Improving physical random-access channel (PRACH) robustness against interference
地域:
Stockholm
摘要
Embodiments include methods, performed by a network node, for configuring a physical random-access channel (PRACH) of a cell in a time-division-duplexed (TDD) radio access network (RAN). The methods include determining an increase in a level of remote interference in the cell and, in response to determining the increase, selecting a first PRACH configuration from a first subset of available PRACH configurations. The first subset of available PRACH configurations can be more robust against remote interference than a second subset of the available PRACH configurations, and the first subset can be exclusive of the second subset. The methods also include transmitting, to one or more user equipment (UEs) first information indicating that the first PRACH configuration should be used for accessing the cell via the PRACH. Embodiments also include complementary methods performed by UEs, as well as network nodes and UEs configured to perform such methods.
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This application is a 35 U.S.C. § 371 national stage application for International Application No. PCT/SE2019/050819, entitled “IMPROVING PHYSICAL RANDOM-ACCESS CHANNEL (PRACH) ROBUSTNESS AGAINST INTERFERENCE”, filed on Sep. 2, 2019, which claims the benefit of and priority to U.S. Provisional Patent Application No. 62/732,607, filed Sep. 18, 2018, the disclosures and contents of which are hereby incorporated by reference in their entireties.
The present invention generally relates to wireless (e.g., cellular) communication networks, and particularly relates to techniques that enable wireless networks to better detect wireless devices that are accessing a cell in the presence of interference.
Wireless cellular networks are built up of cells, where each cell defines a certain coverage area and is served by a radio base station (or “BS” for short). The communication between base stations and terminals/user equipment (UE) in a cell is performed wirelessly using either paired or unpaired resources in a frequency spectrum. In case of paired spectrum, the downlink (DL, i.e., BS to UE) and uplink (UL, i.e., UE to BS) communications from a single BS use separate (paired) frequency resources but can occur simultaneously, which is often referred to as Frequency Division Duplexing (FDD). In case of unpaired spectrum, the DL and UL use the same frequency resources but occur sequentially, which is often referred to as Time Division Duplexing (TDD).
權(quán)利要求
The invention claimed is:1. A method, performed by a network node, for configuring a physical random-access channel (PRACH) of a cell in a time-division-duplexed (TDD) radio access network (RAN), the method comprising:determining an increase in a level of remote interference in the cell, wherein determining the increase in the level of remote interference comprises one or more of the following:detecting an observed increase or an observed rate of increase in interference levels during one or more uplink (UL) symbols immediately following a downlink-to-uplink switch of a cell transmission direction; determining a distribution of propagation delays of the remote interference by estimating interference levels in a plurality of UL symbols immediately following a downlink-to-uplink switch of the cell transmission direction; and receiving remote interference management reference signals (RIM-RS); in response to determining the increase, selecting a first PRACH configuration from a first subset of available PRACH configurations, wherein:the first subset of available PRACH configurations is more robust against remote interference than a second subset of the available PRACH configurations, and the first subset is exclusive of the second subset; and transmitting, to one or more user equipment (UEs), first information indicating that the first PRACH configuration should be used for accessing the cell via the PRACH. 2. The method of claim 1 , further comprising determining the first subset based on observed characteristics of remote interference in the RAN. 3. The method of claim 1 , wherein the first information includes a first PRACH configuration index associated with:a first random-access preamble format, and a first number of valid time-domain PRACH occasions within a PRACH configuration period, wherein the valid time-domain PRACH occasions within the PRACH configuration period are further based on at least one of the following:a TDD configuration of the cell; and an SS/PBCH block (SSB) configuration of the cell, and wherein the first information also indicates a first number of frequency-division multiplexed (FDM) PRACH occasions within each of the valid time-domain PRACH occasions. 4. The method of claim 1 , further comprising:determining a decrease in a level of remote interference in the cell; in response to determining the decrease, selecting a second PRACH configuration from the second subset; and transmitting, to the one or more UEs, second information indicating that the second PRACH configuration should subsequently be used for accessing the cell via the PRACH, wherein the second information includes a second PRACH configuration index associated with:a second random-access preamble format, and a second number of valid time-domain PRACH occasions within a PRACH configuration period, and wherein the first number of valid time-domain PRACH occasions is less than the second number of valid time-domain PRACH occasions. 5. The method of claim 4 , wherein the valid time-domain PRACH occasions associated with the first PRACH configuration index are a subset of the valid time-domain PRACH occasions associated with the second PRACH configuration index. 6. The method of claim 4 , wherein within a particular uplink subframe, an earliest valid time-domain PRACH occasion associated with the first PRACH configuration index occurs later than an earliest valid time-domain PRACH occasion associated with the second PRACH configuration index. 7. The method of claim 4 , wherein:the second information also indicates a second number of frequency-division multiplexed (FDM) PRACH occasions within each of the valid time-domain PRACH occasions; and the first number of FDM PRACH occasions, within each valid time-domain PRACH occasion, is greater than the second number of FDM PRACH occasions, wherein the first and second random-access preamble formats are identical. 8. The method of claim 4 , wherein the selection of the first PRACH configuration from the first subset and the selection of the second PRACH configuration from the second subset are based on at least one of the following: a size of the cell; a TDD configuration of the cell; and an SS/PBCH block (SSB) configuration of the cell. 9. The method of claim 1 , wherein the first PRACH configuration is selected to avoid time-domain PRACH occasions during the uplink (UL) symbols for which the remote interference is determined to be above a predetermined threshold. 10. The method of claim 1 , wherein:the second subset is robust against remote interference from a distance less than a second threshold; the first subset is robust against remote interference from a distance less than a first threshold; and the first threshold is greater than the second threshold. 11. A method, performed by a user equipment (UE) for configuring access to a cell in a time-division-duplexed (TDD) radio access network (RAN) via a physical random-access channel (PRACH), the method comprising:receiving, from a network node serving the cell, first information indicating that a first PRACH configuration should be used for accessing the cell via the PRACH, wherein:the first PRACH configuration is one of a first subset of available PRACH configurations, the first subset of available PRACH configurations is more robust against remote interference than a second subset of the available PRACH configurations, and the first subset is exclusive of the second subset, the second subset is robust against remote interference from a distance less than a second threshold, the first subset is robust against remote interference from a distance less than a first threshold, and the first threshold is greater than the second threshold; and subsequently receiving, from the network node, second information indicating that a second PRACH configuration should subsequently be used for accessing the cell via the PRACH, wherein the second PRACH configuration is one of the second subset. 12. The method of claim 11 , wherein:the first information includes a first PRACH configuration index associated with:a first random-access preamble format, and a first number of valid time-domain PRACH occasions within a PRACH configuration period; and the second information includes a second PRACH configuration index associated with:a second random-access preamble format, and a second number of valid time-domain PRACH occasions within the PRACH configuration period. 13. The method of claim 12 , wherein the first number of valid time-domain PRACH occasions is less than the second number of valid time-domain PRACH occasions. 14. The method of claim 12 , wherein the valid time-domain PRACH occasions associated with the first PRACH configuration index are a subset of the valid time-domain PRACH occasions associated with the second PRACH configuration index. 15. The method of claim 12 , wherein within a particular uplink subframe, an earliest valid time-domain PRACH occasion associated with the first PRACH configuration index occurs later than an earliest valid time-domain PRACH occasion associated with the second PRACH configuration index. 16. The method of claim 11 , wherein:the first information also indicates a first number of frequency-division multiplexed (FDM) PRACH occasions within each of the valid time-domain PRACH occasions; the second information also indicates a second number of FDM PRACH occasions within each of the valid time-domain PRACH occasions; and the first number of FDM PRACH occasions is greater than the second number of FDM PRACH occasions, and wherein the first and second random-access preamble formats are identical. 17. The method of claim 11 , further comprising one or more of the following:performing one or more random-access attempts towards the cell using the first PRACH configuration before receiving the second information; and performing one or more random-access attempts towards the cell using the second PRACH configuration after receiving the second information. 18. A method, performed by a network node, for configuring a physical random-access channel (PRACH) of a cell in a time-division-duplexed (TDD) radio access network (RAN), the method comprising:determining an increase in a level of remote interference in the cell; in response to determining the increase, selecting a first PRACH configuration from a first subset of available PRACH configurations, wherein:the first PRACH configuration is selected to avoid time-domain PRACH occasions during uplink (UL) symbols for which the remote interference is determined to be above a predetermined threshold, the first subset of available PRACH configurations is more robust against remote interference than a second subset of the available PRACH configurations, and the first subset is exclusive of the second subset; and transmitting, to one or more user equipment (UEs), first information indicating that the first PRACH configuration should be used for accessing the cell via the PRACH.
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