Abstract
An apparatus system and method efficiently manage reverse link communication in a communication system having geographically distributed base stations. Coupled load information is exchanged between base stations allowing a base station to determine an appropriate allocation of reverse link channel resources to mobile stations served by the base station. Since the allocation of reverse link channels resources are controlled directly by the base station delays due to communications with a central controller are eliminated. As a result adverse effects of load scheduling based on obsolete reverse channel information are minimized.
| Technology | Declaration Information | Specification Information | Explicitly Disclosed | Patent Type | |||||
|---|---|---|---|---|---|---|---|---|---|
| Declaration Date | Declaration Reference | Declaring Company | Specification Number | ||||||
| 4G | 26/11/2007 | ISLD-200802-003 | QUALCOMM INC |
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Specification Information
Specification Information
Technologies
Family Information
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| Publication No | Technology | Declaration Information | Specification Information | Explicitly Disclosed | Patent Type | Status | National Phase Entries | |||||
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Technologies
Mobility and handover Resource configuration
Product
Base Station (eNB/gNB)
Use Cases
Wireless communication
Services
Monitoring radio link
Claim
1. A method, performed in a base station functioning as a serving base station for a mobile station, for controlling reverse link communication in a distributed base station communication system, the method comprising:
receiving a maximum tolerable coupled load representing a maximum coupled load at another base station functioning as a non-serving base station to the mobile station, the maximum tolerable coupled load determined to be the reserved maximum load at the another base station due to reverse link transmissions of mobile stations served by the base station;
receiving a coupled load indicator representing a coupled load parameter measured at the another base station due to the mobile station; and
managing reverse link transmissions of the mobile station in accordance with the maximum tolerable coupled load.', 'receiving a maximum tolerable coupled load representing a maximum coupled load at another base station functioning as a non-serving base station to the mobile station, the maximum tolerable coupled load determined to be the reserved maximum load at the another base station due to reverse link transmissions of mobile stations served by the base station;', 'receiving a coupled load indicator representing a coupled load parameter measured at the another base station due to the mobile station; and', 'managing reverse link transmissions of the mobile station in accordance with the maximum tolerable coupled load.
2. A method in accordance with claim 1, further comprising:
allocating reverse link resources between a plurality of mobile stations in accordance with the maximum tolerable coupled load indicator, each of the plurality of mobile stations served by the base station and maintaining the another base station in a set of active base stations.', 'allocating reverse link resources between a plurality of mobile stations in accordance with the maximum tolerable coupled load indicator, each of the plurality of mobile stations served by the base station and maintaining the another base station in a set of active base stations.
3. A method in accordance with claim 2, wherein the allocating the reverse link resources comprises:
calculating an expected coupled load at the another base station due to each of the plurality of mobile stations, each expected coupled load based on the coupled load indicator corresponding to the mobile station and a transmission parameter of the mobile station; and
controlling the reverse link transmissions of the mobile stations such that the sum of the expected coupled loads corresponding to the another base station are less than the maximum tolerable coupled load indicator.', 'calculating an expected coupled load at the another base station due to each of the plurality of mobile stations, each expected coupled load based on the coupled load indicator corresponding to the mobile station and a transmission parameter of the mobile station; and', 'controlling the reverse link transmissions of the mobile stations such that the sum of the expected coupled loads corresponding to the another base station are less than the maximum tolerable coupled load indicator.
4. A method in accordance with claim 3, wherein the mobile station transmission parameters comprise a transmission data rate of a reverse link transmission from the mobile station.
5. A method in accordance with claim 4, wherein the mobile station transmission parameters comprise a transmission power level of the reverse link transmission.
6. A method in accordance with claim 5, wherein the coupled load indicator represents an energy-per-chip-to-noise-plus-interference ratio (Ecp/Nt) measured at the another base station.
7. A method in accordance with claim 5, wherein the maximum tolerable coupled load represents a tolerable energy-per-chip-to-noise-plus-interference ratio (Ecp/Nt) at the another base station.
8. A method performed in a base station functioning as a non-serving base station for a mobile station, for controlling reverse link communication in a distributed base station communication system, the method comprising:
forwarding, to another base station, a coupled load indicator representing a coupled load parameters measured at the base station due to reverse link transmissions of a mobile station served by another base station, the mobile station maintaining the base station in a set of active base stations; and
forwarding a maximum tolerable coupled load representing a reserved maximum coupled load at the base station due to the mobile stations.', 'forwarding, to another base station, a coupled load indicator representing a coupled load parameters measured at the base station due to reverse link transmissions of a mobile station served by another base station, the mobile station maintaining the base station in a set of active base stations; and', 'forwarding a maximum tolerable coupled load representing a reserved maximum coupled load at the base station due to the mobile stations.
9. A method in accordance with claim 8, further comprising:
determining the maximum tolerable coupled load based on reverse link resource requests of other mobile stations served by the base station.', 'determining the maximum tolerable coupled load based on reverse link resource requests of other mobile stations served by the base station
10. A method in accordance with claim 9, wherein the determining the maximum tolerable coupled load further comprises:
determining the maximum tolerable coupled load based on transmission priorities of the other mobile stations served by the base station.', 'determining the maximum tolerable coupled load based on transmission priorities of the other mobile stations served by the base station
11. A method in accordance with claim 9, wherein the coupled load indicator represents an energy-per-chip-to-noise-plus-interference ratio (Ecp/Nt) measured at the base station
12. A method in accordance with claim 9, wherein the maximum tolerable coupled load represents a tolerable expected energy-per-chip-to-noise-plus-interference ratio (Ecp/Nt) at the base station
13. A base station comprising:
a control interface configured to receive, from another base station, a coupled load indicator of a coupled load parameter measured at the another base station and due to reverse link transmissions of a mobile station maintaining the another base station in a set of active base stations, the control interface further configured to receive a maximum tolerable coupled load representing a maximum coupled load at the another base station functioning as a non-serving base station to the mobile station, the maximum tolerable coupled load determined to be the reserved maximum load at the another base station due to mobile stations served by the base station; and
a processor configured to allocate reverse link resources in accordance with the maximum tolerable coupled load.', 'a control interface configured to receive, from another base station, a coupled load indicator of a coupled load parameter measured at the another base station and due to reverse link transmissions of a mobile station maintaining the another base station in a set of active base stations, the control interface further configured to receive a maximum tolerable coupled load representing a maximum coupled load at the another base station functioning as a non-serving base station to the mobile station, the maximum tolerable coupled load determined to be the reserved maximum load at the another base station due to mobile stations served by the base station; and', 'a processor configured to allocate reverse link resources in accordance with the maximum tolerable coupled load
14. A base station in accordance with claim 13, the processor configured to allocate reverse link resources by allocating reverse link resources between a plurality of mobile stations in accordance with the maximum tolerable coupled load
15. A base station in accordance with claim 14, wherein the processor is further configured to allocate the reverse link resources by:
calculating an expected coupled load at the another base station due to each of the plurality of mobile stations, each expected coupled load based on the coupled load indicator corresponding to the mobile station and a transmission parameter of the mobile station; and
controlling the reverse link transmissions of the mobile stations such that the sum of the expected coupled loads corresponding to the another base station are less than the maximum tolerable coupled load.', 'calculating an expected coupled load at the another base station due to each of the plurality of mobile stations, each expected coupled load based on the coupled load indicator corresponding to the mobile station and a transmission parameter of the mobile station; and', 'controlling the reverse link transmissions of the mobile stations such that the sum of the expected coupled loads corresponding to the another base station are less than the maximum tolerable coupled load.16. A base station in accordance with claim 15, wherein the mobile station transmission parameters comprise a transmission data rate of a reverse link transmission from the mobile station.17. A base station in accordance with claim 4, wherein the mobile station transmission parameters comprise a transmission power level.18. A base station in accordance with claim 5, wherein the coupled load indicator represents an energy-per-chip-to-noise-plus-interference ratio (Ecp/Nt) measured at the another base station.19. A base station in accordance with claim 5, wherein the maximum tolerable coupled load represents a tolerable energy-per-chip-to-noise-plus-interference ratio (Ecp/Nt) at the another base station.
20. A base station comprising:
a communication interface configured to forward to another base station a coupled load indicator representing a coupled load parameter measured at the base station due to reverse link transmissions of a mobile station served by the another base station, the mobile station maintaining the base station in a set of active base stations and configured to forward, to the another base station, a maximum tolerable load representing a reserved maximum coupled load at the base station for reverse link transmissions of the mobile stations; and
a processor configured to determine the maximum coupled load based on reverse link resource requests of other mobile stations served by the base station.', 'a communication interface configured to forward to another base station a coupled load indicator representing a coupled load parameter measured at the base station due to reverse link transmissions of a mobile station served by the another base station, the mobile station maintaining the base station in a set of active base stations and configured to forward, to the another base station, a maximum tolerable load representing a reserved maximum coupled load at the base station for reverse link transmissions of the mobile stations; and', 'a processor configured to determine the maximum coupled load based on reverse link resource requests of other mobile stations served by the base station.
21. A base station in accordance with claim 20, wherein the processor is further configured to determine the maximum tolerable coupled load based on transmission priorities of the other mobile stations served by the base station.
22. A base station in accordance with claim 21, wherein the processor is further configured to determine the maximum tolerable coupled load based on coupled load parameters of a reverse link transmission of the mobile stations served by the another base station.
23. A base station in accordance with claim 20, wherein the coupled load indicator represents an energy-per-chip-to-noise-plus-interference ratio (Ecp/Nt) measured at the base station.
24. A base station in accordance with claim 20, wherein the maximum tolerable coupled load represents a tolerable expected energy-per-chip-to-noise-plus-interference ratio (Ecp/Nt) at the base station.']
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SUMMARY
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Patent number:US7197319B2
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The information in blue was extracted from the third parties (Standard Setting Organisation, Espacenet)
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The information in purple was extracted from the FrandAvenue
Explicitly disclosed patent:openly and comprehensibly describes all details of the invention in the patent document.
Implicitly disclosed patent:does not explicitly state certain aspects of the invention, but still allows for these to be inferred from the information provided.
Basis patent:The core patent in a family, outlining the fundamental invention from which related patents or applications originate.
Family member:related patents or applications that share a common priority or original filing.