Abstract
A method for ensuring parallel data random access and a user equipment are provided. An embodiment of the present invention includes controlling a random access sequence transmitted by a user equipment through a physical random access channel (PRACH) not to be sent with other uplink transmission in the same subframe, or, when a random access sequence transmitted by a user equipment through a PRACH is sent with other uplink transmission in the same subframe, controlling a priority of power transmission of the PRACH and a priority of power transmission of an uplink channel over which the other uplink transmission is performed, when power is limited.
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Specification Information
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Technologies
Random access
Power Control
Product
Use Cases
Services
Claim
1. A method comprising:
transmitting, by a user equipment in a subframe, a random access sequence through a physical random access channel (PRACH) in an auxiliary serving cell; and
transmitting, by the user equipment in the subframe, other uplink channels in a primary serving cell that is different from the auxiliary serving cell, wherein the other uplink channels comprise a physical uplink control channel (PUCCH) and a physical uplink shared channel (PUSCH) which does not comprise any uplink control information (UCI);
wherein, when power is limited, a priority of transmission power of the PRACH and a priority of transmission power of the other uplink channels are as follows:
the priority of transmission power of the PRACH transmitted in the auxiliary serving cell is higher than a priority of transmission power of the PUCCH transmission in the primary serving cell, and the priority of transmission power of the PUCCH transmission in the primary serving cell is higher than a priority of transmission power of the PUSCH transmission that does not comprise any UCI in the primary serving cell.
2. The method according to claim 1, further comprising:
transmitting, by the user equipment, a message 3 (MSG3) to a network side through a PUSCH in a contention-based random access procedure, wherein when power is limited, the priority of transmission power of the PUCCH, the priority of transmission power of the PUSCH transmission that does not comprise any UCI, a priority of transmission power of a PUSCH transmission that comprises UCI, and a priority of transmission power of the PUSCH transmitting the MSG3 are controlled by the user equipment;
wherein the priority of transmission power of the PUSCH transmission that comprises the UCI is controlled to be equal to the priority of transmission power of the PUSCH transmitting the MSG.
3. The method according to claim 1, further comprising:
transmitting, by the user equipment, a message 3 (MSG3) to a network side through a PUSCH in a contention-based random access procedure, wherein, when power is limited, the priority of transmission power of the PUCCH, the priority of transmission power of the PUSCH transmission that does not comprise any UCI, a priority of transmission power of a PUSCH transmission that comprises UCI, and a priority of transmission power of the PUSCH transmitting the MSG3 are controlled by the user equipment;
wherein the priority of transmission power of the PUSCH transmission that does not comprise any UCI is controlled to be lower than the priority of transmission power of the PUSCH transmission that comprises the UCI, the priority of transmission power of the PUSCH transmission that comprises the UCI is controlled to be lower than the priority of transmission power of the PUSCH transmitting the MSG3, and the priority of transmission power of the PUSCH transmitting the MSG3 is controlled to be lower than the priority of transmission power of the PUCCH.
4. The method according to claim 1, further comprising:
transmitting, by the user equipment, a message 3 (MSG3) to a network side through a PUSCH in a contention-based random access procedure, wherein, when power is limited, the priority of transmission power of the PUCCH, the priority of transmission power of the PUSCH transmission that does not comprise any UCI, a priority of transmission power of a PUSCH transmission that comprises the UCI, and a priority of transmission power of the PUSCH transmitting the MSG3 are controlled by the user equipment;
wherein the priority of transmission power of the PUSCH transmission that does not comprise any UCI is controlled to be lower than a priority of transmission power of the PUSCH transmitting the MSG3, the priority of transmission power of the PUSCH transmitting the MSG3 is controlled to be lower than a priority of transmission power of a PUSCH transmission comprising UCI, and the priority of transmission power of the PUSCH transmission comprising the UCI is controlled to be lower than the priority of transmission power of the PUCCH.
5. The method according to claim 1, further comprising:
transmitting, by the user equipment, a message 3 (MSG3) to a network side through a PUSCH in a contention-based random access procedure, wherein, when power is limited, the priority of transmission power of the PUCCH, the priority of transmission power of the PUSCH transmission that does not comprise any UCI, a priority of transmission power of a PUSCH transmission that comprises UCI, and a priority of transmission power of the PUSCH transmitting the MSG3 are controlled by the user equipment;
wherein the priority of transmission power of the PUSCH transmission that does not comprise any UCI is controlled to be lower than the priority of transmission power of the PUSCH transmission that comprises the UCI, the priority of transmission power of the PUSCH transmission that comprises the UCI is controlled to be lower than the priority of transmission power of the PUCCH, and the priority of transmission power of the PUCCH is controlled to be lower than the priority of transmission power of the PUSCH transmitting the MSG3.
6. The method according to claim 1, further comprising:
when the user equipment transmits a message 3 (MSG3) to a network side in a contention-based random access procedure, transmitting the MSG3 through an assigned uplink resource in a received random access response.
7. An apparatus, comprising:
a processor coupled with a non-transitory storage medium storing executable instructions, wherein the executable instructions, when executed by the processor, cause the apparatus to:
transmit, in a subframe, a random access sequence through a physical random access channel (PRACH) in an auxiliary serving cell; and
transmit, in the subframe, other uplink channels on a primary serving cell that is different from the auxiliary serving cell, wherein the other uplink channels comprise a physical uplink control channel (PUCCH) and a physical uplink shared channel (PUSCH) that does not comprise any uplink control information (UCI);
wherein, when power is limited, a priority of transmission power of the PRACH and a priority of transmission powers of the other uplink channels are as follows:
the priority of transmission power of the PRACH transmitted in the auxiliary serving cell is higher than a priority of transmission power of the PUCCH transmission in the primary serving cell, and the priority of transmission power of the PUCCH transmission in the primary serving cell is higher than a priority of transmission power of the PUSCH transmission that does not comprise any UCI in the primary serving cell.
8. The apparatus according to claim 7, wherein the executable instructions, when executed by the processor, further cause the apparatus to:
transmit a message 3 (MSG3) to a network side through a PUSCH in a contention-based random access procedure, wherein, when power is limited, a priority of transmission power of the PUCCH, a priority of transmission power of the PUSCH transmission that does not comprise any UCI, a priority of transmission power of a PUSCH transmission that comprises UCI, and a priority of transmission power of the PUSCH transmitting the MSG3 are controlled;
wherein the priority of transmission power of the PUSCH transmission that comprises the UCI is controlled to be equal to the priority of transmission power of the PUSCH transmitting the MSG3.
9. The apparatus according to claim 7, wherein the executable instructions, when executed by the processor, cause the apparatus further to:
transmit a message 3 (MSG3) to a network side through a PUSCH in a contention-based random access procedure, wherein when power is limited, the priority of the PUSCH transmission that does not comprise any UCI, a priority of transmission power of a PUSCH transmission that comprises UCI, and a priority of transmission power of the PUSCH transmitting the MSG3 are controlled;
wherein the priority of transmission power of the PUSCH transmission that does not comprise any UCI is controlled to be lower than the priority of transmission power of the PUSCH transmission that comprises UCI, the priority of transmission power of the PUSCH transmission that comprises the UCI is controlled to be lower than the priority of transmission power of the PUSCH transmitting the MSG3, and the priority of transmission power of the PUSCH transmitting the MSG3 is controlled to be lower than the priority of transmission power of the PUCCH.
10. The apparatus according to claim 7, wherein the executable instructions, when executed by the processor, further cause the apparatus to:
transmit a message 3 (MSG3) to a network side through a PUSCH in a contention-based random access procedure, wherein, when power is limited, the priority of transmission power of the PUCCH, the priority of transmission power of the PUSCH transmission that does not comprise any UCI, a priority of transmission power of a PUSCH transmission that comprises UCI, and a priority of transmission power of the PUSCH transmitting the MSG3 are controlled;
wherein the priority of transmission power of the PUSCH transmission that does not comprise the UCI is controlled to be lower than the priority of transmission power of the PUSCH transmitting the MSG3, the priority of transmission power of the PUSCH transmitting the MSG3 is controlled to be lower than the priority of transmission power of the PUSCH transmission that comprises the UCI, and the priority of transmission power of the PUSCH transmission that comprises the UCI is controlled to be lower than the priority of transmission power of the PUCCH.
11. The apparatus according to claim 7, wherein the executable instructions, when executed by the processor, further cause the apparatus to:
transmit a message 3 (MSG3) to a network side through a PUSCH in a contention-based random access procedure, wherein, when power is limited, the priority of transmission power of the PUCCH, the priority of transmission power of the PUSCH transmission that does not comprise any UCI, a priority of transmission power of a PUSCH transmission that comprises UCI, and a priority of transmission power of the PUSCH transmitting the MSG3 are controlled;
wherein the priority of transmission power of the PUSCH transmission that does not comprise any UCI is controlled to be lower than the priority of transmission power of the PUSCH transmission that comprises the UCI, the priority of transmission power of the PUSCH transmission over which comprises the UCI is controlled to be lower than the priority of transmission power of the PUCCH, and the priority of transmission power of the PUCCH is controlled to be lower than the priority of transmission power of the PUSCH transmitting the MSG3.
12. The apparatus according to claim 7, wherein the executable instructions, when executed by the processor, further cause the apparatus to:
transmit an MSG3 through an assigned uplink resource in a received random access response in a contention-based random access procedure.
13. A non-transitory computer-readable medium storing computer instructions that, when executed by one or more hardware processors, cause the one or more hardware processors to:
transmit, in a subframe, a random access sequence through a physical random access channel (PRACH) in an auxiliary serving cell; and
transmit, in the subframe, other uplink channels in a primary serving cell that is different from the auxiliary serving cell, wherein the other uplink channels comprise a physical uplink control channel (PUCCH) and a physical uplink shared channel (PUSCH) that does not comprise any uplink control information (UCI);
wherein, when power is limited, a priority of transmission power of the PRACH and a priority of transmission power of the other uplink channels are as follows:
the priority of transmission power of the PRACH transmitted in the auxiliary serving cell is higher than a priority of transmission power of the PUCCH transmission in the primary serving cell, and the priority of transmission power of the PUCCH transmission in the primary serving cell is higher than a priority of transmission power of the PUSCH transmission that does not comprise any UCI in the primary serving cell.
14. The non-transitory computer-readable medium according to claim 13, wherein the computer instructions, when executed by the one or more hardware processors, further cause the one or more hardware processors to:
transmit a message 3 (MSG3) to a network side through a PUSCH in a contention-based random access procedure, wherein, when power is limited, the priority of transmission power of the PUCCH, the priority of transmission power of the PUSCH transmission that does not comprise any UCI, a priority of transmission power of a PUSCH transmission that comprises UCI, and a priority of transmission power of the PUSCH transmitting the MSG3 are controlled;
wherein the priority of transmission power of the PUSCH transmission that comprises the UCI is controlled to be equal to the priority of transmission power of the PUSCH transmitting the MSG3.
15. The non-transitory computer-readable medium according to claim 13, wherein the computer instructions, when executed by the one or more hardware processors, further cause the one or more hardware processors to:
transmit a message 3 (MSG3) to a network side through a PUSCH in a contention-based random access procedure, wherein, when power is limited, the priority of transmission power of the PUCCH, the priority of transmission power of the PUSCH transmission that does not comprise any UCI, a priority of transmission power of a PUSCH transmission that comprises the UCI, and a priority of transmission power of the PUSCH transmitting the MSG3 are controlled;
wherein the priority of transmission power of the PUSCH transmission that does not comprise any UCI is controlled to be lower than the priority of transmission power of the PUSCH transmission that comprises the UCI, the priority of transmission power of the PUSCH transmission that comprises the UCI is controlled to be lower than the priority of transmission power of the PUSCH transmitting the MSG3, and the priority of transmission power of the PUSCH transmitting the MSG3 is controlled to be lower than the priority of transmission power of the PUCCH.
16. The non-transitory computer-readable medium according to claim 13, wherein the computer instructions, when executed by the one or more hardware processors, further cause the one or more hardware processors to:
transmit a message 3 (MSG3) to a network side through a PUSCH in a contention-based random access procedure, wherein, when power is limited, the priority of transmission power of the PUCCH, the priority of transmission power of the PUSCH transmission that does not comprise any UCI, a priority of transmission power of a PUSCH transmission that comprises UCI, and a priority of transmission power of the PUSCH transmitting the MSG3 are controlled;
wherein the priority of transmission power of the PUSCH transmission that does not comprise any UCI is controlled to be lower than the priority of transmission power of the PUSCH transmitting the MSG3, the priority of transmission power of the PUSCH transmitting the MSG3 is controlled to be lower than the priority of transmission power of the PUSCH transmission that comprises the UCI, and the priority of transmission power of the PUSCH transmission that comprises the UCI is controlled to be lower than the priority of transmission power of the PUCCH.
17. The non-transitory computer-readable medium according to claim 13, wherein the computer instructions , when executed by the one or more hardware processors, further cause the one or more hardware processors to:
transmit a message 3 (MSG3) to a network side through a PUSCH in a contention-based random access procedure, wherein when power is limited, the priority of transmission power of the PUCCH, the priority of transmission power of the PUSCH transmission that does not comprise any UCI, a priority of transmission power of a PUSCH transmission that comprises UCI, and a priority of transmission power of the PUSCH transmitting the MSG3 are controlled;
wherein the priority of transmission power of the PUSCH transmission that does not comprise any UCI is controlled to be lower than the priority of transmission power of the PUSCH transmission that comprises the UCI, the priority of transmission power of the PUSCH transmission that comprises the UCI is controlled to be lower than the priority of transmission power of the PUCCH, and the priority of transmission power of the PUCCH is controlled to be lower than the priority of transmission power of the PUSCH transmitting the MSG3.
18. The non-transitory computer-readable medium according to claim 13, wherein the computer instructions, when executed by one or more hardware processors, cause the one or more hardware processors to:
transmit an MSG3 through an assigned uplink resource in a received random access response in a contention-based random access procedure.
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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.