Method and apparatus for providing a distributed architecture digital wireless communication system
First Claim
1. A method for providing a distributed architecture digital wireless communication system including a mobile station and a plurality of cell sites, the method comprising the steps of:
- selecting by the mobile station a preferred cell site for transmitting a frame of data to be sent subsequently to the mobile station;
scheduling, by a base station of the preferred cell site, a transmission of the frame of data, wherein parameters for the transmission are determined by the base station from recently-measured channel and interference information;
thereafter, sending the frame of data from the preferred cell site; and
synchronizing a data queue by an active set of base station associated with the mobile station to reflect the transmission, of the frame of data.
2 Assignments
0 Petitions
Accused Products
Abstract
A mobile station (402) selects (1802) a preferred cell site for transmitting a frame of data to be sent subsequently to the mobile station. A base station (602) of the preferred cell site schedules (1804) a transmission of the frame of data, wherein parameters for the transmission are determined by the base station from recently-measured channel and interference information. Thereafter, the base station sends (1806) the frame of data from the preferred cell site; and an active set of base stations associated with the mobile station at ones of a plurality of cell sites synchronize (1808) their data queues to reflect the transmission of the frame of data.
93 Citations
24 Claims
-
1. A method for providing a distributed architecture digital wireless communication system including a mobile station and a plurality of cell sites, the method comprising the steps of:
-
selecting by the mobile station a preferred cell site for transmitting a frame of data to be sent subsequently to the mobile station;
scheduling, by a base station of the preferred cell site, a transmission of the frame of data, wherein parameters for the transmission are determined by the base station from recently-measured channel and interference information;
thereafter, sending the frame of data from the preferred cell site; and
synchronizing a data queue by an active set of base station associated with the mobile station to reflect the transmission, of the frame of data. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
monitoring transmissions of the active set of base stations associated with the mobile station during a current frame of data to determine the preferred cell site for transmitting the frame of data to be sent subsequently to the mobile station; and
identifying the preferred cell site through a reverse link transmission.
-
-
7. The method of claim 1, further comprising the step of
providing at the base stations an Automatic Repeat reQuest (ARQ) function, thereby reducing ARQ feedback delay. -
8. The method of claim 7, further comprising in the active set of base stations the step of
monitoring an uplink transmission from the mobile station to detect an ARQ acknowledgment. -
9. The method of claim 7, wherein the providing step comprises the steps of:
-
performing the ARQ function through a dual-channel hybrid ARQ technique in which odd and even frames of data are processed in separate ARQ channels to generate even and odd ARQ functions; and
when switching from a current cell to a new cell, separately switching the even and odd ARQ functions after a corresponding current even or odd packet finishes.
-
-
10. The method of claim 9, wherein the step of separately switching the even and odd ARQ functions comprises the step of
calculating a starting packet sequence number in the new cell from an estimated grouping and success of transmissions of the current cell. -
11. The method of claim 7, wherein the providing step comprises the steps of:
-
performing the ARQ function through a dual-channel hybrid ARQ technique in which odd and even frames of data are processed in separate ARQ channels to generate even and odd ARQ functions, and when switching from a current cell to a new cell, immediately switching the even and odd ARQ functions, and continuing the even and odd ARQ functions in the new cell.
-
-
12. The method of claim 7, wherein the providing step comprises the steps of:
-
performing the ARQ function through a dual-channel hybrid ARQ technique in which odd and even frames of data are processed in separate ARQ channels to generate even and odd ARQ functions;
synchronizing the active set of base stations associated with the mobile station initially and periodically through backhaul updates; and
mirroring, by the base stations in the active set, a radio link control status of the base station of the preferred cell site between the backhaul updates.
-
-
13. The method of claim 7, wherein the providing step comprises the steps of:
-
performing the ARQ function through an n-channel hybrid ARQ technique in which n frames of data are processed in separate ARQ channels to generate n ARQ functions, and when switching from a current cell to a new cell, separately switching each of the n ARQ functions after a corresponding current packet of a given set finishes.
-
-
14. The method of claim 13, wherein the step of separately switching each of the n ARQ functions comprises the step of
calculating a starting packet sequence number in the new cell from an estimated grouping and success of transmissions of the current cell. -
15. The method of claim 7, wherein the providing step comprises the steps of:
-
performing the ARQ function through an n-channel hybrid ARQ technique in which n frames of data are processed in separate ARQ channels to generate n ARQ functions, and when switching to a new cell, immediately switching each of the n ARQ functions, and continuing the n ARQ functions in the new cell.
-
-
16. The method of claim 7, wherein the providing step comprises the steps of:
-
performing the ARQ function through an n-channel hybrid ARQ technique in which n frames of data are processed in separate ARQ channels to generate n ARQ functions;
synchronizing the active set of base stations associated with the mobile station initially and periodically through backhaul updates; and
mirroring, by the base stations in the active set, a radio link control status of the base station of the preferred cell site between the backhaul updates.
-
-
17. The method of claim 7, wherein the mobile station returns an ARQ acknowledgment which includes a report of at least one of a modulation and coding level, a number of multicodes, and a packet number used by the base station of the preferred cell site while sending the transmission.
-
18. The method of claim 7, wherein the mobile station returns an ARQ acknowledgment which is transmitted at a sufficient power level to be received by at least one of the active set of base stations associated with the mobile station.
-
19. A base station for use in a distributed architecture digital wireless communication system including a mobile station and a plurality of cell sites, the base station comprising:
-
a transceiver for receiving a message from the mobile station, the message indicating a selection by the mobile station of a preferred cell site to be used for transmitting a frame of data to be sent subsequently to the mobile station;
a processor coupled to the transceiver for processing the message and for controlling the transceiver, the processor coupled to a memory for storing a data queue; and
a network interface coupled to the processor for communicating with a controller of the wireless communication system, wherein the processor is programmed to; schedule, when the base station is the base station of the preferred cell site, a transmission of the frame of data, wherein parameters for the transmission are determined by the processor, in cooperation with the transceiver, from recently-measured channel and interference information; and
synchronize the data queue to reflect the transmission of the frame of data, when the base station is not the base station of the preferred cell site, but is a member of an active set of base stations associated with the mobile station, in response to being informed that the frame of data has been received by the mobile station. - View Dependent Claims (20)
-
-
21. A mobile station for use in a distributed architecture digital wireless communication system including a plurality of base stations communicating at a plurality of cell sites, the mobile station comprising:
-
a transceiver for making transmission quality measurements of signals transmitted from the plurality of cell sites; and
a processor for processing the transmission quality measurements to make a selection of a preferred cell site for transmitting a frame of data to be sent subsequently to the mobile station, wherein the processor is programmed to transmit the selection to of an active set base station associated with the mobile station, wherein the active set base station synchronizes a data queue to reflect the transmission of the frame of data has been inserted. - View Dependent Claims (22, 23, 24)
cooperate with the transceiver to participate in an automatic repeat request function and to send an acknowledgment to at least a base station of the preferred cell site, in response to a correctly decoded data packet.
-
-
24. The mobile station of claim 23, wherein the processor is further programmed to transmit the acknowledgment at a power sufficient for reception of the acknowledgment by at least one of the active set of base stations associated with the mobile station.
Specification