Press Release

Smart Connected Systems Innovation Driven From 'The Edge'

June 1st, 2012

Global Information Inc. would like to present a new market research report, "2015 Smart Systems Forecast Report" by Harbor Research, Inc..

Wide adoption of smart devices and systems will take time, but the timeline is advancing thanks to improvements in underlying technologies. Advances in wireless networking technology and the greater standardization of communications protocols, particularly for hybrid networked environments, make it possible to collect data from devices and sensors almost anywhere and at any time. Ever smaller, lower power silicon chips for this purpose are gaining new capabilities, while costs, following the pattern of Moores Law, are falling. Massive increases in storage and computing make number crunching possible at very large scale and at declining cost.

However, in order for the market to really take off several key technology hurdles will need to be addressed, including:

  • Lack of truly ubiquitous device communications standards;
  • Costs and ease-of-use associated with provisioning device communications;
  • New software architecture to support massively peer-to-peer, complex event-driven data management;
  • Smart device, system and application interoperability.

Barriers, such as the lack of powerful, inexpensive devices and the inability to communicate over a wide range of wired/wireless networks are diminishing, but interoperability of distributed, real-time device data remains a huge hurdle.

The growing bottleneck lies in the relationship and interactions between ever more complex devices and the antiquated client/server architecture of the web. With memory and processor capabilities getting cheaper by the day, product designers are embedding feature upon feature into their designs. What may finally bring Moores law to its knees is the sheer complexity of software driving infinite interactions.

The growing disparity of "edge" devices on networks is diluting the ability of technicians to effectively manage them. It is extremely difficult to keep up with the unique requirements of each new device and all its advanced features. Customers increasingly expect networked devices to be functional, ubiquitous, and easy-to-use. Within this construct, however, the first two expectations run counter to the third. In order to achieve all three, the network must be loaded with "edge" intelligence.

On the hardware forefront, smartphones and tablets are perhaps the most ubiquitous devices with falling prices and continuous new innovations making even the most sophisticated new smart end-point devices affordable. For embedded devices, OEMs are racing to develop increasingly powerful and smaller devices. Small size comes with the trade-off of computing power. One can argue that the true hurdle to edge computing is the absence of fast, powerful, lightweight applications that can run on any small device in a truly distributed manner - at the end of the day, you really cant fit a traditional "PC" architecture into a sensor.

Intelligent processing and transactional computing cannot occur on dumb clients where intermittent server connections, proprietary "locked" platforms, and large install footprints are prohibitive. The inability of todays popular enterprise systems to interoperate and perform well in distributed heterogeneous collaborative environments is an obstacle that intelligent middleware can now overcome. Devices needed to host intelligent software components can communicate to other devices directly (peer-to-peer) or to logical collections of devices (peer-to-group) in any programming language, and do so autonomously.

Many basic technology hurdles that have previously held back Pervasive Computing and M2M are increasingly being met head-on, but the challenges of integrating complex event-driven systems and intelligent device communications in an interoperable manner remains a critical requirement. Interoperability is a key goal when evaluating new technologies, as wireless systems meld with legacy wired systems and developers integrate enterprise software systems. The inability of todays popular enterprise systems to interoperate and perform well in distributed, heterogeneous "smart device" environments is an obstacle that newer intelligent platforms for edge devices can overcome.

However, some things that look easy turn out to be hard. Thats part of the strange saga of the Internet of Things and its perpetual attempts to get itself off the ground. But some things that should be kept simple are allowed to get unnecessarily complex, and thats the other part of the story. The drive to develop technology can inspire grandiose visions that make simple thinking seem somehow embarrassing or not worthwhile. Thats understandable in science fiction. But its not a good thing when defining and deploying real-world technology to deliver new innovation. This is where todays technologies and IT departments behaviors come into play.

The marketplace is converging into a vast unified technology architecture to support networking and collaboration based on common digital building blocks and standards for software and communications.


At the end of the day, the convergence of collaborative systems and machine communications implies a total paradigm-shift in IT suppliers and users. The depth of this shift has begun to suggest itself, but it is by no means accomplished. Its a shift from knowing "what happened" to knowing "what is happening" all the time and then automatically controlling systems with that knowledge. IT professionals rarely talk these days about the need for ever-evolving information services that can be made available anywhere, anytime, in true real-time, for any kind of information human or device. Instead, they talk about "web services" or "cloud computing" interchangeably without giving it a thought. New reference architectures for "edge-driven" integration and collaboration are required.

Put in simple terms, low cost, easy to integrate sensors and edge devices with interoperable data management will drive wider adoption of real-time, complex event-driven systems. Networking technologies and the standards that support them must evolve to the point where data can flow freely among sensors, computers, actuators and people. Software to aggregate and analyze schema-less data, as well as pleasing user/system interaction design techniques must improve to the point where huge volumes of data can be absorbed by smart systems and by human decision makers more appropriately.

Global Information Inc.(GII) - specializing in market research provision for the vertical industries, GII offers expert independent recommendations of publications from hundreds of the globe's leading market research firms.

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