FROM WLGS homepage:
World Wide Wireless Communication Inc. (WWWC) - OTC Bulletin Board:WLGS, a Nevada corporation has acquired and/or developed proprietary technology, licenses and communications infrastructure to position the company on the leading edge of "next generation" developments in high-speed internet access (Internet Division) and digital cellular (PCS) phone research (Super-PCS Division). WWWC will operate through these two divisions as separately managed and financed profit centers.
INTERNET (ISP) DIVISION
The Internet (ISP) - Internet Service Provider - Division have three with access to forty-three other licensed demographic areas in the U.S.
The East Bay Area of San Francisco Bay is the keystone.
San Diego, CA and South Bend are next in importance.
The licenses allow WWWC to use wireless cable television (W-CATV) licenses and technology to offer high-speed digital Internet information (Data) rather than the conventional TV programming (Video). The company could, however, at any point in time configure the system to provide full interactive communications services - Data (Internet), Video (TV) and Voice (Phone).
This approach provides a network connectivity solution superior to other cable and wireless cable modems or alternative technologies in that it provides a combination of the following factors: (1) higher speed. (2) more efficient use of bandwidth, (3) better network manageability through a client-server architecture, (4) ability to scale, (5) protocol-independence, (6) ability to operate in wireless systems and other systems with or without return paths, (7) ability to manage multiple headends from a single PoP, (8) ability to utilize existing transmission infrastructure and (9) ease of installation and availability at affordable cost.
The table below provides information as to differences in the actual time required to download from the Internet seven specific examples of data-intensive content using (1) a telephone modem operating at 14.4 Kbps, (2) a telephone modem operating at 28.8 Kbps, (3) an ISDN modem, and (4) a wireless cable modem. The table reflects a comparison of access times under similar circumstances. Although response time in accessing information from the internet is primarily affected by the speed of transmission permitted by the modem connection, other factors affect the response speeds as well, including server speed and business, the speed of the computer at the client end, the speed of the server at the headend, and the speed of any intermediate transmission line and other factors. Accordingly, the response times illustrated in the table below may vary in actual operation depending upon the actual system configuration and other circumstances.
Actual Time To Download Information
Modem Type Nominal Speed Ratio Direct Mail
Catalog (1) Jupiter Photo (2) Audio (3) Netscape 3.0
Beta Download
Telephone 14.4 Kbps 711x 163 sec 149 sec 22.0 Min 2.1 Hrs
Telephone 28.8 Kbps 356x 108 sec 101 sec 13.9 Min 1.25 Hrs
ISDN Modem 128 Kbps 80x 46.0 sec 43.0 sec 5.2 Min 26.0 Min
WWWC Wireless
Cable Modem 10 Mbps 1.0x 4.5 sec 4.0 sec 33.1 sec 55.0 sec
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L.L. Bean Catalog Page - Winter Tents.
Jupiter Photograph from jpl.nasa.gov image library - 128 Kbytes.
The Doors: People are Strange Audio - 1,040,416 bytes,
Using existing facilities and infrastructure, the speed of telephone modems is approaching a practical limit. Several alternatives that have been proposed by others in the industry include:
ISDN, a digital telephony service, already available on a limited basis in some locations, which has the advantage of being up to five times faster than standard telephone service, but is expensive. For providers, it has a substantial disadvantage in being used on circuit-switched technology which has a dedicated and continuously connected circuit for each simultaneous call, thereby significantly limiting the total capacity of the system and increasing its costs.
ADSL, RDSL and RADSL (collectively, XDSL), various series of new digital services that are circuit-switched and, therefore, inherently expensive to operate for the reason described above; in addition, the deployment of the services is extremely limited and will require substantial capital expenditures to improve the existing cable infrastructure, including installing expensive line cards and repeaters.
Installing optical fiber from the headend to the home, an enormous undertaking that would require building over the existing (coaxial, cable) infrastructure; widespread installation would be extremely expensive and slow, requiring a number of years (possibly, decades) - not considered a practical, near-term solution.
Service over wireless cable, employing wireless cable modems and equipment from Hybrid or other providers, can provide huge increases in speed, and has the advantage of using packet-switched technology. Packet-switching does not require every simultaneous call to have a continuously connected circuit, and instead routes labeled "packets" of data over shared circuits to their destinations. This has dramatic capital cost and time-to-market advantages over fiber to the home.
The company believes that users will overwhelmingly choose wireless cable service over the alternatives because of its speed and cost advantages. The market for wireless cable modems is expected to expand dramatically over the next several years.
WIRELESS PHONE DIVISION
The development of this "next generation" mobile or cellular phone has been referred to as the (1) "VDMA" - Virtual Division Multiple Access -, "SMART" - Specialized Mobile Autonomous Radio Transmitting - and (3) Super-PCS Phone - Personal Communication Services. For the sake of consistency, the WWW phone will be referred to as the SMART Phone.
The U.S. standard for digital mobile phone service was developed by Qualcom in the early 1990's. It is commonly referred to as CDMA or Code Division Multiple Access. The generic reference is PCS. Whether the wireless or cellular phone uses analog or digital technology, the costs for cell sites averages $500,000 each 6 mile x 6 mile. This infrastructure cost includes the tower, microwave dishes (transmitter/receiver), etc.
A recent WWW research update states that as the century turns, multi-million transistor microchips are being made that, within a year or two, will effect what will probably be the next major change for the 21st century. They will usher in the era of free worldwide wireless communications.
We foresaw the coming era several years ago and have filed patents for what we believe are the major design underpinnings of the new era. The VDMA units will be in production within nine months. A scaled-down version will be available by year's end.
Meanwhile, we at WWWC have completed our first major undertaking of the "SMART" - System for Mobile Autonomous Radio Tracking - program: the design is done for the microchip for the basic SMART handset. It needs only to be committed to silicon to become the nucleus of the next generation of CDMA handsets. CDMA is now recognized as by the far the most efficient and highest quality method of signal propagation ever devised, and WWWC laboratories has developed what may be the world's leading CDMA system as a subset of the SMART/VDMA handsets.
When we selected the CDMA circuit as the core design of our revolutionary } SMART/VDMA cell phone system, we did so because we needed the quality, spectral efficiency and power economy that only CDMA could provide. We did not expect the superior CDMA features would totally swamp the burgeoning handset industry worldwide and make it a product in sweeping universal demand, as has happened. Thus, now that we are ready to commit our CDMA circuit to silicon, we are revising our initial plan to include fine microchips as soon as possible for our customers' production. Although chips alone could be sold, we are quite capable of preparing a complete engineering package for the handset.
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