Philips Semiconductors and Wi-LAN to Conduct Industry's First Wireless Transmission of IEEE 1394 Using W-OFDM Technology.SUNNYVALE, Calif.--(BUSINESS WIRE)--Aug. 27, 1999-- IFA Immunofluorescent assay (IFA) A blood test sometimes used to confirm ELISA results instead of using the Western blotting. In an IFA test, HIV antigen is mixed with a fluorescent compound and then with a sample of the patient's blood. 1999 Demonstration Represents A Significant Step In Wireless Multimedia Home Networking Philips Semiconductors, a global leader in wireless home networking, baseband, semiconductor and networking technology, along with Wi-LAN, a technology leader in the wireless Internet/data communications sector, today announced a demonstration of wireless transmission of IEEE (Institute of Electrical and Electronics Engineers, New York, www.ieee.org) A membership organization that includes engineers, scientists and students in electronics and allied fields. 1394 at 2.4 GHz using Wi-LAN's patented Wideband Orthogonal Frequency Division Multiplexing See FDM. (communications) frequency division multiplexing - (FDM) The simultaneous transmission of multiple separate signals through a shared medium (such as a wire, optical fibre, or light beam) by modulating, at the transmitter, the separate signals into separable (W-OFDM) technology. The industry's first demonstration of wireless IEEE 1394 will take place at Internationale Funkausstellung (IFA) 1999 August 28th -- September 3rd in Berlin at the Hotel Berlin. This latest development establishes W-OFDM, the most bandwidth-efficient wireless transmission technology, as the only technology capable of providing data rates necessary for in-home multimedia networking. "The combination of IEEE 1394 and OFDM (Orthogonal Frequency Division Multiplexing) A digital transmission technique that uses a large number of carriers spaced apart at slightly different frequencies. is ideally suited for wireless in-home multimedia networking environments," said Scott McGregor Scott McGregor may refer to:
Technology Demonstration At IFA, the Wireless IEEE 1394 Demonstrator will feature an MPEG-2 data stream generator, which feeds a multiple transport stream into a Philips Semiconductors Set Top Box (STB See set-top box. STB - set-top box ). The STB converts this signal to an IEEE 1394 data stream and applies it to the Wi-LAN W-OFDM radio system. The Wi-LAN radio transmitter then sends the IEEE 1394 data stream over the air to the corresponding W-OFDM receiver. On the receive side, the IEEE 1394 signal is demodulated and sent to two STBs, which display the content of the different MPEG-2 data streams on two separate TV monitors. Using IEEE 1394 as the interface for the wired part of the network optimizes the entire system for transmission of isochronous Time dependent. Real time voice, video and telemetry are examples of isochronous data. (communications) isochronous - /i:-sok'rn-*s/ A form of multiplexing that guarantees to provide a certain minimum data rate, as required for time-dependent data such as video or audio. information (voice, live video) and provides an ideal interfacing to multimedia devices in the home. W-OFDM technology is inherently immune to the effects of multipath. "The recent advances in the semiconductor industry and particularly in digital signal processing See DSP. Digital Signal Processing - (DSP) Computer manipulation of analog signals (commonly sound or image) which have been converted to digital form (sampled). make W-OFDM the technology of choice for future high-speed wireless data communication applications," said Hatim Zaghloul, CEO (1) (Chief Executive Officer) The highest individual in command of an organization. Typically the president of the company, the CEO reports to the Chairman of the Board. and president, Wi-LAN, Inc. "The IFA demonstration marks the first time W-OFDM technology will be used to transmit high data rates over the air for consumer multimedia applications and Wi-LAN's step forward to the networked home of the future." OFDM Technology Like all modulation schemes, OFDM encodes data inside a radio frequency (RF) signal. Radio communications are often obstructed by occurring noise, stray and reflected signals. By sending high-speed signals concurrently on different frequencies, OFDM technology offers robust communications. OFDM enabled systems are highly tolerant to noise and multipath, which makes wide-area and in-home multi-point coverage possible. Additionally, these systems are very efficient in use of bandwidth, which allows for many more high-speed channels within a frequency band. W-OFDM is a cost-effective variation of OFDM that allows much larger throughputs than conventional OFDM by using a broad frequency band. W-OFDM further processes the signal to maximize the range. These improvements to conventional OFDM result in the dramatically increased transmission speeds. OFDM technology is becoming increasingly more visible as American and European standardization committees are choosing it as the only technology capable to provide reliable wireless high data rate connections. European terrestrial digital video broadcasting uses OFDM and the IEEE 802.11 working group recently selected OFDM in its proposed 6 to 54 Mbps wireless LAN A local area network that transmits over the air typically in the 2.4 GHz or 5 GHz unlicensed frequency band. It does not require line of sight between sender and receiver. Wireless base stations (access points) are wired to an Ethernet network and transmit a radio frequency over an area standard. The European Telecommunications Standards Institute (body) European Telecommunications Standards Institute - (ETSI) A European version of the ITU-T(?). is considering W-OFDM for the ETSI (European Telecommunications Standards Institute, Sophia Antipolis technical park, Nice, France, www.etsi.org) A non-profit membership organization founded in 1988, dedicated to standardizing information and communication technologies (ICT) throughout Europe. BRAN standard. About Wi-LAN Inc. Wi-LAN, based in Calgary, Alberta, Canada, delivers wireless data/Internet communications products that provide infrastructure and high-speed networking equipment for public and private wireless data networks. Wi-LAN's recently launched I.WiLL(TM) 30Mbps access point is based on its patented W-OFDM technology and carries unprecedented speeds in its industry class. The company's Hopper(TM) and Hopper Plus products have been sold in more than 50 countries on six continents. Wi-LAN is the 1999 recipient of the CATA Cat´a 1. The Latin and English form of a Greek preposition, used as a prefix to signify See Canadian Venture Exchange (CDNX). under the symbol WIN. Detailed information on Wi-LAN can be found on the Web at http://www.wi-lan.com. About Philips Semiconductors Philips Semiconductors, a subsidiary of Philips Electronics North America Corporation and an affiliate of Royal Philips Electronics, headquartered in Eindhoven, The Netherlands, is the eighth largest semiconductor supplier in the world (according to Dataquest's 1998 ranking by sales). Philips Semiconductors' innovations in digital audio, video, and mobile technology position the company as a leader in the consumer, multimedia and wireless communications markets. Sales offices are located in all major markets around the world and are supported by systems labs. Additional information on Philips Semiconductors can be found on the home page at www.semiconductors.philips.com or by calling 800/447-1500 Ext. 1828. |
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