Einzeltreffer — DigiBib

Disclosed herein is a method and system for dynamic channel allocation among plurality of Base Transceiver Stations (BTSs) in Long-Range Land-to-Sea (LRLS) wireless network. The method comprises configuring plurality of channels, having non-overlapping frequencies, to plurality of BTSs, and obtaining channel quality parameters related to each channel. Subsequently, an Aggregate Weighted Signal-to-Interference Noise Ratio (AWSINR) metrics and a throughput value for each of plurality of BTSs is determined based on the channel quality parameters. Finally, an optimal channel is identified among plurality of channels for allocating to each of plurality of BTSs based on the AWSINR metrics or the throughput value. In an embodiment, the present disclosure helps in eliminating interference in the LRLS wireless network, thereby optimizing network throughput and enhancing Quality of Experience to end users.

Titel:	Method and system for dynamic channel allocation in long-range land-to-sea (LRLS) wireless communication
Autor/in / Beteiligte Person:	WIPRO, LIMITED
Link:	View record in USPTO Patent Grants (Volltext)
Veröffentlichung:	2020
Medientyp:	Patent
Sonstiges:	Nachgewiesen in: USPTO Patent Grants Sprachen: English Patent Number: 10667,274 Publication Date: May 26, 2020 Appl. No: 16/022828 Application Filed: June 29, 2018 Assignees: Wipro Limited (Bangalore, IN) Claim: 1. A method of dynamic channel allocation among a plurality of Base Transceiver Stations (BTSs) in a Long-Range Land-To-Sea (LRLS) wireless network, the method comprising: configuring, by a channel allocation unit, a plurality of channels, having non-overlapping frequencies, to the plurality of BTSs for communicating with one or more Customer Premises Equipments (CPEs); scanning, by the channel allocation unit, each of the plurality of channels corresponding to each pair of the BTS and the CPEs for obtaining one or more channel quality parameters related to each of the plurality of channels; computing, by the channel allocation unit, at least one of an Aggregate Weighted Signal-to-Interference Noise Ratio (AWSINR) metrics or channel capacity metrics for each pair of the BTS and the CPEs, across each of the plurality of channels, based on the one or more channel quality parameters; determining, by the channel allocation unit, a throughput value for the plurality of BTSs across each of the plurality of channels based on the channel capacity metrics of the corresponding channel; and identifying, by the channel allocation unit, an optimal channel, from the plurality of channels, for each of the plurality of BTSs based on at least one of the AWSINR metrics or the throughput value, wherein the identified optimal channel is allocated to respective each of the plurality of BTSs, and wherein the identified optimal channel eliminates interference at each of the plurality of BTSs. Claim: 2. The method as claimed in claim 1 , wherein the one or more channel quality parameters comprise at least one of a downlink AWSINR of each of the plurality of channels, an uplink AWSINR of each of the plurality of channels, buffer size of the AWSINR metrics of each of the plurality of channels, downlink channel capacity of each of the plurality of channels, and uplink channel capacity of each of the plurality of channels. Claim: 3. The method as claimed in claim 1 , wherein the AWSINR metrics is computed as a sum of downlink AWSINR and uplink AWSINR of each of the plurality of channels, normalized to buffer size of the AWSINR metrics of each of the plurality of channels. Claim: 4. The method as claimed in claim 1 , wherein the channel capacity metrics is computed as a sum of downlink channel capacity and uplink channel capacity of each of the plurality of channels. Claim: 5. The method as claimed in claim 1 , wherein the AWSINR metrics and the channel capacity metrics are computed at predetermined regular intervals based on the one or more channel quality parameters obtained at the predetermined regular intervals. Claim: 6. The method as claimed in claim 1 , wherein the throughput is determined by computing the combined channel capacity of each of the plurality of channels. Claim: 7. The method as claimed in claim 1 , wherein identifying the optimal channel for each of the plurality of BTSs comprises: ranking each of the plurality of BTSs and corresponding plurality of channels based on at least one of the AWSINR or the throughput value; and identifying one of the plurality of channels, having highest rank, as the optimal channel for the respective each of the plurality of BTSs. Claim: 8. A channel allocation unit for performing dynamic channel allocation among a plurality of Base Transceiver Stations (BTSs) in a Long-Range Land-To-Sea (LRLS) wireless network, the channel allocation unit comprising: a processor; and a memory, communicatively coupled to the processor, wherein the memory stores processor-executable instructions, which on execution, cause the processor to: configure a plurality of channels, having non-overlapping frequencies, to the plurality of BTSs to communicate with one or more Customer Premises Equipments (CPEs); scan each of the plurality of channels corresponding to each pair of the BTS and the CPEs to obtain one or more channel quality parameters related to each of the plurality of channels; compute at least one of an Aggregate Weighted Signal-to-Interference Noise Ratio (AWSINR) metrics or the channel capacity metrics for each pair of the BTS and the CPEs, across each of the plurality of channels, based on the one or more channel quality parameters; determine a throughput value for the plurality of BTSs across each of the plurality of channels based on the channel capacity metrics of the corresponding channel; and identify an optimal channel, from the plurality of channels, for each of the plurality of BTSs based on at least one of the AWSINR metrics or the throughput value, wherein the identified optimal channel is allocated to respective each of the plurality of BTSs and wherein the identified optimal channel eliminates interference at each of the plurality of BTSs. Claim: 9. The channel allocation unit as claimed in claim 8 , wherein the one or more channel quality parameters comprise at least one of a downlink AWSINR of each of the plurality of channels, an uplink AWSINR of each of the plurality of channels, buffer size of the AWSINR metrics of each of the plurality of channels, downlink channel capacity of each of the plurality of channels, and uplink channel capacity of each of the plurality of channels. Claim: 10. The channel allocation unit as claimed in claim 8 , wherein the processor computes the AWSINR metrics as a sum of downlink AWSINR and uplink AWSINR of each of the plurality of channels, normalized to buffer size of the AWSINR metrics of each of the plurality of channels. Claim: 11. The channel allocation unit as claimed in claim 8 , wherein the processor computes the channel capacity metrics as a sum of downlink channel capacity and uplink channel capacity of each of the plurality of channels. Claim: 12. The channel allocation unit as claimed in claim 8 , wherein the processor computes the AWSINR metrics and the channel capacity metrics at predetermined regular intervals based on the one or more channel quality parameters obtained at the predetermined regular intervals. Claim: 13. The channel allocation unit as claimed in claim 8 , wherein the processor determines the throughput by computing the combined channel capacity of each of the plurality of channels. Claim: 14. The channel allocation unit as claimed in claim 8 , wherein to identify the optimal channel for each of the plurality of BTSs, the processor is configured to: rank each of the plurality of BTSs and corresponding plurality of channels based on at least one of the AWSINR or the throughput value (217); and identify one of the plurality of channels, having highest rank, as the optimal channel for the respective each of the plurality of BTSs. Claim: 15. A non-transitory computer readable medium including instructions stored thereon that when processed by at least one processor cause a channel allocation unit to perform operations comprising: configuring a plurality of channels having non-overlapping frequencies to the plurality of BTSs for communicating with one or more Customer Premises Equipments (CPEs); scanning each of the plurality of channels corresponding to each pair of the BTS and the CPEs for obtaining one or more channel quality parameters related to each of the plurality of channels; computing at least one of an Aggregate Weighted Signal-to-Interference Noise Ratio (AWSINR) metrics or channel capacity metrics for each pair of the BTS and the CPEs, across each of the plurality of channels, based on the one or more channel quality parameters; determining a throughput value for the plurality of BTSs across each of the plurality of channels based on the channel capacity metrics of the corresponding channel; and identifying an optimal channel, from the plurality of channels, for each of the plurality of BTSs based on at least one of the AWSINR metrics or the throughput value, wherein the identified optimal channel is allocated to respective each of the plurality of BTSs and wherein the identified optimal channel eliminates interference at each of the plurality of BTSs. Patent References Cited: 7110374 September 2006 Malhotra et al. ; 7206840 April 2007 Choi ; 8290503 October 2012 Sadek et al. ; 9055460 June 2015 Kim ; 9055592 June 2015 Clegg ; 9319916 April 2016 Abdelmonem ; 9860165 January 2018 Zou ; 2011/0117967 May 2011 Vedantham ; 2015/0305051 October 2015 Xia ; 2018/0316478 November 2018 Clegg ; 1809998 July 2006 Primary Examiner: Connor, Brian T O Attorney, Agent or Firm: Finnegan, Henderson, Farabow, Garrett & Dunner, LLP

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Method and system for dynamic channel allocation in long-range land-to-sea (LRLS) wireless communication