Scheduling of Users for Multi-user Transmission in A Wireless Communication System

Content Provider	The Lens
Abstract	There is provided a method and corresponding arrangements for scheduling users with different Guard Interval, GI, length for multi-user transmission in a wireless communication system, where each of the users is associated with a GI length. The proposed technology involves grouping at least a subset of the users into at least two groups according to GI length for transmission in allocated transmission opportunity, TXOP, resources. In this way, by dynamically scheduling at least part of the users for group-wise transmission according to GI length, the spectral efficiency can be improved. The proposed technology allows for higher scheduling flexibility when different users have different GI length requirements.
Related Links	https://www.lens.org/lens/patent/009-049-545-240-472/frontpage
Language	English
Publisher Date	2019-01-17
Access Restriction	Open
Content Type	Text
Resource Type	Patent
Jurisdiction	United States of America
Date Applied	2015-08-26
Applicant	Ericsson Telefon Ab L M
Application No.	201515750619
Claim	1 - 43 . (canceled) A method performed by a network node in a wireless communication network, the method comprising: determining a required guard interval length for each wireless device among a plurality of wireless devices subject to multi-user scheduling by the wireless communication network; grouping the wireless devices according to their required guard interval lengths, such that at least the majority of wireless devices in each group have the same required guard interval length; commonly assigning a guard interval length to the members of each group that satisfies the longest required guard interval length determined for the members of the group, the assigned guard interval length taken from a predefined, discrete set of guard interval lengths; and scheduling, for multi-user transmissions conducted according to the commonly assigned guard length intervals, different ones of the groups in different multi-user transmission opportunities. The method of claim 44 , wherein the predefined, discrete set of guard interval lengths comprises two or more defined guard interval lengths of increasing or decreasing length, and wherein determining the required guard length interval for each wireless device comprises identifying the shortest one among the predefined, discrete set of guard interval lengths that satisfies the required guard interval length, as determined for the wireless device in dependence on current data requirements or channel conditions. The method of claim 44 , wherein grouping the wireless devices according to their required guard interval lengths comprises strictly grouping the wireless devices, such that all members of each group have the same required guard interval length. The method of claim 44 , wherein grouping the wireless devices according to their required guard interval length comprises forming respective groups such that substantially all of the members of each group have the same required guard interval length and then reassigning one or more members from a later scheduled one of the groups to an earlier scheduled one of the groups, and commonly assigning to each group one of the guard interval lengths from the predefined, discrete set of guard interval lengths that satisfies the longest required guard interval length associated with the members of the group. The method of claim 47 , wherein reassigning one or more members from a later scheduled one of the groups to an earlier scheduled one of the groups comprises determining scheduling requirements or priorities for one or more of the wireless communication devices and reassigning at least one of the one or more wireless communication devices from its current group to an earlier scheduled group, in dependence on the scheduling requirements or priorities. The method of claim 44 , wherein, with respect to an overall multi-user scheduling cycle, scheduling different ones of the groups in different multiuser transmission opportunities comprises scheduling the groups such that there is one or more earlier scheduled groups and one or more later scheduled groups, and determining finalized group memberships based on required guard length intervals and scheduling priorities associated with respective ones of the wireless communication devices in the plurality of wireless communication devices. A network node configured for operation in a wireless communication network, the network node comprising: communication circuitry configured for wireless communication; and processing circuitry operatively associated with the communication circuitry and configured to: determine a required guard interval length for each wireless device among a plurality of wireless devices subject to multi-user scheduling by the wireless communication network; group the wireless devices according to their required guard interval lengths, such that at least the majority of wireless devices in each group have the same required guard interval length; commonly assign a guard interval length to the members of each group that satisfies the longest required guard interval length determined for the members of the group, the assigned guard interval length taken from a predefined, discrete set of guard interval lengths; and schedule, for multi-user transmissions conducted according to the commonly assigned guard length intervals, different ones of the groups in different multi-user transmission opportunities. The network node of claim 50 , wherein the predefined, discrete set of guard interval lengths comprises two or more defined guard interval lengths of increasing or decreasing length, and wherein the processing circuitry is configured to determine the required guard length interval for each wireless device by identifying the shortest one among the predefined, discrete set of guard interval lengths that satisfies the required guard interval length, as determined for the wireless device in dependence on current data requirements or channel conditions. The network node of claim 50 , wherein the processing circuitry is configured to group the wireless devices according to their required guard interval lengths by strictly grouping the wireless devices, such that all members of each group have the same required guard interval length. The network node of claim 50 , wherein the processing circuitry is configured to group the wireless devices according to their required guard interval length by forming respective groups such that substantially all of the members of each group have the same required guard interval length and then reassigning one or more members from a later scheduled one of the groups to an earlier scheduled one of the groups, and commonly assigning to each group one of the guard interval lengths from the predefined, discrete set of guard interval lengths that satisfies the longest required guard interval length associated with the members of the group. The network node of claim 53 , wherein the processing circuitry is configured to reassign one or more members from a later scheduled one of the groups to an earlier scheduled one of the groups, based on determining scheduling requirements or priorities for one or more of the wireless communication devices and reassigning at least one of the one or more wireless communication devices from its current group to an earlier scheduled group, in dependence on the scheduling requirements or priorities. The network node of claim 50 , wherein, with respect to an overall multi-user scheduling cycle, the processing circuitry is configured to schedule different ones of the groups in different multiuser transmission opportunities by scheduling the groups such that there is one or more earlier scheduled groups and one or more later scheduled groups, and determining finalized group memberships based on required guard length intervals and scheduling priorities associated with respective ones of the wireless communication devices in the plurality of wireless communication devices.
CPC Classification	TRANSMISSION TRANSMISSION OF DIGITAL INFORMATION; e.g. TELEGRAPHIC COMMUNICATION WIRELESS COMMUNICATION NETWORKS
Extended Family	015-774-454-319-520 098-177-465-971-026 152-366-328-836-214 185-182-276-674-110 186-256-090-449-033 009-049-545-240-472
Patent ID	20190020516
Inventor/Author	Wang Meng Wilhelmsson Leif
IPC	H04L27/26 H04B7/0452 H04L5/00 H04W72/04
Status	Active
Owner	Telefonaktiebolaget Lm Ericsson (publ)
Simple Family	186-256-090-449-033 098-177-465-971-026 152-366-328-836-214 015-774-454-319-520 009-049-545-240-472 185-182-276-674-110
CPC (with Group)	H04B7/0452 H04L5/0023 H04L5/0048 H04W72/121 H04L5/0037 H04L27/2646 H04L5/0092 H04L5/0094 H04L27/2607
Issuing Authority	United States Patent and Trademark Office (USPTO)
Kind	Patent Application Publication