| US 7,457,295 B2 | ||
| Radio communication system employing spectral reuse transceivers | ||
| R. Brent Saunders, Indian Harbour Beach, Fla. (US); Thomas F. Smaidris, Melbourne, Fla. (US); Edward Carl Gerhardt, Malabar, Fla. (US); William R. Highsmith, Indialantic, Fla. (US); Gregory M. Powell, Longwood, Fla. (US); David M. Odom, Altamonte Springs, Fla. (US); and Larry W. Koos, Sanford, Fla. (US) | ||
| Assigned to Adapt4 LLC, Melbourne, Fla. (US) | ||
| Filed on Dec. 08, 2003, as Appl. No. 10/730,753. | ||
| Claims priority of provisional application 60/432223, filed on Dec. 10, 2002. | ||
| Prior Publication US 2004/0142696 A1, Jul. 22, 2004 | ||
| Int. Cl. H04L 12/28 (2006.01); H04L 12/54 (2006.01) | ||
| U.S. Cl. 370—395.21 [370/322; 370/342; 370/343; 370/341; 370/395.41; 370/436; 370/437; 370/468; 370/477; 455/450; 455/445; 455/436] | 18 Claims |
| 1. A method of conducting communications between respective transceivers of a communication network using a selected portion
of a prescribed communication bandwidth containing a plurality of sub-bandwidth communication channels, said method comprising
the steps of:
(a) monitoring said prescribed communication bandwidth for the presence of communication activity on said sub-bandwidth communication
channels, and identifying those ones of said sub-bandwidth communication channels which are absent communication activity
as clear channels available for use by said respective transceivers; and
(b) causing said respective transceivers to conduct communications therebetween using selected ones of said clear channels
identified in step (a) and processing identifications of clear channels within a modulated filter bank containing an inverse
fast Fourier transform operator and a polyphase filter, and deriving therefrom a plurality of carrier frequencies respectively
corresponding to said selected ones of said clear channels;
wherein said communication network contains a master site transceiver and a plurality of remote site transceivers, and wherein
communications within said network are between said master site transceiver and said remote site transceivers; and
wherein step (a) comprises the steps of: (a1) causing said master site transceiver to transmit a prescribed message that is
detectable by each of said remote site transceivers and, in response to said prescribed message, causing each remote site
transceiver to monitor said prescribed communication bandwidth for effective communication activity on said sub-bandwidth
communication channels, and to identify which of said sub-bandwidth communication channels appear to said each remote site
transceiver to be absent effective communication activity and thereby constitute clear channels available for use,
(a2) causing each remote site transceiver to transmit to said master site transceiver a message identifying clear channels
identified thereby in step (a1), and
(a3) causing said master site transceiver to broadcast to each of said remote site transceivers a communication control message
containing an aggregate identification of clear channels based upon clear channel identifying messages transmitted by said
remote site transceivers to said master site transceiver in step (a2).
|