The Rise Of Networked Scanning

Business Solutions, September 2008

Written by: Vicki Amendola

The adoption of networked scanning is on the rise, and document imaging VARs should prepare to cash in on the opportunity.

Converting paper documents into digital data isn’t an earth-shattering phenomenon anymore. Instead, document imaging can finally claim a firm foothold as a proven strategy for VARs to use with customers struggling to improve operational efficiency and productivity, reduce administrative burdens and costs, and even achieve compliance with governmental regulations. The trend that continues to enfold the document scanner market is a migration that draws the technology from a centralized, backroom process to points much closer to document creation in distributed, or workgroup, scanning solutions.

Most analysts and research firms that cover the document imaging market agree that distributed scanning applications have become — and are predicted to remain — the dominating segment of the scanner market. Network scanners are a subcategory of this segment and, although not yet recognized as a stand-alone hardware segment, network scanning is showing significant growth year over year. A recent report from InfoTrends, a research firm that provides in-depth analysis of the document scanner market, supports the premise that network scanning is on the rise, making it fertile ground for imaging VARs. The group’s U.S. Document Imaging Scanner Survey Report: 2007 illustrates a 112% increase in network scanning use over the last three years, from a starting point of 16% in 2004 to 34% in 2007.

Now Is The Time To Sell Network-Enabled Hardware
Network scanning hardware has imaging specifications nearly identical to the dedicated scanner models found in the desktop or workgroup segments. However, the trend in imaging is bringing network connectivity into the mix, with additional network-capable scanner models being released each year. These scanners reside directly on a company’s network, rather than being attached to a dedicated PC. “Network scanning provides obvious advantages, such as those we’ve grown accustomed to with network-attached printers,” says Kevin Neal, product manager at Fujitsu.

Neal’s example of a networked printer highlights the ability for VARs to integrate a vital piece of productivity equipment directly into a customer’s network, enabling the device to be shared and accessed by multiple individuals as part of that network. Shared devices reduce the cost of the solution, a primary sales objection, by reducing the total number of devices needed. In addition, deploying fewer devices can lead to reduced maintenance requirements and can even help to land sales in cases where conserving valuable office space is a primary concern. “While networked printing has become commonplace and has become very beneficial as an efficient output device, this connectivity is now being leveraged to input information into a company’s computer systems via scanning/imaging technology,” says Neal.

For some companies, high-end digital copiers and MFPs (multifunction peripherals) have provided an introduction to the basic concept of network scanning. According to a recent IDC report, 1.54 million scan-enabled MFPs shipped in 2007. The trend has not gone unnoticed by the ISVs (independent software vendors) in the document imaging arena. Many ISVs have recognized these devices as another source of capture and, as the corporate office environment embraced the MFP, these ISVs developed solutions to capitalize on the opportunity.

Satisfy Ease Of Use And Security With Networked Scanners
Despite the applicability of the MFP as a networked scanner, it still can’t compete with a dedicated networked scanner in most cases where document imaging is the primary emphasis of a reseller’s solution. “Frequency, complexity, and larger scanning jobs tend to drive more dedicated scanning equipment for individuals or workgroups,” says John Capurso, VP of marketing at Visioneer. A dedicated network scanner eliminates the competition that can be experienced with an MFP-based solution, such as waiting for a large print job to finish before being able to scan a document to e-mail or file. In addition, despite all the advances being made on higher-end MFPs, a dedicated device can still be easier to use.

“Ease of use is a critical selling point for customers that have multiple users with different levels of technical expertise using the scanner,” says Jackie Horn, director of worldwide marketing at BÖWE BELL + HOWELL. “VARs are leveraging user-friendly touch screens and built-in features [such as one-button scanning] to make life easier for end users to simply walk up to the scanner and scan.” Many network scanners available today are incorporating much bigger touch screens than earlier models — some as large as 8 inches across — to promote ease of use. These larger screens provide a GUI (graphical user interface) on which the user can not only select scanning options, but also preview the scanned image and even enter basic indexing information.

Security is also a driving force behind the adoption of networked scanning, and it is occurring at both the device and document level. At the document creation level, network scanning is beginning to incorporate encryption capabilities to enable the creation of secure image files. For example, scanning to encrypted PDF can prevent unauthorized individuals from viewing the document. At the device level, user authentication can take many forms, including user password or even fingerprint and other biometric technologies. These options can satisfy access control by restricting device usage and can also provide audit trails by recording which authorized users have accessed the scanner and which company information was created or viewed on the device.

Networked Scanners Can Support ECM Solutions
Another trend in the network scanning market is the growing availability of SDKs (software development kits) that can be used to run customized document management systems right from the network scanner. “Although well-suited for ad hoc scanning, one-touch scan-to-job buttons on the network scanners enable VARs to establish dedicated buttons that can trigger specific workflow processes, delivering the combination of more scanning power and functionality with simpler operation,” says Michael Oliva, manager of product marketing, Canon USA. “Incorporating various connectors to third-party applications, such as SharePoint or RightFax, can simplify integration and enhance interface options between the network scanners and various document management systems.”

In some cases, network scanning has become a way for VARs to enhance existing document management systems or even form the nucleus of brand new ones. “VARs have the ability to bring the entire system architecture together: network scanner, connectivity, servers, ECM (enterprise content management) applications, workflow, access rights, and document life cycle,” says Visioneer’s Capurso. “And since every organization has different requirements, the opportunity is there to make all the components come together and function reliably.” Just as with distributed capture implementations, VARs should leverage network scanning to continue pushing the point of capture even closer to the point of document creation. Doing so will help customers realize the benefits of increased ease of use, increased information security, increased productivity and efficiency, and perhaps what is at the top of most customers’ minds today, reduced costs.

– See more at: http://www.bsminfo.com/doc/The-Rise-Of-Networked-Scanning-0001#sthash.z0GfvD3B.dpuf

Increase ECM Automation Processes With Higher Resolution Scanning

Source: Business Solutions Magazine

kevin_neal_for_web

Written by: Kevin Neal, product manager – production scanners, Fujitsu Computer Products of America

When we talk about software automation, it’s safe to say that we truly live in remarkable times. Automation, as it will be referred to in this article, can be defined as allowing a computer to accomplish tasks that traditionally took human intervention and/or action to complete.The rapid adoption of automation via software is driven by several basic technical factors, including high-powered, affordable CPUs (more cycles and lines of code executed per second), drastic increases in memory capacity in conjunction with reduced prices, as well as the ever-evolving intelligence within software packages. The computing resources behind all of the advancements are helping to reduce costs, improve efficiencies, and assist with compliance and regulation.

Software automation is becoming more pervasive among ECM (enterprise content management) and document scanning solutions. The virtue of implementing ECM solutions has historically been cost reduction, which could have meant decreased headcount or reallocating employee resources to other business units. It may even have been tangible costs such as reducing mailing and shipping charges, eliminating expensive fax transmissions, or increasing physical storage space too, by removing cabinets and file drawers.

Because of computing advancements, businesses and organizations are no longer asking the questions of whether ECM systems are truly viable. Instead, they are asking more pointed questions about how much the return on investment is and how quickly they will realize the ROI. In fact, according to Gartner, Inc. the worldwide ECM software market is expected to grow more than 12% per year through 2010, from $2.6 billion in 2006 to more than $4.2 billion in 2010. These days, it’s more about which hardware, software, and services best fit the needs rather than whether or not to put a solution in place.

With most of the pain points of the DIP (document image processing), DIM (document image management), and/or ECM solutions behind us, we now have an opportunity to do more remarkable automation tasks with software. But the success or failure of the entire system is closely tied to the ‘on-ramp’ of electronic document automation and your document scanner, in particular. In the next few paragraphs, I’ll examine several important software automation solutions from some of the premier forms processing and capture software companies in the industry.

High Resolution Maximizes Recognition Results (Contributed by ABBYY)
When scanning for OCR (optical character recognition) or data capture, start with an excellent quality original. This may be the single most important consideration to achieve optimal results for recognition and capture, as well as for the purposes of long-term preservation. In fact, using a high-quality image takes on increasing importance as more users depend on electronic documents to take the place of paper-based originals because of the searchability and cost savings. On the downside, once scanned, the paper document is often no longer available — so it is important to retain maximum quality from the outset.

Today, 300 dpi (dots per inch) color remains the gold standard for scanning. However, high-quality grayscale is an option when color is not achievable (since color scanning often results in 32-bit files). Whenever possible, maintain color images. Color provides additional depth, which enhances the ability of recognition software to gather additional information about the scanned document in order to maximize accuracy. In short, consider quality first when scanning for recognition and archiving.

Classification Of Forms (Contributed by ReadSoft)
Organizations are turning to one portal for all incoming documents — no matter if they arrive on paper or in electronic form. Technology is available to automatically sort incoming documents and classify them according to case. This enables the simple inputting of all incoming mail into a scanner (without any separator sheets) and lets the computer sort the documents. If documents arrive in electronic form, they are also easily incorporated into the flow. By digitizing paper documents through high resolution scanning, users can easily search and retrieve all incoming mail. What will this do for an organization? Efficiency increases when each and every document is distributed correctly. Fast access to status reports and audit trails gives users better control over information flow. In addition, a smooth integration with back end systems such as customer management applications, databases, and archives boosts the performance of IT systems. The overall result of high resolution scanning is automated classification and sorting — less need for document preparation, one portal for all incoming documents, (paper and electronic), electronic distribution to authorized staff, and control of information flows.

300 dpi — Friend Not Foe For Automated Document And Data Capture (contributed by AnyDoc Software, Inc.)
The idea that scanning documents at 300 dpi will create backlogs and bottlenecks within automated document and data capture solutions is an outdated myth. In fact, within many solutions, product settings default to 300 dpi to maximize character recognition with little or no adverse impact on processing or transmission speed or storage capabilities — and with a great positive impact on recognition accuracy. And, when processing healthcare forms such as explanation of benefits (EOB), Health Care Financing Administration (HCFA) and Uniform Bill (UB04s) — known for their notoriously small font and extremely high character density per page, proper resolution is critical. At a 300 dpi setting, recognition engines are optimized and file size is still very manageable. Because the average size of a 300 dpi 8.5” x 11” bi-tonal TIFF image is 40 KB, it means approximately 3,000,000 document images can be stored on a standard 120 GB hard drive.

In decades past, files competed for space that was limited and expensive, but no more. Now, a 40 KB file travels on today’s fast networks at what can be conversationally considered to be the speed of light. A lower scanning resolution can negatively impact data recognition, which is not offset by the saving of space — no longer the limited commodity it once was.

And, some of the better document processing packages will process at 300 dpi, but output at a lesser (i.e. 200) dpi, giving you the best of both worlds. Scanning at a higher resolution can dramatically improve data recognition, decrease the need for human intervention, and increase the efficiency of all downstream applications without negatively impacting electronic transmission or storage space.

More dots per inch (dot) for increased automation
So, maybe now you’re thinking — “Of course I want everything automated and I’ll scan everything at 300 dots per inch and/or color, or both.” Well, not so fast. First, we must consider the risks versus the rewards for this type of a decision as we addressed in an upcoming article entitled “Trends Towards Higher Resolution Scanning.”

To quote Gartner, “The quality, performance, and ease of use of software products will improve.” This will help drive adoption; however, an inefficient document capture solution, due to settling for anything but the most software automation, should be unacceptable these days considering the pros and cons of higher resolution scanning.

In a day and age where no two ECM solutions are built alike, and organizations have choices for software automation components, it’s important to implement the best-of-breed solutions that garner optimal automation results. Whether it is OCR, ICR (), forms processing, separation, classification, unstructured forms, bar code recognition, etc., each step in the automation process and the rest of the automation workflow is directly related to a prior event, and it all starts with document scanning. As more desktop scanners are deployed throughout organizations, there is certain to be an ever increasing demand for ease-of-use and automation. Give your ECM solution the best chance for automation success and don’t underestimate the trends towards higher resolution scanning.

For more information on topics covered in this article or more information in general please visit:

Fujitsu – http://us.fujitsu.com/fcpa

ABBYY – www.abbyyusa.com

AnyDoc Software – www.anydocsoftware.com

ReadSoft – www.readsoft.com

Kevin Neal, product manager – production scanners, with Fujitsu Computer Products of America has been involved in the document scanning/enterprise content management industry for over 18 years. He has held various customer service, sales and management positions for many hardware and software products during his career. In addition, he has years of experience installing, configuring, and troubleshooting networking components as a consultant and network administrator. Currently he handles product management responsibilities for Fujitsu’s complete line of production scanners.

– See more at: http://www.bsminfo.com/doc/Increase-ECM-Automation-Processes-With-Higher-0001#sthash.tUUIEbV9.dpuf

High-Volume Scanners Up Their Game

Business Solutions, July 2006

Written by: Ken Congdon

Once defined solely by speeds and feeds, today’s high-volume document scanners now incorporate new features that enhance image quality and transaction processing.

According to InfoTrends research, an expected 80% of the growth in the scanning market this year will come from the workgroup segment. This same research suggests that high-volume production scanners will have a flat sales year and may even lose ground in the years to follow. Despite this data, many scanning hardware vendors have quietly enhanced their high-volume devices with new features that move beyond increasing scanning speeds and duty cycles, but focus on enhancing image quality and reducing manual imaging processes. In addition, many high-volume scanners have become more affordable to consumers — a combination that many industry professionals believe will prove the InfoTrends research inaccurate.

“The increased affordability of many high-volume scanners has made them an attractive supplement or alternative to many distributed scanning applications,” says Kevin Neal, product manager for Fujitsu Computer Products of America. “For example, in a distributed deployment, a company may not only need to buy 10 scanners, they may also be required to buy 10 PCs, upgrades and updates to those PCs, and 10 scanning software licenses. Meanwhile, one high-volume production scanner may be able to deliver the same end result at a lower total cost of ownership over time. This scenario illustrates the opportunity for growth that remains in the high-volume segment. Contrary to the InfoTrends research, I believe high-volume scanner sales will gain ground at a modest 5% to 10% over the next few years.”

Image Quality Enhancements Improve Forms Processing
Improved affordability is just one side of the high-volume scanning coin. New features are also adding to the appeal of these devices. One feature that has become standard on most high-volume scanners is the ability of the device to be run at its full-rated speed at 300 dpi (dots per inch) resolution in monochrome, color, or grayscale. “High-volume scanners are primarily used for forms processing applications,” says Neal. “In these environments, image quality is often more important than speed. In the past, if an end user needed to scan a document at 300 dpi or higher to increase OCR [optical character recognition] and ICR [intelligent character recognition] accuracy, the scanner would slow down to a crawl. However, now users can get a high-resolution image without sacrificing speed.”

Other image enhancement features are also being brought onboard many high-volume scanning devices to improve forms processing. Features like autocolor dropout, despeckle, and line removal are all becoming fixtures on high-volume scanners, and all enhance forms processing accuracy. Autocolor dropout is particularly useful in eliminating the red table backgrounds that can often impede OCR read rates on HCFA (Healthcare Financial Administration) claim forms.

High-Volume Scanners Streamline Transaction Processing
Advanced image processing features are being added to high-volume scanners not only to improve forms processing accuracy, they are also helping to eliminate many manual document preparation activities. “Features like autocolor dropout not only improve OCR rates, they prevent the user from having to presort documents based on paper color and reduce the number of times the scanner settings must be adjusted during the imaging process,” says Eric Olsen, product marketing manager for Eastman Kodak Company. “Similarly, an autocolor detect feature automatically switches the scanner to color output mode when a preset level of color content is detected. This reduces the need for presorting and for making image processing changes while scanning.”

Other features that reduce document preparation labor include automatic page rotation and automatic blank page deletion. If the scanner can automatically rotate documents, it eliminates the need for the operator to place all the documents into the feeder in the proper orientation. Likewise, if a scanner can automatically delete blank pages, there is no need to separate single-sided documents from two-sided documents.

Some of today’s high-volume scanners are also incorporating new technologies that use the images they create to streamline transaction processing. “There is a demand for scanning to drive new incremental benefits into a transaction from its point of origination,” says Robert Sbrissa, executive VP of sales and marketing for Imaging Business Machines LLC. “In this case, a transaction is any item that needs further processing beyond archive. This capability demands more intelligence during in-line document processing and requires us to move deeper into the business applications beyond data capture.”

High-volume scanning technologies having an impact on the way a transaction is processed include using the image of the envelope that a document or set of documents was mailed in as a transaction separator. This technology saves customers time and money by eliminating the need to insert bar code separator sheets between batches or individual transactions. Furthermore, it ensures transaction integrity is maintained.

A select few vendors are actually incorporating a platform for document classification with the scanning hardware itself. This technology combines topographic image analysis with business rules to identify the document type (e.g. application, invoice, form). This eliminates the need for an operator to presort documents by type and streamlines transaction processing by accelerating each document through the appropriate workflow.

VARs Must Evolve With New Scanning Trends
With all the new capabilities today’s high-volume scanners provide, getting the appropriate training from your chosen scanner manufacturer is essential. “A VAR is required to master a number of different components to deliver a truly successful imaging solution,” says Neal. “For example, there are thousands of possible scanning hardware and ISIS driver configurations that a VAR can employ to enhance the image quality for its customers’ specific applications. Plus, you need to consider the operating system on the PC, the network, other software integrations, and a number of other variables. You should develop a good relationship with your vendor partners and take advantage of all the training they offer to ensure you have the latest product integration knowledge.”

Understanding the product is important, but perhaps more important is being able to decipher how the scanner addresses your customers’ pain points. “It’s unlikely that your customers are going to ask for most scanner features by name, much less understand why they are important — they will only know what they want the scanner to ultimately do,” says Olsen. “This makes it crucial that VARs effectively align their customers’ needs with the scanners that offer the best features to meet them.”

Finally, with the changing landscape of the scanning industry, VARs must ultimately alter the way they attack the market if they wish to continue to be successful. “Low-cost speeds and feeds are easy to get from a number of vendors,” says Sbrissa. “However, this makes it difficult for VARs or integrators to have a unique differentiator in their solution. Understanding the higher end of this market and moving into more of the transaction processing stream will ensure your solutions have appeal, resulting in higher margins and longer applicability in the market.”

– See more at: http://www.bsminfo.com/doc/High-Volume-Scanners-Up-Their-Game-0001#sthash.6FSgpX81.dpuf

The opportunity of Network Scanning

Network Scanning

By Kevin Neal

fi-6000ns_scan-searchableWe live in a connected world”.  It’s a simple phrase, but it means so much.

At the present time, most of us take for granted things like cell phones, blackberries, PDA’s,  Bluetooth, pagers, etcetera.  All these communication devices are examples of being “connected” all the time;  however this wasn’t always the case.  Not all too long ago we lived within a very disconnected world in comparison to the technology currently available in 2007.  With the dramatic adoption of the Internet over the past decade, more people  than ever are connected via their home computers with a Digital Subscriber Line (DSL), Cable modem or even broadband  wireless.  According to Gartner, the number of households with broadband connections will double between 2005 and 2010.  The rate of business connectivity is a great deal of the same, just on a grander scale with greater bandwidth and a higher level of service guarantees.

With this rapid growth of computers and servers connected with high speed networking, the likely next step was to connect peripherals.   One of the most prevalent examples of a connected peripheral in an office environment would be a laser printer.  There are many advantages to having a networked printer, including sharing among groups of users, because the volume of printing for each user did not dictate a dedicated printer.  Network printers are fairly common these days; however a new, emerging trend is to use network connectivity to INPUT information into computer systems via a scanner instead of OUTPUT via a printer.

 

Networking Scanning enters the connected world

Network Scanning is the concept of taking a scanner engineered specifically with mission critical scanning considerations.  This includes paper handling, image quality or advanced multi-feed technology, subsequently connecting them directly to a network without the need for a computer system to be physically connected to the scanner.

These advanced scanning solutions, on the other hand, should not be confused with digital copiers or multifunction devices, which most of us are familiar with. While these sorts of devices are handy for extremely low-volume  scanning requirements, the majority of these devices lack either the physical attributes or true integration desired to effectively utilize them in the connected business world.  As an example, when performing  automated forms processing with advanced data extraction techniques such as Optical Character Recognition, or OCR, good image quality and excellent paper handling provided by dedicated network scanners, could dramatically increase the automation process, thus, decrease human intervention.   This undoubtedly increases efficiency, reduces costs and improves customer service.

 

Concepts and Terminology of Networking Scanning

Basic  connectivity is the most rudimentary to direct network attach solutions used for a scanner.   This translates into a scanner, which can be used as a network device and the scanner appears as a local device on the network. Or, as I like to refer to it “extends network connectivity”.  This is the least expensive, yet most restrictive option.  It is ideal for ease of use and is cost effective however it is deficient on flexibility for true integration.

Biometric connectivity is the ability to attach a scanner directly to the network exactly as in the Basic connectivity scenario;  however, it incorporates much more intelligence into the scanning process.  For example, with a biometric scanning solution, users could merely walk  up to a supported scanner, position their documents in the scanner, place thumbprint on, or hover their palm over, a biometric device then initiate scanning of the documents based on pre-configured profiles, destinations and/or applications.

‘Push-Scanning’ refers to a scenario where the scanner operator walks up to a scanner, drops the documents into the automatic document feeder, or places them on the flatbed, then initiates the scanning process to send the images to the desired location on the computer network.   This could perhaps be a “watch folder” for high-volume OCR processing for example, or it could be a shared network drive of the scan operator’s personal computer.

‘Pull-Scanning’ is a term  characteristically used when a scanner  operator controls the scanner to connect to a device, scan images and transmit, or pull these images from the scanner to a certain location.   The ability to pull these images can be achieved in many different ways and one of the most common ways is to scan via a web browser.   In other words, the user would enter the name of the device and would have the ability to scan images as well as send them to the destination of their choice.

ECM Scanning.   Enterprise Content Management, or ECM, scanning takes one or more of the above Network Scanning concepts; however, it adds an additional powerful layer of functionality.   ECM scanning incorporates a network scanner directly into content management systems via software drivers and scanning software.   The document imaging industry has seen a dramatic focus on the importance of document capture, for example.   These are extremely focused software packages so as to assist in the ability to extract important business data from scanned documents.

ECM + Secure  Scanning  is the next logical step in the networked scanning connected world.  Now that the benefits of document imaging have been proven via return on investment, increased productivity or compliance reasons, more than ever mission critical business data or highly confidential information resides in a digital format and not on paper.  It’s crucial to secure this sensitive information during the entire lifecycle of the data.  From the instant the data is scanned, when it’s hosted on the network, until the time of its destruction, or the end of the retention period.

 

What could be the future of Network Scanning

Now that connecting persons and computer systems for personal and business uses is nearly common-place, emerging technologies are being introduced that will continue to stimulate connected systems.  One of these emerging methods being utilized by Information Technology (IT) departments is called “Service Orientated Architecture”, or (SOA).  SOA is a way to create new business applications by re-using or better utilizing current technical assets within the organization.  Connected systems played a major role in developing the SOA model with industry standards such as HTML, XML and Web Services.  In a nutshell, SOA is a way to add functionality and features to a computer networks without the disadvantage of closed or proprietary systems.

SOA plays an important role for Network Scanning in particular.   While the conceptual design of SOA may be applied in traditional scanning configurations with a dedicated computer controlling the scanners operation, there are a few important considerations making a Network Scanner quite appealing to network administrators, Chief Intelligence Officers and end users.  These  important considerations include system security, updates/patches and ease of use, just to name a few.

•  From a Network Administrators point of view, the SOA Network Scanner allows them to deploy network scanners in a controlled  method  making future firmware/software updates much easier.

 •  System Administrators could ship one integrated device, or a scanner plus a network connectivity device, directly to any location where they  would like to deploy scanning.  Once the physical hardware is received the user would simply plug the network cable into the hardware and one could, in theory, be scanning in minutes.   This eliminates the costly and time-consuming tasks such as updates operating systems with patches or installing new software when versions change.   In addition, the Network Administrator would be able to diagnose any technical issues or view usage reports easily from one intuitive interface.

CIO’s, or Chief Information Officers, must earnestly consider a Network Scanning SOA approach from the understanding of compliance, security and regulation.  A scanner attached directly to a network via SOA architecture  gives the organization the ability to provide activity reports based on the individual device for example, which could help play a major role in assisting with adherence to these corporate policies and governance.

Finally, ease of use for the scanner operator plays a chief role in that it is driving the adoption of network scanning within the SOA infrastructure.  In fact, should a corporation wish to use the Pull Scanning technique, they have the capability to assemble a system that could in effect eliminate the need for any sort of user intervention whatsoever.  Imagine the power of this total SOA/Network Scanning approach.   Let’s use a Customer Service example to illustrate a few of the benefits.

In our example, the Customer Service scanning deployment will demonstrate too many remote site locations.  Our IT department benefits from the fact that they would avoid building a computer system to act as the connectivity/scanning device; we simply ship the hardware to the remote site and they plug it into the network.  Subsequently, for Pull Scanning, all the user would be required to do is physically place the items to be scanned on the scanner itself, and someone in a completely different part of the connected world would initiate scanning; receiving all of the resulting images.

 

The opportunity of Network Scanning

While Network Scanning is quickly becoming the buzz among the industry, there still are certain technical deficiencies that will need to be addressed with some of these devices in order to be considered part of a true IT integration.

As the connected world continues to improve infrastructure and new, innovative ways  to communicate emerge, the industry trend towards more Network Scanning should continue.  For example, organizations most likely will move forward on plans for additional remote location “Telecommuting” of individual workers and satellite office locations.  Couple factors that include ease of use, simplified IT management of hardware and software resources as well as additional adherence to compliance and regulation standards and the future of Network Scanning seems bright.