Wireless system containing a first network and a second network
First Claim
1. A system containing a first network with assigned first stations and a second network with second stations, whereby a hybrid-coordinator sends a beacon at a target beacon transmission time with setting a first parameter, whereby upon receiving this beacon by second stations, the second stations extract and evaluate the first parameter and thus set timers to a appropriate duration, not to initiate any data transmission during the respective time, whereby after sending this beacon the hybrid coordinator is able to initiate the transmission of data of the first network without underlying interference from the second network.
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Accused Products
Abstract
The invention defines a combined and harmonized protocol for wireless LANs based on the combination of ETSI BRAN HiperLAN/2 protocols with IEEE 802.11a protocols. The new HipeLAN/2 enhanced AP (H/2eAP) will—in addition to its standard HiperLAN/2 operation—also work as Point Coordinator of 802.11a, or is supported by a cooperative Point Coordinator of 802.11. The H/2eAP sends a corporate beacon at the H/2 Target Beacon Transmission Time (H/2 TBTT) with setting the CfpDurRemaining parameter to (a multiple of) 2 ms. Upon receiving this beacon by stations of the 802.11a BSS, the stations recognize it as a foreign BSS beacon, extract and evaluate the CfpDurRemaining parameter and thus set timers to the appropriate duration, not to initiate any data transmission during the respective time. After sending this beacon the H/2eAP is able to initiate the transmission of its H/2 MAC frame without underlying interference from the neighbor 802.11a system and without delay of the initial H/2 corporate beacon. The H/2 MAC frame will be embedded in the 802.11 Contention Period (CP) right after the Contention Free Period (CFP). Because the CP before the H/2 MAC frame is either controlled by the H/2eAP or by a cooperative PC, it can be guaranteed that there is no delay of the H/2 corporate beacon transmission. As a result, QoS in H/2 can be supported. The resulting time sequence can be divided into three parts, (1) the “802.11e CFP” with limited Quality of Service, (2) the “HiperLAN/2 MAC” frame with full support of Quality of Service, and (3) the 802.11e CP without any Quality of Service support. All three parts together form the so-called corporate superframe, which is periodically repeated in time.
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Citations
6 Claims
- 1. A system containing a first network with assigned first stations and a second network with second stations, whereby a hybrid-coordinator sends a beacon at a target beacon transmission time with setting a first parameter, whereby upon receiving this beacon by second stations, the second stations extract and evaluate the first parameter and thus set timers to a appropriate duration, not to initiate any data transmission during the respective time, whereby after sending this beacon the hybrid coordinator is able to initiate the transmission of data of the first network without underlying interference from the second network.
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5. A method to coordinate a first network with assigned first stations and a second network with second stations, whereby a hybrid-coordinator sends a beacon at a target beacon transmission time with setting a first parameter, whereby upon receiving this beacon by second stations, the second stations extract and evaluate the first parameter and thus set timers to a appropriate duration, not to initiate any data transmission during the respective time, whereby after sending this beacon the hybrid coordinator is able to initiate the transmission of data of the first network without underlying interference from the second network.
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6. A hybrid-coordinator for coordinating a first network with assigned first stations and a second network with second stations, whereby the hybrid-coordinator sends a beacon at a target beacon transmission time with setting a first parameter, whereby the first parameter comprises a indication for the second stations not to initiate any data transmission during a specific time-period, whereby after sending this beacon the hybrid coordinator is able to initiate the transmission of data of the first network without underlying interference from the second network.
Specification