A Zigbee specification (PDF press release) - an implementation of the IEEE 802.15.4 standard - has been ratified by the ZigBee Alliance standards group, reports InfoWorld.

Zigbee-certified products are predicted as soon as the end of January, and single-chip Zigbee parts costing less than $5 during the first quarter of 2005, according to Bob Heile, the chairman of the Alliance. A ZigBee Wireless Thermostat has already been shown using Airbee’s fully IEEE 802.15.4 and ZigBee conpatible software.

Zigbee proponents include Bob Metcalfe who, as a venture capitalist, has invested in the standard’s prospects. “It won’t kill Bluetooth, but it might replace it”, says Metcalfe. Analysts are predicting between 5 million and 50 million Zigbee devices in the first year.

The standard, with 250 kbit/s speed, is intended for wireless controls, of heating, lighting and security, and any other communication job that can be done with a short-range, low-power, long battery-life device. Small sensor networks are designed to last more than a year using small batteries.

Reports from Smart Convergence, Sensors Magazine, Technology Review and Business Week indicate big growth from low-power mesh networking devices.

Large corporations already are discovering new applications for wireless. Nestl is installing hundreds of ice-cream vending machines in France and England that send daily reports on their sales and notify drivers if they’re running low on cones. Canadian train and plane maker Bombardier has fitted 1,000 railcars in Britain with radio devices that transmit reams of preventive maintenance data.

Dutch giant Royal Philips Electronics wants to put wireless links in all of its products, from entertainment gear to medical systems. It’s even developing technology that links light fixtures using ZigBee radios. ZigBee systems can even be tied into the mobile network. That way, if the lights are left on over the weekend, the building manager could be notified with a text message on his mobile phone — and he could message back to turn them off.

C/Net reports that by the end of the decade, the Internet will sprout hundreds of millions of “smart nodes”, giving computer networks millions of tiny electronic feelers. The market for equipment and services related to wireless sensor networks could be in excess of a billion dollars by that time, predicts Harbor Research.

The IEEE 802.15.4 standard operates at data rates of 10 kbps to a max of 250 kbps. Wireless links can operate in three unlicensed frequency bands (2.4GHz, 868Mhz and 915MHz). When lines of communication exceed 30 feet, the 802.15.4 standard creates self-configuring, multihop networks. It is intended to operate in an unlicensed, international frequency band with applications in sensors, interactive toys, smart badges, remote controls, and home automation.

The ZigBee Alliance specification is a combination of HomeRF Lite and the 802.15.4 specification and operates over 16 channels with data transmission rates of up to 250kbps at a range of up to 30 meters. ZigBee’s technology is slower than 802.11b and Bluetooth, but it consumes significantly less power. It can connect up to 64,000 nodes on one network.

Dust Networks is one of a handful of start-ups working to make this vision a reality. Others include Crossbow Technology in San Jose, Calif., Ember in Boston, and Millennial Net in Cambridge, Mass.

Intel and Accenture are active in the field, as are leading research universities including the University of California at Los Angeles, Carnegie Mellon University, the Massachusetts Institute of Technology and the University of California at Berkeley. DARPA, the National Science Foundation and the CIA are funding efforts, too.

“The combination of “the smallest wireless commercial grade [smart dust] mote in the market with the smallest wireless RFID tag in the world will revolutionize what ubiquitous computing really means,” says Mike Horton, CEO of Crossbow. The sensor and the reader are each about the size of three stacked quarters.

Oki has the world’s first fully compliant IEEE 802.15.4 and ZigBee chip. The technology promises to start a new generation of wireless sensor networks, utilizing the unlicensed 2.4 GHz spectrum. TinyOS, developed at Berkeley, is a popular operating system for the devices.

At the 29 Palms Marine base in southern California, a couple years ago, unmanned aircraft dropped wireless magnetic sensors along a road. Once on the ground, the sensors formed a wireless network and began looking for magnetic anomalies. As a vehicle passed by the sensors, they would detect the vehicle from its magnetic signature to estimate the vehicle s speed and direction. The unmanned aircraft returned overhead to collect the data from the network and transmit them to the remote operation command headquarters.

Related DailyWireless stories include; Bluetooth Roadmap, Monitoring Mount St Helens, Zigbee Gets Real, Showdown at .15, Hot Shoe, Slow Mesh Heats Up,Sensor Nets, Meshing at Intel, Oceanographic Wireless, Earthquake Monitoring, a Seattle to Portland Wireless Network Proposal, Berkeley Wireless Research Center, The Age of Steam and ZigBee’s Low Power Wireless.

Posted by Sam Churchill on Wednesday, December 15th, 2004 at 1:59 am.