BEAUTY OF INFORMATION TECHNOLOGY
IT – NEW PARADIGM
Information technology introduces new ways of participation by the poor men, women and young people, educated and uneducated knowingly and unknowingly in the global economy in cost-effective and poor-friendly ways, thus creating opportunities to address the issue of poverty reduction. Information technology offers the most exciting possibilities for overcoming paucity. This potential will vastly remain unexplored if left to the market forces. Therefore increasing the need to create a regional mechanism such as an Asian Institute of Information Technology for Poverty Reduction which would help in coordinating the existing information technology based systems and experiments, and developing the grounds for replicating the strategies based on information technology for poverty reduction.
Information technology provides remedy to the problem of poverty simply because it presents mankind with a tool for leveraging information and knowledge at a rate and at a level before now unknown. This has implications for not only individuals and communities but for nations. Information technology can be used to search for and transmit local, regional and global best practices in poverty eradication, enhance participation in governance, give voice to the disenfranchised in the society and facilitate new forms of governance, all of which in turn will serve to enhance a country’s potential to make positive strides in poverty eradication related efforts.
The information technology and IT enabled services sector and its role in country’s economic growth, in terms of its contribution to gross domestic product, exports and employment creation has been steadily increasing. There is a great necessity to find ways and means to improve economic conditions for the betterment of all. Eradication of poverty is not by any means a simple or one step process. It takes a long and tedious process to just find ways to make a small change. Total eradication is a long range plan in which shortness in small goals must be involved.
Information technology is concerned with all forms with tools, techniques and technology applied for transmitting, storing, processing and disseminating information. It refers it any combination of equipments and procedures that facilitate the acquisition, creation, retrieval, storage, searching. Usually, information technology is viewed as a synthesis of developments in the field of computer science and the development in telecommunication technology.
The achievements of the Indian information technology industry so far have been quite noted worthy. This is because of technical skills of Indian Software professional and high quality software development coupled with lowest costs. Indian software companies have acquired a worldwide reputation of providing software solutions with cost and quality advantage.
Information Technology industry has witnessed tremendous growth over the past two decades. The pace of technological development in the information technology market, both at the domestic and international levels have been phenomenal. The employment opportunities are expected to be good in the information technology industry as demand for computer-related occupation increase due to rapid advances in computer technology, continuing development of new computer application and the growing significance of information security.
IT workers must continually update and acquire new skills to remain qualified in this dynamic field. They also must posses’ strong problem-solving and analytical skills as well as excellent communication skills because troubleshooting and helping others are such vital aspect of the job.
Laptop Charger Adapter Tips
Laptop Charger Adapter Tips | Quality China Wholesale Electronics store:www.batteryfast.co.uk
According to ComputerWorld.com, a leading source for technology news and information, shipments for purchases of laptops in the first quarter of 2010 grew 43 percent. Each of these purchases includes necessary accessories for the unit to function, including the laptop charger. The charger, or laptop ac adapter as it may also be called, is essential. The most sophisticated laptop is rendered unusable if it cannot be recharged or plugged in.
Take Care of the Cord
Proper use and care of the laptop charger prolongs its lifespan so that replacements and repairs are not necessary. According to PCWorld.com, an online magazine for computer-related concerns, one of the most common problems with laptop use is that the charger’s cord becomes frayed. Since laptops are conveniently brought just about anywhere, the constant plugging and unplugging wears out the cord. Mishandling it, such as leaving it twisted or tugging and jiggling it from the base unit, can produce the same result. This is also true for folding or rolling the cord incorrectly.
Other than being careful with the cord, wear and tear should be brought to the attention of a capable repair center. Neglecting this can lead to other damage, which may also affect the laptop’s battery performance or create a fire hazard, according to PCWorld.
Store the Charger Properly
As with laptops, which are typically placed inside laptop bags or padded envelopes, cords should be stored properly when not in use. The charger must never be exposed to extreme temperatures, such as those on a car’s dashboard in the middle of summer or dead of winter. It must not become wet or be exposed to corrosive chemicals, as these elements can severely damage the charger. The manual for a Belkin Laptop Power Adapter, for example, specifically states that users must avoid these. It also instructs users to avoid placing the charger near heat-sensitive materials.
When not in use, laptop chargers should be kept in the same bag as the laptop. If there isn’t enough space, putting the charger in a convenient cloth pouch or a small box is also an option.
Keep a Backup Charger
When traveling with your laptop frequently, it’s a good idea to get a second charger adapter to avoid wear and tear. Having a back-up charger may also save you the headache of buying one in an unfamiliar place should your first charger adapter become damaged. BraveNewTraveler.com, a daily online travel magazine, recommends packing an extra power source, such as a portable charger adapter, when going on trips with your laptop.
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Growing Your Business Contact List – 10 Reasons Why People Don’t Join Contact Networks
A business contact list is vital to achieve a low cost sales & marketing plan, so it’s quite incredible that many business owners fail to recognise the benefits of business contacts & business social networking. I list 10 reasons why people don’t join contact networks as a network contact.
And so every business contact manager can differentiate between a corporate network & small business networking, & so every new business contact can capitalise on the added value of their contact network.
10 Reasons Why People Don’t Join Contact Networks
1. Most business owners are too lazy to contact network.
2. No perceived need for business social networking.
3. No desire to join small business networking.
4. Many consider the associated costs of joining a corporate network as too restrictive.
5. Many are put off because of the inconvenience of travelling to a network contact venue.
6. Many have a fear of pitching their services or products to other business contacts.
7. Most feel attending a contact network event with 25 business people only allows you to speak to 4 or 5 others. 8. Many exhaust the groups business contact and business opportunities quickly and become bored.
9. Many business people are IT technophobe and get stressed about establishing new business contacts.
10. Most perceive contact networks to be an all time consuming endeavour.
Ask any business contact manager for their response to the above negativity list and he or she will offer you the following information.
1. Most Business Owners Are Too Lazy To Contact Network
Fundamentally all business owners know that business social networking is a cost effective way of generating new business opportunities, but believe that the time it takes to register on line or attend corporate network regional events affects their normal working schedules.
Contemporary networks have made the process of online registration an easy to use facility for every new business contact that can be completed within 5 minutes and gives each business contact a presence immediately. No waiting for a network contact, or business contact manager acceptance. Easy small business networking editing facilities, video support and simple contact network formats take away the ‘laziness’ negative that currently exists.
2. No Perceived Need For Business Social Networking
All business contacts can only benefit from networking if they recognise a benefit in doing so. Many may have tried varying levels of contact networks, but feel that the need to attend does not outweigh the benefits.
Business Contact TIP:
Business Networking provides impressive returns on investment, with one in five SMEs (20%) stating they made more than £10,000 from networking in the past year. Almost half (44%) made more than £1,000. A recent survey revealed that business networking accounted for 79% of all new business sales. (source: infinet.com)
Some modern networks have designed their portfolio of services to ensure that each individual business owner benefits from the ability to network through its online and regional chamber meeting programmes. The structure of some of these networks provides immediate benefits with up to 100 member contacts, £1,000 worth of business consultancy services from preferred partners, on line and regional memberships and local, national and international exposure.
3. No Desire To Join Small Business Networking
Currently the perceived contact network environment created by ‘contact networks, networking clubs and corporate network organisations’ has alienated a number of business contacts who have no desire to join as they feel that the formats and operational content create an arena that is unfamiliar and unfriendly.
I suggest you look for a contact network that has structured their business in a way that creates a friendly, open and honest environment whether it is on line, or at regional meetings.
4. Many Consider The Associated Costs Of Joining A Corporate Network As Too Restrictive The cost of joining either an online or regional business social networking community, for small businesses, can be deemed as excessive compared to the perceived benefits of the network contact. For a new business contact trying to find out how much it costs to join is difficult. Sometimes advance access to information is restricted by the need to actually attend an initial meeting where sales tactics are utilised to get you to join.
A quarter (25%) of small business owners say they spent more than £1000 on networking over the last year, with a further 26% paying between £100 and £499 (source: infinet.com)
5. Many Are Put Off Because Of The Inconvenience Of Travelling To A Network Contact Venue
Every business contact manager I know advises that most regional contact network meetings tend to be held in central points close to the particular region in question. For some small business networking members it is not an issue, but for a number of business contacts it can take up valuable time in travelling to and from business social networking meetings especially if they are held on a weekly basis.
When asked when they prefer to attend such events, 27% said at breakfast, 25% liked evenings, 13% chose lunchtime, and 34% were happy networking anytime of the day (source: infinet.com)
6. Many Have A Fear Of Pitching Their Services Or Products To Other Business Contacts
Our business contact manager states that the ‘pitching’ or ‘promotion’ of your business products or services by any new business contact is deemed to be an acceptable part of your involvement with most small business networking groups. This for some is an easy exercise and a confident business contact ‘pitch’ is certainly a great way of enhancing your corporate network and business opportunities. However a lot of business contacts experience a ‘network contact fear’ of presenting to a room full of strangers. This not only inhibits their ability to endorse their businesses, but is a main reason for not joining a business social networking event in the first place.
7. Most Feel Attending A Contact Network Event With 25 Business People Only Allows You To Speak To 4 Or 5 Others
Current perception of contact networks is that established contact network members ‘stick together’ and are very difficult to interact with. A new business contact tends to only communicate with the new members or with members who are seated in their immediate vicinity.
8. Many Exhaust The Groups Business Contact And Business Opportunities Quickly And Become Bored
A business contact manager advises that the contact network method for business contacts who are good communicators will soon exhaust the small business networking groups business potential and even though you have made initial contact with all network contact members, the benefits of attending every corporate network meeting become less appealing.
‘ I tried a Business Referral group for a while but realised even with 40 people, once I had pitched my wares to them for a few weeks it was all said. Nothing was new anymore’. (Source Teneric Business Forums)
9. Many Business People Are IT Technophobe And Get Stressed About Establishing New Business Contacts
With the business social networking and contact networks growing at an alarming rate, the need for a business contact to have a business presence in both sectors is paramount. Many a new business contact has a website presence that provides an online brochure to potential customers; however the need to network your business via online facilities is still causing problems with business owners. The time and complex online form filling to register and profile your business can be daunting, and for individuals who are not IT literate, sometimes impossible.
10. Most Perceive Contact Networks To Be An All Time Consuming Endeavour
Many a business contact manager will inform you that the combination of an online contact network and a business social networking hard group meeting must be a very time consuming activity for every new business contact.
In reality, any business contact who joins an online corporate network and a small business networking hard group takes up very little time each month. If you adopt a very proactive mind-set with your business contacts then your business can be poised for exponential growth.
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Surveillance, Sterilization and Disinfection of Operation Theatres in the Developing World
SURVEILLANCE AND STERILISATION OF OPERATIon THEATRES
In the Developing World
Dr.T.V.Rao MD – Dr.Chithra.VN MD
In spite of brief stay of patients in the operation theatre (in majority of circumstances), the environment of operation theatre plays a great role in the onset and spread of infection because of a multifactor causation of infection. It is usually necessary to study the epidemiology of infection as a multidisciplinary approach. In resource poor circumstances as in most developing countries, work in isolation and few facilities to make any epidemiological surveys Many believe that routine Microbiological monitoring is most essential but in reality it is not practicable. But every hospital should pay good attention in proper maintenance of air conditioning plants, ventilator systems, and to have greater control on mechanisms and personnel involved in disinfection and sterilization of materials used in the theatres in operative procedures.
Operation theatres should be built with implementation of good civil Engineering standards.
OPERATION THEATRE – DISCIPLINE
1. Only people absolutely needed for an assigned work should be present.
2. People present in theatre should make minimal movements and curtail unnecessary movements in and out of theatres, which will greatly reduce bacterial count.
3. Air borne contamination is usually affected by type of surgery, quality of air which in fact depends on rate of air exchange.
All the persons including the least cadre of employers are partners in infection control and should be aware to comply with infection control regulations
4 Prompt disposal of Theatre waste out of the theatre is of top priority. Any spillage of Body fluids including Blood on the floors is highly hazardous and prompts the rapid multiplication of Nosocomial pathogens in particular Pseudomonas spp
SURVEILLANCE OF OPERATION THEATRE
Role of Microbiological Surveillance
The environments in the operation theatre are dynamic and subject to continuous change. Good infrastructures do not mean a safe environment as human make a greater difference in making the environment unsafe.
Microbiologists should be aware of organisms, sites and populations as surveillance cultures should be chosen carefully to allow meaningful interpretation of results.
Microbiologists should be familiar with the clinical techniques as those normally used for culturing clinical specimens may not yield correct result when applied to environmental specimens.
Sites and cultured reports should not be chosen as etiological sources in the present infections. Culturing unnecessary surface areas causes confusion and meaningful interpretation is lost.
AIR IS THE IMPORTANT SOURCE OF INFECTION
Bacterial counts in operation theatres are influenced by the number of individuals present, ventilation and air flow, the results should be interpreted taking the above facts into consideration.
Surveillance for Air borne Pathogens:
In resource poor Hospitals settle plates with blood agar are used and can detect pathogens, commensals and saprophytic bacteria. Multiple plates are kept and results are based on overall assessment rather than on a single plate study in the room. Microbiologists will clarify the acceptable counts at the different physical locations in multispeciality hospitals.
There is a sea change in analysis of bacterial counts in recent past with advances in medical technologies like Joint replacement surgeries dealing with critical patients. Slit sampler and Air centrifuge equipment for bacterial counts are replacing settle plates, the safe level of colony counts can be calculated as per the standards created with peer reviewed studies by the manufacturers.
How frequently we can do the Surveillance for Air borne Microbes.
Yet there is no definite answer to this question
Doing too frequent surveys are expensive and will not correlate the existing infection rate in the Hospital.
But can indicate the circumstance we operate which can have bearing effect if the safety standards fall
Surveillance for Clostridia spores
The age old tradition of detection of anaerobic spores of C.tetani, and Gas gangrene producing organisms are losing ground with onset of more awareness on theatre sterilization. Routine testing for the Anaerobes is not essential except when there were suspected cases of Tetanus or Gas gangrene attributed to operating in a particular Operation theatre.
But it is ideal to survey the Operation theatres for anaerobes when newly constructed or any remodeling or structural alterations are done. In such situations which will have trust worthy safety of the theatre.
STERILISATION AND DISINFECTION OF OPERATION THEATRES AND CRITICAL CARE AREAS
GENERAL INSTRUCTIONS
1. Keep the floor dry when in use.
2. Use only vacuum cleaners (booming to be forbidden as it will dispense the infected material all around and on the equipments.
3. Chemical disinfection of an operation room floor is probably unnecessary. The bacteria carrying particles already on the floor are unlikely to reach an open wound in sufficient numbers to cause an infection
(Ayliffe et al 1967. Hombroeus et al 1978)
Cleaning alone followed by drying will considerably reduce bacterial population.
4. Wall and Ceilings- Wall and ceiling are rarely contaminated. The numbers of bacteria do not appear to increase even if walls are not cleaned. Frequent cleaning is not necessary and has little influence on bacterial counts. Routine disinfection is therefore unnecessary, but only cleaned when dirty.
ENVIRONMENTAL CLEANING OF OPERATION THEATRES
At the Beginning of the Day
1. Only remove the dust with cloth wetted with clean water. ( Mop theatre furniture lamps, sitting tables, trolley tops, operation tables, procedure tables, Boyle’s apparatus)
Note: Need not use chemicals/disinfectants unless contaminated with blood or body fluids
Between the procedures
Clean operation tables or contaminated surfaces with disinfectant solutions.
1. In case of spillages of blood/ body fluids decontaminate with bleaching solution/ chlorine solution (10% available chlorine)
2. All discard waste in plastic bags (do not accumulate around surgical sites)
3. Do not discard soiled linen and gowns in the operation theatre floor.
At the end of the day
1. Clean all the table tops, sinks, door handles with detergent followed by low level disinfectant.
2. Clean the floors with detergents mixed with warm water.
3. Finally mop with disinfectant like phenol in the concentration of 1 in 10 (low concentrations of phenol will not serve the purpose).
4. Keep the operation theatre dry for the next day’s work
Fumigation
1. Seal the room with adhesive tapes round the edges of the doors/windows and ventilators and apertures.
2 For Each 1000 cu.ft of space place 500ml formaldehyde (40% solution) and 1000ml of water in an electric boiler. Switch on the boiler, leave the room and seal the door.
3. Seal the room for 24 hrs
4. Then open the door and neutralize any residual formaldehyde with ammonia by exposing 250ml of S.G 880 ammonia/ 1Lt of formaldehyde used. (Ref – Mackie and McCartney Practical Medical Microbiology 13th Edition)
5. Fumigation is obsolete in many developed nations in view of toxic nature of Formalin. Too frequent use and inhalation is hazardous
6 Several new safe chemicals are emerging but constrains of economy limit the use and several hours of closure of operation theatres can be curtailed with Fumigation.
THE FOLLOWING PRECAUTIONS HAVE GREATLY REDUCED THE RATES OF INFECTION
1. Every Hospital must constitute Infection control committee to monitor the events in the Hospital, on all matters related to control of Infections.
2. The entry of unnecessary personnel to be restricted into operation theatres as every one contributes to Infection.
3. A thorough washing with warm water and good detergent and carbolisation can bring overall improvement than mere fumigation.
4. Frequent monitoring and training of medical and paramedical staff must carry high priority than mere mechanical and chemical methods.
5. Thorough washing and carbolisation if done everyday after the surgeries will greatly enhance the safety standards and economize the repeated expenditure on fumigation.
TRAINING OF PARAMEDICAL STAFF/ RESIDENTS
1. The short solution to control infection lies with trained staff.
2. The principal and control of infection to all new comers and junior staff should be a goal of any good Institution.
3. Formulate guidelines update as per the changing situation in control the infection.
4. Institute should formulate ideas on infection control to the need of circumstances, as there are no fixed guidelines or formulae to control to suit all occasional.
5. Simple repeated hygienic hand wash is most cost effective method to reduce several infections in Hospitals, in particular operation theatres
Note
The knowledge on Maintenance, Sterilization and control of Infections in Operation theatres a rapidly evolving Science
Wish to know more about Operation theatre Maintenance for control of Infection Read through
Principles, And Practice of Disinfection, Preservation and Sterilization by A.D.Russel, W.B.Hugo & G.A.J Ayliffe.
All Institutes wish to develop to improve hygiene and sterilization standards, and start critical surgeries doing Cardiothoracic, Organ replacement and prosthetic surgeries should subscribe to the internationally accredited Journal
“The Operating Theatre journal” published from U K.
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Home computer to the rescue
Thank goodness for computers, eh?
What a lifesaverâ¦especially when your television packs up just at the wrong moment.
And what moment could be more disastrous than your 32″ TV going kaput three minutes before kick-off of the most important match England has ever played. (Although perhaps the way they are playing EVERY match is the most important match they have ever played!)
All the staff at Eflex Computers had come in to work two early so they could knock off two hours early to watch England take on Slovenia in the crucial, must-win game.
Gary, Paul, Kirstie, and Jan had all decided to go to the pub â but family-man Alex had promised to watch the match with his kids who had also been allowed to go home early (nice to see the education system gets their priorities right sometimes!)
So while Gary and the others were supping beer and nibbling pork scratchings with three minutes to go before kick-off, Alex was busy getting the lemonade, and Pringles together on a tray.
He was in the kitchen signing “Three Lions On A Shirt” quite loudly to himself, when he was interrupted by the sound of his son and daughter screaming:
Dad! Dad! The telly’s gone! The telly’s gone!
Alex rushes in to find a smoking Goodmans smouldering away on the smoke-grey tabletop, and puts his hands to his head in utter dismay.
“Do something, dad,” the kids scream, “do something!”
It was obvious by the wisps of grey emanating from the back of the set that it wasn’t a simple fuse problem.
Okay, says Alex in his calmest voice. There’s only one thing to do â reach for the loft!
What? his kids wail.
The spare TV, of course.
But it’s only a 14″ and anyway, it doesn’t have a scart socket.
Oh yeah, says Alex.
Come on dad, only a minute to go.
What about the PC, says his daughter knowingly. Of course! thinks Alex. Why didn’t I think of that? Because you’re a twit, says his son under his breath, as Alex rushes over to their AMD home computer and it’s glorious 19-inch widescreen monitor, super VGA graphics, and mega fast 160 gig hard drive! Ideal for a family with young children, the AM3 Sempron processor makes it perfect for day-to-day home and office useâ¦and for watching live television streaming!
And within seconds, Alex has got the home computer up and running, just in time to see Wayne Rooney staring at them during the national anthems.
Phew! Say his kids, that was close. And England made sure they got one-step closer to that elusive prize â the World Cup – with a great Jermain Defoe strike, and a much better all-round display, that leaves everyone at Eflex shouting once again: Come On England!
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Information Technology Forum For Today’S Professionals
By making it a part of your routine to visit a good information technology forumyou will soon bridge the gap between computer technologies required for your own use and information deficit you are now currently facing when you are unable to tap your full potential.Many computer users now go online and seek tech help for their computer problems. Visitors in such information technology forums seek computer support ideas and tips.This helps them in their better PC use.
According to many computer technology experts, today there is no comparison of a free online information technology forum as online free source of computer knowhow. Unlike your computer books, you are not isolated from your PC while learning new things about your PC. Such tech help comes right with computer-related articles, tips, and advices that you can directly connect with your PC.
You can keep track of the latest trends in computer technology in a relatively easy way and in less time. You rightly thought that losing rhythm with newer PC-related products and services may make you outdated as a PC user and lose competitive strength when it comes to your professional aspirations.Instead, why not be someone whom your friends and relatives look first for to consult when they have any PC-related query on latest computer-related launches.In this way, you move with time.Being the first mover, you also seize any new business opportunities.
You can also befriend with many information technology professionals visiting such computer forums.They frequently visit such forums as part of their knowledge update. . As a result, you can now  take online help from your skilled information technology expert friend.Visiting a good online information technology forum occasionally will thus help you immensely in your pursuit for a good PC support.
Are you facing any hurdle in designing your online computer related searching strategy due to vast flow of information on internet? One idea that information technology experts who have served as technical support for many years time and again advise is to mark only few good interactive computer technology forums as part of your value addition.
By visiting a good popular online information technology forum, you will never be short of useful tips, ideas, and advices which will help you make better user of your personal computer. At the same time by focusing on few better ones, you will not read wrong or unnecessary repetitive information.
Also, according to tech help experts, subscribe to few good online newsletters and spend some time reading them.Usually, such newsletters are full of valuable information on computer technology ideas and new launches in computer-related products and services. They are classified according to different categories of PC users.If you are a financial executive,you can quickly refer to the section that carries finance-related information and new launches that meet the computer technology needs of todayâs financial executives. You may choose to spend some time with such useful newsletters on your weekends.This may give you some fresh idea to start with.
Today, such free information technology forums are one place where you can know more about what is latest in the world of computers and over all PC maintenance.
CES 2011 News – Laptops Preview
 From processor updates to 3D technology, we give you the lowdown on what to expect for laptops at this year’s Consumer Electronics show.
There’s always big news for laptops during the Consumer Electronics Show, and this year is no different. From processor updates to 3D technology, these are exciting times for the mobile PC market. Read on for what to expect in laptops in the coming year.
In terms of the processor market, it isn’t just another speed bump this year, nor is it about adding more physical cores to the processor die, as with previous years. This year, graphics power is finally riding shotgun with the CPU. Both Intel and AMD will unveil new chips, followed by a sea of laptops that will for the first time feature on-die graphics. The mere fact that the graphics component is that much closer to the CPU means that novice and part-time gamers can actually play the latest 3D titles without having to spend extra money on a midrange graphics chipset from the likes of Nvidia and AMD. It’s a monumental improvement in 3D graphics-related tasks, coupled with big gains in CPU horsepower. Intel’s new chips, codenamed “SandyBridge,” will be revealed as the next generation Core i3, i5, and i7 processors in retail. Meanwhile, AMD refers to its latest APU (CPU and GPU on the same die) as its Fusion technology.
Despite the buzz surrounding SandyBridge and its new and improved graphics platform, Nvidia and AMD aren’t backing down in the discrete graphics race. Their graphics chipset will boast about DirectX 11 and the graphically detailed images that Intel can’t achieve with SandyBridge, which will not support DirectX 11. You’ll see frame rates that will rival ,000 gaming rigs from a year ago while paying a fraction of their costs.
Tablets may have been getting the lion’s share of attention this past year, but don’t put netbooks out to pasture just yet. This coming year, netbooks will continue to charge forward until tablets can prove their staying power. AMD, of all companies, is leading this charge with its APUs, promising an overall performance improvement without sacrificing battery life. They’ll be pitched as low-cost ultraportables, but the target is really the netbook market, which has been owned by the Intel Atom. Intel, of course, is still a big presence in the netbook space, and you’ll see plenty of netbooks that’ll launch with the dual core Atom.
USB 3.0, 3D technology, and 720p Webcamsâget used to these terms, because you’ll be hearing them a lot in relation to laptops. USB 3.0, for instance, is already prevalent in desktop replacement laptops, but you’ll be seeing them in slim form factors like ultraportable laptops as well. It looks exactly like your average USB port, except it’s the icon is blue, and, oh yeah, it delivers 10 times the transfer rate of USB 2.0. It’ll eventually replace eSATA in laptops, since having both of these technologies on board is redundant.
Smartphones like the Apple iPhone 4 can shoot 720p video with its Webcam, so why shouldn’t laptops, with their bigger screens, be able to do the same? We’ve already seen the first 720p Webcam in the Dell XPS 15, and at least a few more laptops will allow users to video chat and shoot videos in high definition.
3D is still more gimmick at this point and even more so in laptops. But that won’t stop the countless manufacturers from launching 3D laptops that come with the fancy eyewear. Glasses-free 3D laptops aren’t out of the question, as Nintendo and Toshiba have already announced 3D technologies that can be viewed with the naked eye. Laptops will announce support for 3D even though their panels can’t display it. If you invested in one of the latest 3DTV flat panels for your living room or office, companies like Nvidia and ATI can push 3D content out of your laptop’s HDMI port to your 3D flat panel. This includes 3D Blu-ray content, games, and even home-made videos and photos (converted to 3D using special video editing packages.
Stay tuned for our moment-to-moment coverage of this year’s Consumer Electronics Show.
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Artificial neural network
Artificial neural network
An , usually called “neural network” (NN), is a mathematical model or computational model that tries to simulate the structure and/or functional aspects of biological neural networks. It consists of an interconnected group of artificial neurons and processes information using a connectionist approach to computation. In most cases an ANN is an adaptive system that changes its structure based on external or internal information that flows through the network during the learning phase. Neural networks are non-linear statistical data modeling tools. They can be used to model complex relationships between inputs and outputs or to find patterns in data.
Background
There is no precise agreed-upon definition among researchers as to what a neural network is, but most would agree that it involves a network of simple processing elements (neurons), which can exhibit complex global behavior, determined by the connections between the processing elements and element parameters. The original inspiration for the technique came from examination of the central nervous system and the neurons (and their axons, dendrites and synapses) which constitute one of its most significant information processing elements (see Neuroscience). In a neural network model, simple nodes (called variously “neurons”, “neurodes”, “PEs” (“processing elements”) or “units”) are connected together to form a network of nodes — hence the term “neural network.” While a neural network does not have to be adaptive per se, its practical use comes with algorithms designed to alter the strength (weights) of the connections in the network to produce a desired signal flow.
These networks are also similar to the biological neural networks in the sense that functions are performed collectively and in parallel by the units, rather than there being a clear delineation of subtasks to which various units are assigned (see also connectionism). Currently, the term Artificial Neural Network (ANN) tends to refer mostly to neural network models employed in statistics, cognitive psychology and artificial intelligence. Neural network models designed with emulation of the central nervous system (CNS) in mind are a subject of theoretical neuroscience (computational neuroscience).
In modern software implementations of artificial neural networks the approach inspired by biology has for the most part been abandoned for a more practical approach based on statistics and signal processing. In some of these systems, neural networks or parts of neural networks (such as artificial neurons) are used as components in larger systems that combine both adaptive and non-adaptive elements. While the more general approach of such adaptive systems is more suitable for real-world problem solving, it has far less to do with the traditional artificial intelligence connectionist models. What they do have in common, however, is the principle of non-linear, distributed, parallel and local processing and adaptation.
Models
Neural network models in artificial intelligence are usually referred to as artificial neural networks (ANNs); these are essentially simple mathematical models defining a function . Each type of ANN model corresponds to a class of such functions.
Employing artificial neural networks
Perhaps the greatest advantage of ANNs is their ability to be used as an arbitrary function approximation mechanism which ‘learns’ from observed data. However, using them is not so straightforward and a relatively good understanding of the underlying theory is essential.
Choice of model: This will depend on the data representation and the application. Overly complex models tend to lead to problems with learning. Learning algorithm: There are numerous tradeoffs between learning algorithms. Almost any algorithm will work well with the correct hyperparameters for training on a particular fixed dataset. However selecting and tuning an algorithm for training on unseen data requires a significant amount of experimentation. Robustness: If the model, cost function and learning algorithm are selected appropriately the resulting ANN can be extremely robust.
With the correct implementation ANNs can be used naturally in online learning and large dataset applications. Their simple implementation and the existence of mostly local dependencies exhibited in the structure allows for fast, parallel implementations in hardware.
Applications
The utility of artificial neural network models lies in the fact that they can be used to infer a function from observations. This is particularly useful in applications where the complexity of the data or task makes the design of such a function by hand impractical.
Real life applications
The tasks to which artificial neural networks are applied tend to fall within the following broad categories:
Function approximation, or regression analysis, including time series prediction, fitness approximation and modeling. Classification, including pattern and sequence recognition, novelty detection and sequential decision making. Data processing, including filtering, clustering, blind source separation and compression. Robotics, including directing manipulators, Computer numerical control.
Application areas include system identification and control (vehicle control, process control), quantum chemistry, game-playing and decision making (backgammon, chess, racing), pattern recognition (radar systems, face identification, object recognition and more), sequence recognition (gesture, speech, handwritten text recognition), medical diagnosis, financial applications (automated trading systems), data mining (or knowledge discovery in databases, “KDD”), visualization and e-mail spam filtering.
Neural network software
is used to simulate, research, develop and apply artificial neural networks, biological neural networks and in some cases a wider array of adaptive systems. See also logistic regression.
Types of neural networks Feedforward neural network
The feedforward neural network was the first and arguably simplest type of artificial neural network devised. In this network, the information moves in only one direction, forward, from the input nodes, through the hidden nodes (if any) and to the output nodes. There are no cycles or loops in the network.
Radial basis function (RBF) network
Radial Basis Functions are powerful techniques for interpolation in multidimensional space. A RBF is a function which has built into a distance criterion with respect to a center. Radial basis functions have been applied in the area of neural networks where they may be used as a replacement for the sigmoidal hidden layer transfer characteristic in Multi-Layer Perceptrons. RBF networks have two layers of processing: In the first, input is mapped onto each RBF in the ‘hidden’ layer. The RBF chosen is usually a Gaussian. In regression problems the output layer is then a linear combination of hidden layer values representing mean predicted output. The interpretation of this output layer value is the same as a regression model in statistics. In classification problems the output layer is typically a sigmoid function of a linear combination of hidden layer values, representing a posterior probability. Performance in both cases is often improved by shrinkage techniques, known as ridge regression in classical statistics and known to correspond to a prior belief in small parameter values (and therefore smooth output functions) in a Bayesian framework.
RBF networks have the advantage of not suffering from local minima in the same way as Multi-Layer Perceptrons. This is because the only parameters that are adjusted in the learning process are the linear mapping from hidden layer to output layer. Linearity ensures that the error surface is quadratic and therefore has a single easily found minimum. In regression problems this can be found in one matrix operation. In classification problems the fixed non-linearity introduced by the sigmoid output function is most efficiently dealt with using iteratively re-weighted least squares.
RBF networks have the disadvantage of requiring good coverage of the input space by radial basis functions. RBF centres are determined with reference to the distribution of the input data, but without reference to the prediction task. As a result, representational resources may be wasted on areas of the input space that are irrelevant to the learning task. A common solution is to associate each data point with its own centre, although this can make the linear system to be solved in the final layer rather large, and requires shrinkage techniques to avoid overfitting.
Associating each input datum with an RBF leads naturally to kernel methods such as Support Vector Machines and Gaussian Processes (the RBF is the kernel function). All three approaches use a non-linear kernel function to project the input data into a space where the learning problem can be solved using a linear model. Like Gaussian Processes, and unlike SVMs, RBF networks are typically trained in a Maximum Likelihood framework by maximizing the probability (minimizing the error) of the data under the model. SVMs take a different approach to avoiding overfitting by maximizing instead a margin. RBF networks are outperformed in most classification applications by SVMs. In regression applications they can be competitive when the dimensionality of the input space is relatively small.
Kohonen self-organizing network
The self-organizing map (SOM) invented by Teuvo Kohonen performs a form of unsupervised learning. A set of artificial neurons learn to map points in an input space to coordinates in an output space. The input space can have different dimensions and topology from the output space, and the SOM will attempt to preserve these.
Recurrent network
Contrary to feedforward networks, recurrent neural networks (RNs) are models with bi-directional data flow. While a feedforward network propagates data linearly from input to output, RNs also propagate data from later processing stages to earlier stages.
Simple recurrent network
A simple recurrent network (SRN) is a variation on the Multi-Layer Perceptron, sometimes called an “Elman network” due to its invention by Jeff Elman. A three-layer network is used, with the addition of a set of “context units” in the input layer. There are connections from the middle (hidden) layer to these context units fixed with a weight of one. At each time step, the input is propagated in a standard feed-forward fashion, and then a learning rule (usually back-propagation) is applied. The fixed back connections result in the context units always maintaining a copy of the previous values of the hidden units (since they propagate over the connections before the learning rule is applied). Thus the network can maintain a sort of state, allowing it to perform such tasks as sequence-prediction that are beyond the power of a standard Multi-Layer Perceptron.
In a fully recurrent network, every neuron receives inputs from every other neuron in the network. These networks are not arranged in layers. Usually only a subset of the neurons receive external inputs in addition to the inputs from all the other neurons, and another disjunct subset of neurons report their output externally as well as sending it to all the neurons. These distinctive inputs and outputs perform the function of the input and output layers of a feed-forward or simple recurrent network, and also join all the other neurons in the recurrent processing.
Hopfield network
The Hopfield network is a recurrent neural network in which all connections are symmetric. Invented by John Hopfield in 1982, this network guarantees that its dynamics will converge. If the connections are trained using Hebbian learning then the Hopfield network can perform as robust content-addressable (or associative) memory, resistant to connection alteration.
Echo state network
The echo state network (ESN) is a recurrent neural network with a sparsely connected random hidden layer. The weights of output neurons are the only part of the network that can change and be learned. ESN are good to (re)produce temporal patterns.
Long short term memory network
The Long short term memory is an artificial neural net structure that unlike traditional RNNs doesn’t have the problem of vanishing gradients. It can therefore use long delays and can handle signals that have a mix of low and high frequency components.
Stochastic neural networks
A stochastic neural network differs from a typical neural network because it introduces random variations into the network. In a probabilistic view of neural networks, such random variations can be viewed as a form of statistical sampling, such as Monte Carlo sampling.
Boltzmann machine
The Boltzmann machine can be thought of as a noisy Hopfield network. Invented by Geoff Hinton and Terry Sejnowski in 1985, the Boltzmann machine is important because it is one of the first neural networks to demonstrate learning of latent variables (hidden units). Boltzmann machine learning was at first slow to simulate, but the contrastive divergence algorithm of Geoff Hinton (circa 2000) allows models such as Boltzmann machines and products of experts to be trained much faster.
Modular neural networks
Biological studies have shown that the human brain functions not as a single massive network, but as a collection of small networks. This realization gave birth to the concept of modular neural networks, in which several small networks cooperate or compete to solve problems.
Committee of machines
A committee of machines (CoM) is a collection of different neural networks that together “vote” on a given example. This generally gives a much better result compared to other neural network models. Because neural networks suffer from local minima, starting with the same architecture and training but using different initial random weights often gives vastly different networks. A CoM tends to stabilize the result.
The CoM is similar to the general machine learning bagging method, except that the necessary variety of machines in the committee is obtained by training from different random starting weights rather than training on different randomly selected subsets of the training data.
Associative neural network (ASNN)
The ASNN is an extension of the committee of machines that goes beyond a simple/weighted average of different models. ASNN represents a combination of an ensemble of feed-forward neural networks and the k-nearest neighbor technique (kNN). It uses the correlation between ensemble responses as a measure of amid the analyzed cases for the kNN. This corrects the bias of the neural network ensemble. An associative neural network has a memory that can coincide with the training set. If new data become available, the network instantly improves its predictive ability and provides data approximation (self-learn the data) without a need to retrain the ensemble. Another important feature of ASNN is the possibility to interpret neural network results by analysis of correlations between data cases in the space of models. The method is demonstrated at www.vcclab.org, where you can either use it online or download it.
Other types of networks
These special networks do not fit in any of the previous categories.
Holographic associative memory
Holographic associative memory represents a family of analog, correlation-based, associative, stimulus-response memories, where information is mapped onto the phase orientation of complex numbers operating.
Instantaneously trained networks
Instantaneously trained neural networks (ITNNs) were inspired by the phenomenon of short-term learning that seems to occur instantaneously. In these networks the weights of the hidden and the output layers are mapped directly from the training vector data. Ordinarily, they work on binary data, but versions for continuous data that require small additional processing are also available.
Spiking neural networks
Spiking neural networks (SNNs) are models which explicitly take into account the timing of inputs. The network input and output are usually represented as series of spikes (delta function or more complex shapes). SNNs have an advantage of being able to process information in the time domain (signals that vary over time). They are often implemented as recurrent networks. SNNs are also a form of pulse computer.
Spiking neural networks with axonal conduction delays exhibit polychronization, and hence could have a very large memory capacity.
Networks of spiking neurons — and the temporal correlations of neural assemblies in such networks — have been used to model figure/ground separation and region linking in the visual system (see, for example, Reitboeck et al.in Haken and Stadler: Synergetics of the Brain. Berlin, 1989).
In June 2005 IBM announced construction of a Blue Gene supercomputer dedicated to the simulation of a large recurrent spiking neural network.
Gerstner and Kistler have a freely available online textbook on Spiking Neuron Models.
Dynamic neural networks
Dynamic neural networks not only deal with nonlinear multivariate behaviour, but also include (learning of) time-dependent behaviour such as various transient phenomena and delay effects.
Cascading neural networks
Cascade-Correlation is an architecture and supervised learning algorithm developed by Scott Fahlman and Christian Lebiere. Instead of just adjusting the weights in a network of fixed topology, Cascade-Correlation begins with a minimal network, then automatically trains and adds new hidden units one by one, creating a multi-layer structure. Once a new hidden unit has been added to the network, its input-side weights are frozen. This unit then becomes a permanent feature-detector in the network, available for producing outputs or for creating other, more complex feature detectors. The Cascade-Correlation architecture has several advantages over existing algorithms: it learns very quickly, the network determines its own size and topology, it retains the structures it has built even if the training set changes, and it requires no back-propagation of error signals through the connections of the network. See: Cascade correlation algorithm.
Neuro-fuzzy networks
A neuro-fuzzy network is a fuzzy inference system in the body of an artificial neural network. Depending on the FIS type, there are several layers that simulate the processes involved in a fuzzy inference like fuzzification, inference, aggregation and defuzzification. Embedding an FIS in a general structure of an ANN has the benefit of using available ANN training methods to find the parameters of a fuzzy system.
Compositional pattern-producing networks
Compositional pattern-producing networks (CPPNs) are a variation of ANNs which differ in their set of activation functions and how they are applied. While typical ANNs often contain only sigmoid functions (and sometimes Gaussian functions), CPPNs can include both types of functions and many others. Furthermore, unlike typical ANNs, CPPNs are applied across the entire space of possible inputs so that they can represent a complete image. Since they are compositions of functions, CPPNs in effect encode images at infinite resolution and can be sampled for a particular display at whatever resolution is optimal.
One-shot associative memory
This type of network can add new patterns without the need for re-training. It is done by creating a specific memory structure, which assigns each new pattern to an orthogonal plane using adjacently connected hierarchical arrays. The network offers real-time pattern recognition and high scalability, it however requires parallel processing and is thus best suited for platforms such as Wireless sensor networks (WSN), Grid computing, and GPGPUs.
Theoretical properties Computational power
The multi-layer perceptron (MLP) is a universal function approximator, as proven by the Cybenko theorem. However, the proof is not constructive regarding the number of neurons required or the settings of the weights.
Work by Hava Siegelmann and Eduardo D. Sontag has provided a proof that a specific recurrent architecture with rational valued weights (as opposed to the commonly used floating point approximations) has the full power of a Universal Turing Machine using a finite number of neurons and standard linear connections. They have further shown that the use of irrational values for weights results in a machine with super-Turing power.
Capacity
Artificial neural network models have a property called ‘capacity’, which roughly corresponds to their ability to model any given function. It is related to the amount of information that can be stored in the network and to the notion of complexity.
Convergence
Nothing can be said in general about convergence since it depends on a number of factors. Firstly, there may exist many local minima. This depends on the cost function and the model. Secondly, the optimization method used might not be guaranteed to converge when far away from a local minimum. Thirdly, for a very large amount of data or parameters, some methods become impractical. In general, it has been found that theoretical guarantees regarding convergence are an unreliable guide to practical application.
Generalisation and statistics
In applications where the goal is to create a system that generalises well in unseen examples, the problem of overtraining has emerged. This arises in overcomplex or overspecified systems when the capacity of the network significantly exceeds the needed free parameters. There are two schools of thought for avoiding this problem: The first is to use cross-validation and similar techniques to check for the presence of overtraining and optimally select hyperparameters such as to minimize the generalisation error. The second is to use some form of regularisation. This is a concept that emerges naturally in a probabilistic (Bayesian) framework, where the regularisation can be performed by selecting a larger prior probability over simpler models; but also in statistical learning theory, where the goal is to minimize over two quantities: the ‘empirical risk’ and the ‘structural risk’, which roughly correspond to the error over the training set and the predicted error in unseen data due to overfitting.
Confidence analysis of a neural network
Supervised neural networks that use an MSE cost function can use formal statistical methods to determine the confidence of the trained model. The MSE on a validation set can be used as an estimate for variance. This value can then be used to calculate the confidence interval of the output of the network, assuming a normal distribution. A confidence analysis made this way is statistically valid as long as the output probability distribution stays the same and the network is not modified.
By assigning a softmax activation function on the output layer of the neural network (or a softmax component in a component-based neural network) for categorical target variables, the outputs can be interpreted as posterior probabilities. This is very useful in classification as it gives a certainty measure on classifications.
The softmax activation function:
How Net Operating Income is Used in Real Estate Analysis
In this article, we want to discuss the role of net operating income to real estate analysis. How it’s calculated and then how real estate analysts use net operating income to determine the profitability of investment real estate.
Net operating income (or NOI) is one of the most important calculations made during the analysis of any real estate investment because it represents the property’s potential income after all vacancy and operating expenses have been subtracted. In other words, net operating income virtually represents the income property’s productivity, or measure of cash flow.
To help plant the idea, let’s consider net operating income in one of the following two ways, depending on whether or not a mortgage exists.
1. The investor pays all cash for the property. Since the property is wholly owned and has no debt, in this case, NOI is the annual return the investor would expect from the property before consideration for taxes and depreciation. Given no deduction for debt service (loan payment), you can regard net operating income in this case as the annual cash flow before taxes (or CFBT).
2. The investor obtains a mortgage. Here, since the property has a mortgage, NOI should be regarded as the anticipated amount of cash flow available to pay the mortgage. In this case, only the remainder of NOI (after you subtract the annual loan payment) becomes the annual cash flow (or CFBT).
Okay, let’s summarize. If you pay all-cash for a rental property, because there are no mortgage payments, NOI by default represents the property’s cash flow. On the other hand, when there are mortgage payments, NOI represents the amount of money available to service the debt, and then, subsequently the cash flow only after the loan payments.
How to Calculate Net Operating Income
Gross Operating Income less Operating Expenses = Net Operating Income
For example, let’s assume you’re doing a real estate analysis on an apartment building that produces a gross operating income of 0,000 and operating expenses of ,000. What is the NOI?
This should be easy. 0,000 less ,000 equals ,000.
Okay, but let’s make sure that you understand both components in the formula.
1) Gross Operating Income (GOI) – This equals the rental property’s annual gross scheduled income less vacancy and credit loss. In other words, GOI is the actual income the rental property is expected to produce.
2) Operating Expense – An operating expense ensures the property’s continued ability to produce income. Whereas such things as property taxes, utilities, and maintenance and repairs are operating expenses, mortgage payments, depreciation, and capital expenditures are not considered operating expenses.
The Role of Net Operating Income
Net operating income plays a large role in a variety of real estate investment and holding period decisions. Capitalization rate, for instance, is calculated by dividing NOI by sale price, and property value is calculated by dividing NOI by capitalization rate.
Likewise, net operating income is significant to lenders. To compute debt coverage ratio (DCR), for instance, net operating income is divided by annual loan payment.
The Credibility of Net Operating Income
Not unlike any component in a real estate analysis, net operating income is only as good as the numbers used to compute it are credible.
Whether you use real estate investment software, a spreadsheet, or pencil and paper for your real estate analysis, you must spend the time to validate the numbers and reconstruct the owner’s representations for income and operating expenses if necessary.
Prudent real estate analysis demands it. Whenever you are running the numbers on any real estate investment, rely on nothing less then the most credible net operating income possible.
Guide to Building your own Computer
These days, every component can be bought separately and put together at home to create a bespoke system that reflects your specific requirements. For example, you might require a larger monitor than is standard with the model you want, you might need more memory, greater processing speed or any number of other elements that can’t be bought in one tidy package.
The motherboard is the heart and soul of any computer and this should really be your first consideration when you start thinking about putting together your own system. With so many options now available, it really is possible to create a computer from scratch that works more specifically for gaming, tech, or other uses that an out-of-the-box computer might not be designed for.
Motherboards, like all other computer components, are available in all manner of specifications and to suit every budget. You don’t need to spend a fortune to buy a good quality motherboard that will combine with other elements to create a high spec computer that’s been designed with your needs in mind. In fact, some of the cheaper models are more than adequate to create exactly the system that you need to expert gaming or high-level technological work. Having said that, the motherboard is the heart of your computer and, if you can afford to spend a little more, you will reap the rewards in the long term.
If you need your motherboard to support graphics card then this will obviously have an impact on your final decision. You will also need to consider the speed of the processor and it’s really up to you whether you decide on the processor or the motherboard first – just make sure that they’re compatible. If you need a number of different USB ports you should also check this out when choosing your motherboard. Although most of them support numerous USBs these days, it’s always best to make sure. The same goes for firewire: people often assume that this comes as standards but that’s by no means the case. It’s a good idea to have a list of requirements that you can then cross-reference against each motherboard before making your final decision.