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Ricochet was one of the pioneering wireless "Internet access services in the "United States, before "Wi-Fi, "3G, and other technologies were available to the general public. It was developed and first offered by Metricom Incorporated, which shut down in 2001. The service was originally known as the Micro Cellular Data Network, or MCDN, gaining the Ricochet name when opened to public use.
Metricom was founded in 1985, initially selling radios to electric, gas, oil, and water industrial customers. One of its founders and its first President was Dr. David M. Elliott. Another of its founders was "Paul Baran. "Paul Allen took a controlling stake in Metricom in 1997. Service began in 1994 in "Cupertino, California, and was quickly deployed throughout "Silicon Valley (the northern part of "Santa Clara Valley) by 1995, the rest of the "San Francisco Bay Area by 1996, and to other cities throughout the end of the 1990s. By this time, the original network had been upgraded, via firmware improvements, to almost twice its original throughput, and was operating at roughly the speed of a 56 kbit/s dialup modem; in addition, Ricochet introduced a higher-speed (nominally 128 kbit/s, in practice often faster) service in 1999; monthly fees for this service were more than double those for the original service.
At its height, in early 2001, Ricochet service was available in "Atlanta, "Baltimore, "Dallas, "Denver, "Detroit, "Houston, "Los Angeles, "Miami, "Minneapolis, "New York City and surrounding New Jersey, "Philadelphia, Minneapolis-"St. Paul, "Phoenix, "San Diego, "San Francisco, "Seattle, and "Washington, D.C. Over 51,000 subscribers paid for the service. In July 2001, however, Ricochet's owner, Metricom, filed for "Chapter 11 bankruptcy and shut down its service. Like many companies during the "dot-com boom, Metricom had spent more money than it took in and concentrated on a nationwide rollout and marketing instead of developing select markets.
Ricochet was reportedly officially utilized in the immediate disaster recovery situation of the "September 11, 2001 terrorist attacks, partially operated by former employees as volunteers, when even cell phone networks were overloaded.
After bankruptcy, in November 2001, Aerie Networks, a Denver-based broadband firm, purchased the assets of the company at a "liquidation sale. Service was restored to Denver in August 2002, and to San Diego in November 2002. Aerie sold Ricochet to EDL Holdings in 2003, who then sold it to YDI Wireless in 2004. YDI Wireless changed its name to "Terabeam Inc., and Ricochet then operated as a subsidiary of Terabeam. Terabeam pursued a less ambitious strategy for Ricochet and announced no plans for expansion. During the bankruptcy, ownership of the Ricochet radio transmitters had reverted to the municipalities where the radios were installed, so any expansion would have required Ricochet to renegotiate agreements with the cities or counties in question. In the meantime, wireless data services carried over the cellular telephone network had become increasingly popular (and available in most population centers worldwide), making the value of Ricochet technology unclear. In March 2006, there were about 8,000 subscribers between the two markets. In August 2007 the Ricochet service was acquired by Civitas Wireless Solutions LLC. Ricochet notified its Denver customers on March 28, 2008, that service would cease the next day. Civitas liquidated itself in February 2009 after bankruptcy.
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The technology, deployed by Metricom Inc., worked as a wireless "mesh network: "packets were forwarded by small "repeaters (typically mounted on streetlights, for the use of which Metricom negotiated agreements with municipal governments) and might "bounce" among several such units along the path between an end-user's modem and a wired internet access point; hence the name of the service. The wireless ISP service was an outgrowth of technology Metricom had developed to facilitate remote meter reading for utility companies. It was originally inspired by "amateur "packet radio, but differed from this technology in many respects: for instance, Ricochet used "spread spectrum ("FHSS) technology in the low-power "license-free" 900 MHz "ISM band of the "RF spectrum. In addition to the resistance to eavesdropping offered by FHSS, modems offered built-in "encryption, but this was not turned on by default.
Throughput was originally advertised as equivalent to, and in practice was often somewhat better than, that of a then-standard 28.8 kbit/s telephone "modem. In addition, Ricochet could be treated as an "always-on" connection (in the sense that, once connected to the network, it could stay connected even when not in use without tying up scarce resources, unlike a dialup connection), much the way broadband is today. It was also marketed for a flat monthly fee (the original Ricochet service was $29.95 a month, less than the cost of dialup plus a second phone line). As a result, a significant number of users in the Ricochet service area adopted it as their primary home Internet connection.
Ricochet's main draw, however, was that it was wireless; at the time, there were almost no other options for a wireless Internet connection. "Cellular phones were not as prevalent as today, and wireless data services such as "GPRS had not yet been deployed on US cellular networks. It was possible to use specially adapted dialup modems over cellular connections, but this was slow (typically topping out at 9.6 kbit/s), expensive (per-minute charges applied), and often flaky. In contrast, Ricochet was fast, flat-rate, and very reliable.
The consumer equipment uses license-free 1 W "900 MHz "FHSS "encrypted radio modems which respond to standard "Hayes "AT" commands. They include a packet-based mode of operation called "star mode", and it is possible to create a "point to point connection or even a small independent network with data speeds greater than 256 kbit/s. Some of the infrastructure equipment used 900 MHz for the link to the consumer and used 2.4 GHz for the "backhaul link. (A third option, the licensed 2.3 GHz WCS band, was used only in heavily loaded parts of the network and is seldom mentioned in literature).