Abstract
A method in a wireless device for performing random access to a network node. The method comprises receiving a set of downlink beam-specific reference signals, BRS, from the network node, and determining a preferred BRS BRS based on the received signal power for each BRS. The method also comprises selecting, based on the preferred BRS, a random-access resource to be used for transmitting a random-access attempt to the network node, as well as using the selected random-access resource when transmitting a random-access attempt to the network node, whereby the selection of random-access resource indicates to the network node which downlink beam is preferred by the wireless device to be used for downlink transmissions.
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WO2015147717A1 | 5G | 22/05/2017 | ISLD-201705-027 | ERICSSON INC |
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Claim
1. A method in a wireless device for performing random access to a network node, the method comprising:
receiving a set of downlink beam-specific reference signals (BRSs) from the network node, each downlink BRS being unique per beam and known from standard specification;
determining a preferred downlink beam-specific reference signal (BRS) from the set of downlink BRSs based on a received signal power for each downlink BRS in the set of downlink BRSs;
selecting, based on the preferred downlink BRS, a random-access resource to be used for transmitting a random-access attempt to the network node, the random-access resource selected according to one or more pre-defined association rules defining, for each downlink BRS in the set of downlink BRSs, an association between a random-access resource and the each downlink BRS; and
transmitting a random-access attempt on a Random Access Channel (RACH) to the network node using the selected random-access resource; and
receiving a random-access response message on RACH in a downlink beam that is preferred by the wireless device and that is indicated by the selected random-access resource.
2. The method in the wireless device according to claim 1, wherein the random-access resource comprises one or more random-access preambles and the selecting of the random-access resource comprises selecting a random-access preamble of the one or more random-access preambles from a set of random-access preambles to be used for transmitting the random-access attempt.
3. The method in the wireless device according to claim 2, wherein selecting the random-access preamble of the one or more random-access preambles from the set of random-access preambles comprises using a function or look-up table, specified in a manual or standard, or given by prior broadcast signaling, or configured by dedicated signaling on an assisting legacy network of the wireless device.
4. The method in the wireless device according to claim 1, wherein the random-access resource comprises one or more time and/or frequency resources, and wherein the selecting comprises selecting a time and/or frequency resource of the one or more time and/or frequency resources to be used for transmitting the random-access attempt.
5. The method in the wireless device according to claim 1, wherein the random-access resources are divided into groups, where the preferred downlink BRS is associated with one of the groups of random-access resources, an association between the preferred downlink BRS and preamble or preambles being given by the standard specification.
6. The method according to claim 1, wherein the selection of the random-access resource indicates to the network node which downlink beam is preferred by the wireless device to be used for downlink transmissions including the random access response message.
7. A method in a network node for supporting random access from a wireless device, the method comprising:
transmitting a set of downlink beam-specific reference signals (BRSs), each downlink BRS being unique per beam and known from standard specification;
detecting a random-access preamble in a signal received from the wireless device on a Random Access Channel (RACH), said random-access preamble detection indicating a preferred downlink beam-specific reference signal (BRS) of said set of downlink BRSs, the preferred downlink BRS preferred by said wireless device according to one or more pre-defined association rules defining, for each downlink BRS in the set of downlink BRSs, an association between a random-access resource and the each downlink BRS; and
transmitting a random-access response on RACH, wherein a beam, beam direction, and/or beamforming weight used for transmitting the random-access response is the same as a beam, beam direction, and/or beamforming weight of the preferred downlink BRS indicated by the random-access preamble detection.
8. The method in the network node according to claim 7, further comprising:
selecting an uplink beam for the detecting of the random-access preamble according to one or more pre-defined association rules between random-access preambles and uplink beams known at the network node.
9. The method in the network node according to claim 7, further comprising:
selecting a time and/or frequency resource for the random-access preamble detection according to one or more pre-defined association rules between random-access preambles and the time/frequency resources known at the network node.
10. The method in the network node according to claim 7, wherein the transmitting further comprises:
transmitting the random-access response according to the one or more pre-defined association rules known at the network node.
11. The method in the network node according to claim 7, wherein the detecting further comprises searching a subset of the random-access preambles in each uplink beam for which subset an associated downlink BRS is transmitted in downlink, each downlink BRS pointing out the subset of the random-access preambles to be searched.
12. The method in the network node according to claim 7, wherein random-access preamble sequences and resources are reused for the set of downlink BRSs associated with downlink beams having a pre-determined angular separation.
13. The method in the network node according to claim 7, wherein random access resources are divided into groups, where the preferred downlink BRS is associated with one of the groups, an association between the preferred downlink BRS and preamble or preambles being given by the standard specification.
14. A wireless device configured to perform random access to a network node, the wireless device comprising a processor and a memory, the memory containing instructions executable by the processor to:
receive a set of downlink beam-specific reference signals (BRSs) from the network node, each downlink BRS being unique per beam and known from standard specification;
determine a preferred downlink beam-specific reference signal (BRS) from the set of downlink BRSs based on a received signal power for each downlink BRS in the set of downlink BRSs;
select, based on the preferred downlink BRS, a random-access resource to be used to transmit a random-access attempt to the network node, the random-access resource selected according to one or more pre-defined association rules defining, for each downlink BRS in the set of downlink BRSs, an association between a random-access resource and the each downlink BRS; and
transmit a random-access attempt on a Random Access Channel (RACH) to the network node using the selected random-access resource; and
receive a random-access response message on RACH in a downlink beam that is preferred by the wireless device and that is indicated by the selected random-access resource.
15. The wireless device according to claim 14, wherein the random-access resource comprises one or more random-access preambles and the processor is further configured to:
select a random-access preamble of the one or more random-access preambles from a set of random-access preambles to be used for transmitting the random-access attempt.
16. The wireless device according to claim 15, wherein to select the random-access preamble of the one or more random-access preambles from the set of random-access preambles, the processor is further configured to use a function or look-up table, specified in a manual or standard, or given by prior broadcast signaling, or configured by dedicated signaling on an assisting legacy network of the wireless device.
17. The wireless device according to claim 14, wherein the random-access resource comprises one or more time and/or frequency resources, and wherein the processor is further configured to:
select a time and/or frequency resource of the one or more time and/or frequency resources to be used for transmitting the random-access attempt.
18. The wireless device according to claim 14, wherein the random-access resources are divided into groups, where the preferred downlink BRS is associated with one of the groups of random-access resources, an association between the preferred downlink BRS and preamble or preambles being given by the standard specification.
19. The wireless device according to claim 14, further comprising a transceiver arranged to transmit wireless signals to and receive wireless signals from the network node.
20. The wireless device according to claim 14, wherein the selection of the random-access resource indicates to the network node which downlink beam is preferred by the wireless device to be used for downlink transmissions including the random access response message.
21. A network node configured to support random access from a wireless device, the network node comprising a processor and a memory, the memory containing instructions executable by the processor to:
transmit a set of downlink beam-specific reference signals (BRSs), each downlink BRS being unique per beam and known from standard specification;
detect a random-access preamble in a signal received from the wireless device on a Random Access Channel (RACH), said random-access preamble detection indicating a preferred downlink beam-specific reference signal (BRS) of said set of downlink BRSs, the preferred downlink BRS preferred by said wireless device according to one or more pre-defined association rules defining, for each downlink BRS in the set of downlink BRSs an association between a random-access resource and the each downlink BRS; and
transmit a random-access response on RACH, wherein a beam, beam direction, and/or beamforming weight used for transmitting the random-access response is the same as a beam, beam direction, and/or beamforming weight of the preferred downlink BRS indicated by the random-access preamble detection.
22. The network node according to claim 21, wherein the processor is further configured to:
select an uplink beam for detecting the random-access preamble according to one or more pre-defined association rules between random-access preambles and uplink beams known at the network node.
23. The network node according to claim 21, wherein the processor is further configured to:
select a time and/or frequency resource for the random-access preamble detection according to one or more pre-defined association rules between random access preambles and the time/frequency resources known at the network node.
24. The network node according to claim 21, wherein the processor is further configured to:
transmit the random-access response according to the one or more pre-defined association rules known at the network node.
25. The network node according to claim 21, wherein the processor is further configured to:
search a subset of preambles in each uplink beam for which subset an associated downlink BRS is transmitted in downlink, each downlink BRS pointing out a subset of preambles to be searched.
26. The network node according to claim 21, wherein preamble sequences and resources are reused for downlink BRSs associated with downlink beams having a pre-determined angular separation.
27. The network node according to claim 21, wherein random access resources are divided into groups, where each group is associated with a beam-specific downlink beam-specific reference signal, an association between downlink BRS and preamble or preambles being given by the standard specification.
28. The network node according to claim 21, further comprising:
a transceiver arranged to transmit wireless signals to and receive wireless signals from the wireless device; and
a network interface arranged to communicate signals to backend network components.
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The information in blue was extracted from the third parties (Standard Setting Organisation, Espacenet)
The information in grey was provided by the patent holder
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.