Network Node and Method for Managing Radio Resources Dedicated to Beacon Signaling for D2d Discovery

Content Provider	The Lens
Abstract	A network node (110) and a method therein for managing radio, resources are disclosed. The radio resources are dedicated for beacon (121, 122) signaling, fey a first device; (131) and a second device (132), in conjunction with device-to-device, “D2D”, discovery. The first device: (131) is stationary and the second device (132) is non-stationary. The network node (110) selects (202) a first and a second set of radio resources out of the radio resources. The first arid second sets are dedicated for beacon signaling by the first device (131) and the second device (132), respectively. The first set of radio resources Is non-overlapping with the second set of radio resources. Then the network node (110) schedules (203) a specific radio resource of the first set of radio resources to the first device (131). Next, the network node (110) sends (204) information about the scheduled specific radio resource to the first device (131). The network node (110) further sends (205) information about the second set of radio resources to the second device (132). In this manner, the second device (132) restricts Us radio resources usable for beacon signaling to the second set of radio resources.
Related Links	https://www.lens.org/lens/patent/010-781-299-623-023/frontpage
Language	English
Publisher Date	2019-11-12
Access Restriction	Open
Content Type	Text
Resource Type	Patent
Jurisdiction	United States of America
Date Applied	2012-09-13
Agent	Murphy, Bilak & Homiller, Pllc
Applicant	Sachs Joachim Prytz Mikael Selen Yngve Ericsson Telefon Ab L M
Application No.	201214427556
Claim	A method, in a network node, for managing radio resources, wherein the radio resources are dedicated for beacon signaling, by a first device and a second device, in conjunction with device-to-device (D2D) discovery, wherein the first device is stationary and the second device is non-stationary, the method comprising: selecting a first and a second set of radio resources out of the radio resources, wherein the first and second sets each comprise a plurality of radio resources and are dedicated for beacon signaling by the first device and the second device, respectively, wherein the first set of radio resources is non-overlapping with the second set of radio resources; scheduling a specific radio resource of the first set of radio resources to the first device; sending information about the scheduled specific radio resource to the first device; and sending information indicating the second set of radio resources to the second device, whereby the second device restricts its radio resources usable for beacon signaling to the second set of radio resources. The method of claim 1 , wherein the selection of the first set and/or second set of radio resources is based on one or more of: information relating to how often the first device and/or the second device requires the beacon signaling; service requirements for the first device and/or second device; and radio resource allocation in a second cell neighboring to a first cell operated by the network node. The method of claim 1 , wherein the information indicating the second set of radio resources comprises information about resource elements to be used for beacon signaling and/or information relating to a pseudo-random sequence for selection of the first and second sets of radio resources. The method of claim 1 , wherein the sending of the scheduled specific radio resource further comprises sending information relating to a pseudo-random sequence for selection of the first and second sets of radio resources to the first device. The method of claim 4 , further comprising re-scheduling, to the first device, the specific radio resource of the first set of radio resources while taking the first set of radio resources, selected according to the pseudo-random sequence, into account. The method of claim 1 , further comprising detecting the first device as stationary and the second device as non-stationary among the devices. The method of claim 1 , wherein the network node is comprised in a cellular radio communication network. The method of claim 1 , wherein the first and second devices are comprised in a D2D network, wherein the D2D network is managed by the network node via a cellular radio communication link. The method of claim 1 , wherein the radio resources denote one or more resource elements in a time-frequency grid of a cellular radio communication network that comprises the network node. The method of claim 1 , wherein the first device is one of a first number of stationary devices and the second device is one of a second number of non-stationary devices, wherein the selection of the first and second set of radio resources further is based on one or more of: the first number of stationary devices, and the second number of non-stationary devices. A network node configured to manage radio resources, wherein the radio resources are dedicated for beacon signaling, by a first device and a second device, in conjunction with device-to-device (D2D) discovery, the first device being stationary and the second device being non-stationary, wherein the network node comprises: a processing circuit configured to select a first and a second set of radio resources out of the radio resources, wherein the first and second sets each comprise a plurality of radio resources and are dedicated for beacon signaling by the first device and the second device, respectively, wherein the first set of radio resources is non-overlapping with the second set of radio resources, wherein the processing circuit further is configured to schedule a specific radio resource of the first set of radio resources to the first device; and a transmitter configured to send: information about the scheduled specific radio resource to the first device; and information indicating the second set of radio resources to the second device, whereby the second device restricts its radio resources usable for beacon signaling to the second set of radio resources. The network node of claim 11 , wherein the processing circuit further is configured to select the first set and/or second set of radio resources based on one or more of: information relating to how often the first device and/or the second device requires the beacon signaling; service requirements for the first device and/or second device; and radio resource allocation in a second cell neighboring to a first cell operated by the network node. The network node of claim 11 , wherein the information indicating the second set of radio resources comprises information about resource elements to be used for beacon signaling and/or information relating to a pseudo-random sequence for selection of the first and second sets of radio resources. The network node of claim 11 , wherein the transmitter further is configured to send information relating to a/the pseudo-random sequence for selection of the first and second sets of radio resources to the first device. The network node of claim 14 , wherein the processing circuit further is configured to re-schedule, to the first device, the specific radio resource of the first set of radio resources, while taking the first set of radio resources, selected according to the pseudo-random sequence, into account. The network node of claim 11 , wherein the processing circuit further is configured to detect the first device as stationary and the second device as non-stationary among the devices. The network node of claim 11 , wherein the network node is comprised in a cellular radio communication network. The network node of claim 11 , wherein the first and second devices are comprised in a D2D network, wherein the D2D network is managed by the network node via a cellular radio communication link. The network node of claim 11 , wherein the radio resources denote one or more resource elements in a time-frequency grid of a cellular radio communication network that comprises the network node. The network node of claim 11 , wherein the first device is one of a first number of stationary devices and the second device is one of a second number of non-stationary devices, wherein the processing circuit further is configured to select the first and second set of radio resources based on one or more of: the first number of stationary devices, and the second number of non-stationary devices.
CPC Classification	WIRELESS COMMUNICATION NETWORKS
Examiner	Mounir Moutaouakil
Extended Family	119-796-865-418-716 010-781-299-623-023 170-270-649-378-177 167-465-806-238-496 139-440-390-844-794 133-760-004-633-310 107-707-783-019-700 026-023-802-535-214
Patent ID	10477377
Inventor/Author	Sachs Joachim Prytz Mikael Selén Yngve
IPC	H04W8/00 H04W72/54 H04W40/24 H04W48/08 H04W76/14 H04W84/04
Status	Inactive
Owner	Telefonaktiebolaget L M Ericsson (publ)
Simple Family	119-796-865-418-716 139-440-390-844-794 170-270-649-378-177 167-465-806-238-496 010-781-299-623-023 133-760-004-633-310 107-707-783-019-700 026-023-802-535-214
CPC (with Group)	H04W48/08 H04W76/14 H04W8/005 H04W72/542 H04W40/244 H04W84/042
Issuing Authority	United States Patent and Trademark Office (USPTO)
Kind	Patent/New European patent specification (amended specification after opposition procedure)