fears blog on the growing attempts by activist groups to convince the EPA to ban atrazine due to cancer claims and other health concerns.

Atrazine is one of the most widely used herbicides in the world. It helps farmers fight weeds on corn, sugar cane and other crops, leading to dramatic increases in crop yields. Without it, our food supply would be in jeopardy. Activists want the public to believe that atrazine causes cancer and birth defects, but its simply not true. Whelan writes:

“Atrazines health and safety record is stellar. The Safe Drinking Water Act requires monitoring for a multitude of chemicals, including atrazine. Levels of atrazine in U.S. waters are well within the federal lifetime drinking water standard a level containing a 1,000-fold safety buffer. The Environmental Protection Agency in 2006 completed a 12-year review involving 60,000 different studies and concluded that the current use of atrazine poses “no harm” to the general population infants, children and adults. According to this same regulatory agency (which oversees pesticide use) atrazine is “one of the most closely examined pesticides in the marketplace.”

Whelan points out that many activists are not willing to accept this assessment and were able to cast doubts upon the issue with the EPA. As a result, last fall the EPA announced it would initiate a re-re-re-evaluation of atrazine and health. These activists will not be happy until the EPA bans this herbicide, which would then open the door for activists to attack more chemicals, claiming they are unsafe.

Finally, Whelan points to the media for “scaring” the public into thinking that these “chemicals” are unsafe and that the manner in which they are evaluated should be changed:

“Many of the recent media chemical scares, like the two hour “toxic” presentation on CNN, argue that a) there are tens of thousands of “chemicals” out there; and b) the current government policy, assuming these chemicals are safe until contrary evidence was presented, must be reversed so that a chemical is considered hazardous until it is “proven safe.” But how do you prove something to be safe? Its like trying to prove a negative it cant be done. The example of atrazine with decades of safe use, thousands of studies that found no harm to humans and years of getting a green light from EPA (which is not known for understating chemical risks) leaves us with the question: After all these evaluations and years of use, if atrazine doesnt meet the criteria for “safety,” what chemical possibly could?”