CN115225216A - Method for allocating candidate PDCCH, terminal and network side equipment - Google Patents
Method for allocating candidate PDCCH, terminal and network side equipment Download PDFInfo
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- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0053—Allocation of signaling, i.e. of overhead other than pilot signals
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
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Abstract
The application discloses a method, a terminal and a network side device for allocating a candidate PDCCH (physical downlink control channel), which belong to the technical field of wireless communication, and the method for allocating the candidate PDCCH of the embodiment of the application comprises the following steps: the terminal in the non-connection state allocates a candidate PDCCH of a first SS set in a first time unit according to a first rule; wherein the first rule is used to indicate a mapping priority of the first SS set, and the first time unit includes: time slots and/or listening spans.
Description
Technical Field
The application belongs to the technical field of wireless communication, and particularly relates to a method for allocating candidate PDCCHs, a terminal and network side equipment.
Background
A Physical Downlink Control Channel (PDCCH) in a New Radio (NR) carries Downlink Control Information (DCI). The DCI is mapped to a physical resource with Control Channel Elements (CCEs) as a unit, that is, a PDCCH candidate, after a series of scrambling, modulation, and coding processes. In addition, the network side configures a plurality of Search Space (SS) sets (sets), which generally include two types of SS sets: one is common SS (CSS) set and the other is user-specific SS (USS) set. Each SS set includes a plurality of PDCCH candidates.
In order to reduce the implementation complexity of the terminal, the NR system specifies the maximum PDCCH candidate blind detection number (BD) and the maximum number of non-overlapping CCEs per unit time for the connected terminal.
However, in the face of introducing more and more Radio Resource Control (RRC) non-connected state transmissions, how to allocate candidate PDCCHs of different search space sets for terminals in a non-connected state (including RRC idle terminals and RRC non-active terminals) becomes an urgent problem to be solved.
Disclosure of Invention
The embodiment of the application provides a method, a terminal and a network side device for allocating candidate PDCCHs, which can solve the problem of how to allocate candidate PDCCHs of different search space sets by a terminal in a non-connection state.
In a first aspect, a method for allocating candidate PDCCHs is provided, including: the terminal in the non-connection state allocates candidate PDCCHs of a first search space set SS set in a first time unit according to a first rule; wherein the first rule is used for indicating mapping priority of the first SS set, and the first time unit comprises: time slots and/or listening spans.
In a second aspect, an apparatus for allocating PDCCH candidates is provided, including: the terminal comprises a first determining module, a second determining module and a judging module, wherein the first determining module is used for determining a first rule, and the first rule is used for indicating the mapping priority of a first SS set of a terminal in a non-connection state; an allocating module, configured to allocate the candidate PDCCH of the first SS set in a first time unit according to the first rule; wherein the first time unit comprises: time slots and/or listening spans.
In a third aspect, a method for monitoring a PDCCH is provided, including: in case that a terminal does not need to monitor a Paging Early Indicator (PEI), the terminal determines a monitoring behavior of a Paging PDCCH to be any one of: monitoring a paging PDCCH; monitoring of the paging PDCCH is not performed.
In a fourth aspect, an apparatus for monitoring a PDCCH is provided, including: the second determining module is used for determining whether the terminal needs to monitor the PEI; a monitoring module, configured to determine that a monitoring behavior of a paging PDCCH is any one of the following behaviors when the terminal does not need to monitor the PEI: monitoring a paging PDCCH; monitoring of the paging PDCCH is not performed.
In a fifth aspect, a method for configuring a search space set is provided, including: the method comprises the steps that network side equipment sends configuration information to a terminal in a non-connection state, wherein the configuration information comprises a first rule, the first rule is used for indicating the mapping priority of a first SS set in a first time unit, and the first time unit comprises the following steps: time slots and/or listening spans.
In a sixth aspect, an apparatus for configuring a search space set is provided, including: a third determining module, configured to determine a first rule of a terminal in a non-connected state, where the first rule is used to indicate a mapping priority of a first SS set in a first time unit, and the first time unit includes: time slots and/or listening spans; and the first configuration module is used for sending configuration information to the terminal in the non-connection state, wherein the configuration information comprises the first rule, and the first rule is used for indicating the mapping priority of the first SS set in a first time unit.
A seventh aspect provides a method for configuring PDCCH monitoring, including: the method comprises the steps that network side equipment sends configuration information to a terminal, wherein the configuration information indicates the monitoring behavior of the terminal on a paging PDCCH under the condition that PEI does not need to be monitored; wherein the monitoring action of the paging PDCCH comprises any one of the following actions: monitoring a paging PDCCH; monitoring of the paging PDCCH is not performed.
In an eighth aspect, an apparatus for configuring PDCCH monitoring is provided, including: a fourth determining module, configured to determine configuration information of a terminal, where the configuration information indicates a monitoring behavior of the terminal on a paging PDCCH without monitoring PEI; a second configuration module, configured to send the configuration information to the terminal; wherein the monitoring action of the paging PDCCH comprises any one of the following actions: monitoring a paging PDCCH; monitoring of the paging PDCCH is not performed.
In a ninth aspect, there is provided a terminal comprising a processor, a memory, and a program or instructions stored on the memory and executable on the processor, the program or instructions when executed by the processor implementing the steps of the method according to the first or third aspect.
A tenth aspect provides a terminal, comprising a processor and a communication interface, wherein the processor is configured to implement the steps of the method according to the first aspect or the third aspect when executed, and the communication interface is configured to communicate with a network side device.
In an eleventh aspect, a network-side device is provided, which includes a processor, a memory, and a program or instructions stored on the memory and executable on the processor, and when executed by the processor, the program or instructions implement the steps of the method according to the fifth or seventh aspect.
A twelfth aspect provides a network side device, which includes a processor and a communication interface, wherein the processor is configured to implement the steps of the method according to the fifth aspect or the seventh aspect when executed, and the communication interface is configured to enable a terminal to perform communication.
In a thirteenth aspect, there is provided a readable storage medium on which a program or instructions are stored, which program or instructions, when executed by a processor, perform the steps of the method according to the first aspect, or the steps of the method according to the third aspect, or the steps of the method according to the fifth aspect, or the steps of the method according to the seventh aspect.
In a fourteenth aspect, a chip is provided, the chip comprising a processor and a communication interface, the communication interface being coupled to the processor, the processor being configured to execute a program or instructions to implement the steps of the method according to the first aspect, or to implement the steps of the method according to the third aspect, or to implement the steps of the method according to the fifth aspect, or to implement the steps of the method according to the seventh aspect.
In a fifteenth aspect, there is provided a computer program/program product stored on a transitory storage medium, the program/program product being executable by at least one processor to perform the steps of the method according to the first aspect, or to perform the steps of the method according to the third aspect, or to perform the steps of the method according to the fifth aspect, or to perform the steps of the method according to the seventh aspect.
In the embodiment of the application, the terminal in the non-connected state allocates the PDCCH candidate of the first SS set in the first time unit according to the first rule. Through the first rule, the distribution process of the terminal in the non-connection state to the candidate PDCCH can be determined, the problems that the maximum relevant processing capacity of the terminal in the non-connection state is exceeded and the like are solved, and the performance of scheduling transmission is improved.
Drawings
Fig. 1 shows a schematic diagram of a wireless communication system to which embodiments of the present application are applicable;
fig. 2 shows a flowchart of a method for allocating candidate PDCCHs according to an embodiment of the present application;
fig. 3 shows a flowchart of a PDCCH monitoring method according to an embodiment of the present application;
fig. 4 is a flowchart illustrating a method for configuring a search space set according to an embodiment of the present application;
fig. 5 is a flowchart illustrating a method for configuring PDCCH monitoring according to an embodiment of the present application;
fig. 6 is a schematic structural diagram illustrating an apparatus for allocating PDCCH candidates according to an embodiment of the present application;
fig. 7 is a schematic structural diagram illustrating a monitoring apparatus for a PDCCH according to an embodiment of the present application;
fig. 8 is a schematic structural diagram illustrating a configuration apparatus for a search space set according to an embodiment of the present application;
fig. 9 is a schematic structural diagram illustrating a configuration apparatus for PDCCH monitoring according to an embodiment of the present application;
fig. 10 is a schematic structural diagram of a communication device provided in an embodiment of the present application;
fig. 11 illustrates a hardware structure diagram of a terminal according to an embodiment of the present application;
fig. 12 shows a hardware structure diagram of a network device according to an embodiment of the present application.
Detailed Description
The technical solutions in the embodiments of the present application will be described below clearly with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments that can be derived from the embodiments given herein by a person of ordinary skill in the art are intended to be within the scope of the present disclosure.
The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the terms so used are interchangeable under appropriate circumstances such that the embodiments of the application are capable of operation in other sequences than those illustrated or otherwise described herein, and that the terms "first" and "second" used herein generally refer to a class and do not limit the number of objects, for example, a first object can be one or more. In addition, "and/or" in the specification and the claims means at least one of connected objects, and a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.
It is noted that the techniques described in the embodiments of the present application are not limited to Long Term Evolution (LTE)/LTE Evolution (LTE-Advanced) systems, but may also be used in other wireless communication systems, such as Code Division Multiple Access (CDMA), time Division Multiple Access (TDMA), frequency Division Multiple Access (FDMA), orthogonal Frequency Division Multiple Access (OFDMA), single-carrier Frequency-Division Multiple Access (SC-FDMA), and other systems. The terms "system" and "network" in the embodiments of the present application are often used interchangeably, and the described techniques can be used for both the above-mentioned systems and radio technologies, as well as for other systems and radio technologies. The following descriptionThe description describes a New Radio (NR) system for purposes of example, and NR terminology is used in much of the description below, but the techniques may also be applied to applications other than NR system applications, such as generation 6 (6) th Generation, 6G) communication system.
Fig. 1 shows a schematic diagram of a wireless communication system to which embodiments of the present application are applicable. The wireless communication system includes a terminal 11 and a network-side device 12. Wherein, the terminal 11 may also be called as a terminal Device or a User Equipment (UE), the terminal 11 may be a Mobile phone, a Tablet Personal Computer (Tablet Personal Computer), a Laptop Computer (Laptop Computer) or a notebook Computer, a Personal Digital Assistant (PDA), a palmtop Computer, a netbook, a super-Mobile Personal Computer (UMPC), a Mobile Internet Device (MID), a Wearable Device (Wearable Device) or a vehicle-mounted Device (VUE), a pedestrian terminal (PUE), and other terminal side devices, the Wearable Device includes: smart watches, bracelets, earphones, glasses, and the like. It should be noted that the embodiment of the present application does not limit the specific type of the terminal 11. The network-side device 12 may be a Base Station or a core network, where the Base Station may be referred to as a node B, an enodeb, an access point, a Base Transceiver Station (BTS), a radio Base Station, a radio Transceiver, a Basic Service Set (BSS), an Extended Service Set (ESS), a node B, an evolved node B (eNB), a home node B, a home enodeb, a WLAN access point, a WiFi node, a Transmit Receive Point (TRP), or some other suitable term in the field, as long as the same technical effect is achieved, the Base Station is not limited to a specific technical vocabulary, and it should be noted that, in the embodiment of the present application, only the Base Station in the NR system is taken as an example, but the specific type of the Base Station is not limited.
The method for allocating PDCCH candidates according to the embodiments of the present application is described in detail below with reference to the accompanying drawings.
Fig. 2 shows a flowchart of a method for allocating PDCCH candidates in this embodiment, where the method 200 may be performed by a terminal. In other words, the method may be performed by software or hardware installed on the terminal. As shown in fig. 2, the method may include the following steps.
S210, the terminal in the non-connection state allocates candidate PDCCHs of a first SS set in a first time unit according to a first rule; wherein the first rule is used to indicate a mapping priority of the first SS set, and the first time unit includes: time slots and/or listening spans (spans).
It should be noted that the purpose of allocating the PDCCH candidate of the first SS set in the first time unit is for monitoring, that is, allocating the PDCCH candidate of the first SS set in the first time unit for monitoring.
It should be noted that another expression of "the first rule is used to indicate the mapping priority of the first SS set" is that the first rule is used to indicate the mapping priority of the first SS set in the first time unit.
In the embodiment of the present application, at least one SS set may be included in the first SS set, and the first rule indicates a mapping priority of one or more SS sets or all SS sets therein.
In this embodiment of the present application, the first rule may be configured or agreed by a network side device, or the terminal in the non-connected state determines itself.
In the current standard research, a new CSS set and/or USS set is introduced in an idle/inactive (inactive) state. For example, the CSS set carrying PEIPDCCH. Therefore, a plurality of CSSs and USSs in the same slot or span may collide with each other or exceed the BD capability of the UE, and therefore, in the RRCidle/inactive state, a problem of how to allocate candidate PDCCHs combined in different search spaces needs to be further solved.
In the embodiment of the application, through the first rule, the allocation process of the terminal in the non-connected state to the candidate PDCCH can be determined, the problems that the maximum relevant processing capacity of the terminal in the non-connected state is exceeded and the like are solved, and the performance of scheduling transmission is improved.
In the present embodiment, the first SSset includes, but is not limited to, at least one of a first common search space set (CSS set) and a first dedicated search space set (USS set).
Optionally, the first CSS set may include at least one of:
(1) CSS set for carrying paging advanced indication (PEI) PDCCH;
(2) CSS set for carrying Multicast Broadcast Service (MBS) PDCCH;
(3) CSS set for carrying Small Data Transmission (SDT) PDCCH;
(4) Type 0PDCCH (Type 0-PDCCH) CSS set; the Type0-PDCCH CSS set is used to carry first-format DCI, where CRC of the first-format DCI is scrambled by System Information radio Network Temporary Identity (SI-RNTI) and is used to schedule a System Information Block (SIB 1) message.
(5) Type0A PDCCH (Type 0A-PDCCH) CSS set; type0A-PDCCH CSS set is used for carrying second format DCI, wherein CRC of the second format DCI is scrambled by SI-RNTI and is used for scheduling SIB messages except SIB1 messages.
(6) Type 1PDCCH (Type 1-PDCCH) CSS set; the Type1-PDCCH CSS set is used for carrying third-format DCI, wherein CRC of the third-format DCI is scrambled by Random Access RNTI (Random Access RNTI, RA-RNTI) or temporary scheduling Cell RNTI (TC-RNTI).
(7) Type 2PDCCH (Type 2-PDCCH) CSS set; the Type2-PDCCH CSS set is used for carrying fourth-format DCI, wherein the CRC of the fourth-format DCI is scrambled by Paging RNTI (P-RNTI).
(8) Type 3PDCCH (Type 3-PDCCH) CSS set. The Type3-PDCCH CSS set is used for carrying fifth-Format DCI, wherein the CRC of the fifth-Format DCI is scrambled by an interrupt RNTI (INT-RNTI), a Slot Format Indication RNTI (Slot Format Indication RNTI, SFI-RNTI), a transmission Power Control-Physical Uplink Shared channel RNTI (Transmit Power Control-Physical Uplink Shared channel RNTI, TPC-PUSCH-RNTI), a transmission Power Control-Physical Uplink Control channel RNTI (Transmit Power Control-Physical Uplink Control channel RNTI, TPC-PUSCH-RNTI), or a transmission Power Control-Sounding Reference symbol (Transmit Power Control-Sounding Reference Symbols-RNTI, TPC-PUSCH-RNTI), and the SRS is Configured by a Cell RNTI (Cell RNTI, C-RNTI), a Modulation and coding scheme Cell RNTI (Modulation and coding scheme C-RNTI), a C-Scheduling RNTI (C-RNTI), or a Scheduling CS-RNTI.
Optionally, the first USS set includes, but is not limited to, a USS set for carrying an SDT PDCCH.
In one possible implementation, the first rule is further for indicating at least one of:
(1) The terminal in the non-connected state is not allowed to abandon the allocation of the PDCCH candidate for the second SS set.
For example, the first rule may indicate that for a terminal in the non-connected state, its second SS set may not be relinquished for allocation due to exceeding the maximum processing capacity. That is, the terminal in the non-connected state must allocate the PDCCH candidate of the second sset. Optionally, the network side device may be configured to ensure that the second SS set is not dropped by the terminal for exceeding the maximum processing capacity. That is, the terminal must perform the assignment of the PDCCH candidate for the second sset in the first time unit.
For example, the second SS set may contain at least one of: CSSset (briefly named peicsset) for carrying PEI PDCCH, CSSset (briefly named sdtcsset) for carrying SDTPDCCH. Alternatively, the second SS set may be a CSS set other than the CSS set used to carry the PEI PDCCH.
(2) Allowing the terminal in the non-connected state to give up allocation of the candidate PDCCH of the third SS set.
For example, the network side device may configure or agree to allow the third CSS set to be relinquished from allocation by the idle/inactive state terminal.
Wherein the second SSset and the third SSset are included in the first SSset. It should be noted that the inclusion of the second sscet and the third sscet in the first sscet means that the second sscet and the third sscet belong to the first sscet.
In one embodiment, the third SS set may include at least one of:
(a) CSS set for carrying PEI PDCCH;
(b) CSS set for carrying MBS PDCCH;
(c) CSS set for carrying SDT PDCCH;
(d) The first USS set.
In the above possible implementation, one SS set can only be one of the second SS set or the third SS set, and cannot belong to both the second SS set and the third SS set.
In one possible implementation, in a case that the first rule is further used to instruct the terminal in a non-connected state not to be allowed to abandon allocation of a PDCCH candidate for a second SS set and/or to allow the terminal in a non-connected state to abandon allocation of a PDCCH candidate for a third SS set, the mapping priority of the first SS set comprises any one of the following in order from high to low:
(1) The second SS set, SS sets other than the second SS set;
for example, in the case where the first rule indicates that the terminal in the non-connected state is not allowed to relinquish allocation of a PDCCH candidate for a second SS set, the mapping priority of the second SS set is set to a high priority in order to guarantee allocation of a PDCCH candidate for the second SS set, which is preferentially allocated to the PDCCH candidate for the second SS set.
(2) A SS set other than the third SS set, the third SS set;
for example, in the case where the first rule indicates that the terminal in the non-connected state is allowed to relinquish allocation of a PDCCH candidate for the third sscet, since the PDCCH candidate for the third sscet can be relinquished for allocation, the mapping priority for the third SS set may be set to the lowest priority, i.e., PDCCHs candidates for sscets other than the third sscet are allocated first and then the PDCCH candidates for the third sscet are reallocated.
(3) The second SS set, the third SS set.
For example, in the case where the first rule indicates that the terminal in the non-connected state is not allowed to relinquish allocation of a PDCCH candidate for the second SS set, and that the terminal in the non-connected state is allowed to relinquish allocation of a PDCCH candidate for the third SSset, the mapping priority for the second SS set may be set to be higher than the priority for the third SS set.
In the above possible implementation manner, the first rule may implicitly indicate the priority of the second SS set and/or the third SS set by indicating that the terminal in the non-connected state is not allowed to abandon the assignment of the PDCCH candidate for the second SS set and/or allowing the terminal in the non-connected state to abandon the assignment of the PDCCH candidate for the third SS set.
Optionally, it may be determined whether to allow the non-connected terminal to abandon allocation of candidate PDCCHs for carrying CSS sets of a PEI PDCCH and/or mapping priority of CSS sets for carrying a PEI PDCCH according to whether paging PDCCH monitoring is performed when the non-connected terminal does not detect PEI. For example, in one possible implementation, in a case where the network configuration or protocol stipulates that the terminal in the non-connected state does not perform paging PDCCH monitoring when no PEI is detected, the terminal in the non-connected state is not allowed to abandon allocation of a candidate PDCCH for carrying a PEI PDCCH (the CSS set for carrying the PEI PDCCH belongs to the first SS set), that is, in a case where a second SS set is set, optionally, the second SS set includes a CSS set for carrying the PEI PDCCH; and/or the mapping priority of the CSS set for carrying the PEI PDCCH is higher than at least one of the following: the mapping priority of CSS sets except the CSS sets for carrying the PEI PDCCH and the mapping priority of USS sets.
For example, in a current cell broadcasted by a network side device, if the UE does not detect PEI waking itself, then paging PDCCH monitoring is not performed, in order to ensure that the UE can detect its PEI and avoid paging PDCCH being missed, the terminal in the non-connected state may be set not to be allowed to abandon allocation of candidate PDCCHs of CSS sets used for carrying PEI PDCCHs, and/or the mapping priority of the CSS sets used for carrying PEI PDCCHs is set to be higher than at least one of the following: and the mapping priorities of the CSS sets except the CSS sets for carrying the PEI PDCCH and the mapping priorities of the USS sets. When the terminal in the non-connected state allocates the candidate PDCCH in the current first time unit, firstly allocating CSS sets (which may be referred to as PEI CSS sets) for carrying the PEI PDCCH, and re-allocating at least one of the following: CSS set and USS set except the CSS set for carrying the PEI PDCCH.
In another possible implementation manner, in the case that the network configures or agrees to agree that the terminal in the non-connected state monitors paging PDCCH when no PEI is detected, the terminal in the non-connected state is allowed to abandon allocation of candidate PDCCH for carrying CSS set of PEI PDCCH, that is, in the case that a third SS set is set, optionally, the third SS set comprises CSS set for carrying PEI PDCCH; and/or the mapping priority of the CSS set for carrying the PEI PDCCH is lower than at least one of the following: the mapping priority of CSS sets except the CSS sets for carrying the PEI PDCCH and the mapping priority of USS sets.
For example, the relevant behavior of the network side device broadcasting the current cell and adopting the UE to detect the PEI is: and if the UE does not detect the PEI which wakes up the UE, performing paging PDCCH monitoring. Since the UE monitors pagengPDCCH even if the UE does not detect PEI waking itself, the UE is not influenced to monitor pagengPDCCH even if the CSS set used for carrying PEI PDCCH is abandoned for allocation, so that the non-connected terminal can be allowed to abandon the allocation of candidate PDCCH used for carrying CSS set of PEI PDCCH and/or the mapping priority of CSS set used for carrying PEI PDCCH is set to be lower. For example, the agreement may agree that PEI CSS sets may be allowed to be relinquished for exceeding the maximum associated processing capacity (i.e., maximum BD or CCE number limit), and that the mapping priority of PEI CSS sets is less than that of USS sets. When the UE allocates PDCCH candidate in the current slot, the RRC Inactive UE allocates CSS sets except the PEI CSS first, reallocates the USS set and then allocates the PEI CSS, but the UE judges that the UE allocates the PEI CSS and then exceeds the capability limit of the maximum number of non-overlapping CCEs, and discards the PEI CSS sets in the current slot, namely abandons the allocation of candidate PDCCHs of the PEI CSS sets.
In one possible implementation, the mapping priority of the CSS set used to carry the PEI PDCCH is lowest. For example, the network side device configures or agrees to agree that the mapping priority of the CSS set used to carry the PEI PDCCH is the lowest, for example, if the terminal finds that the maximum BD or CCE number limit would be exceeded if the PEI CSSset is reallocated before the PEI CSSset is allocated, the PEI CSSset is discarded.
In one possible implementation, the mapping priorities of the first SS sets further include, in order from high to low, at least one of:
(1) The CSS set is used for carrying the PEI PDCCH, the first USS set and the CSS set is used for carrying the PEI PDCCH;
for example, when the terminal in the non-connected state allocates a candidate PDCCH of a first SS set in a first time unit, first allocates CSS sets other than the PEI CSS set; redistributing the USS set; finally PEI CSS set is assigned. And if the UE judges that the number limit of the maximum BD or the maximum non-overlapping CCEs of the UE exceeds the number limit of the maximum BD or the maximum non-overlapping CCEs, discarding the BD or the maximum non-overlapping CCEs according to the priority. For example, PEI CSS set priority is less than SDT USS set, and PEI CSS set is discarded if the PEI CSS set is redistributed and the maximum BD or CCE number limit is exceeded when the UE is distributed with the SDT USS set.
The mapping priority order may be indicated by a first rule, for example, configured by a network side device or agreed by a protocol.
(2) CSS set except the CSS set used for carrying the PEI PDCCH, the CSS set used for carrying the PEI PDCCH and the first USS set;
for example, when the terminal in the non-connected state allocates the candidate PDCCH of the first SS set in the first time unit, the CSS sets other than the CSS set used for carrying the PEI PDCCH are allocated first, the CSS set used for carrying the PEI PDCCH is reallocated, and finally the first USS set is allocated. And if the UE judges that the number limit of the maximum BD or the maximum non-overlapping CCE of the UE exceeds the number limit of the maximum BD or the maximum non-overlapping CCE, discarding the BD or the maximum non-overlapping CCE in sequence according to the priority. For example, the mapping priority of the SDT USS set is less than the PEI CSS set, and when the UE finds that the maximum BD or CCE number limit is exceeded if the SDT USS set is redistributed after the PEI CSS set is distributed, the SDT USS set is discarded.
The mapping priority order may be indicated by a first rule, for example, configured by the network side device or agreed by a protocol.
(3) The first CSS set and the first USS set.
(4) The first USS set, the first CSS set.
In a possible implementation manner, the network side device may broadcast the mapping priority of the first CSS set relative to the first USS set, and may configure or agree with the priorities of (1) and (2) in advance, and the terminal in the non-connected state determines whether to adopt the mapping priority order of (1) or (2) according to the content of the broadcast of the network side device. For example, if the mapping priority of the first CSS set is higher than the mapping priority of the first USS set as broadcast by the network side device, the terminal in the non-connected state may determine to adopt the mapping priority order of (2) above. Alternatively, the network side device may broadcast the mapping priority order of all SS sets, for example, broadcast the priority order described in (1) or (2) above.
Alternatively, the terminal in the non-connected state may determine the mapping priority of the first CSS set relative to the first USS set by itself, so as to determine whether to adopt the mapping priority order of (1) or (2). For example, in a case that the network side device configures or agrees that the terminal in the non-connected state performs paging PDCCH monitoring when the terminal in the non-connected state does not detect PEI, the terminal in the non-connected state may determine to adopt the mapping priority order of (1); when the network side device configures or agrees that the terminal in the non-connected state does not detect PEI, the terminal in the non-connected state may determine to adopt the mapping priority order of (2) above without monitoring the paging PDCCH.
In one possible implementation, the mapping priority of the fourth SS set is agreed by network configuration or protocol, wherein the fourth SS set is included in the first SS set. For example, the fourth SS set may include the CSS set used to carry the PEI PDCCH. In addition, the network side device may notify the terminal in the non-connected state through broadcasting an SIB message, where the mapping priority of the CSS set used for carrying the PEI PDCCH is described.
In one possible implementation manner, the allocating, by the terminal in the non-connected state, a PDCCH candidate of a first search space set SS set in a first time unit according to a first rule includes:
the terminal in the non-connection state sequentially allocates the candidate PDCCHs of the first SS set from high to low according to the mapping priority of the first SS set;
wherein, before a candidate PDCCH of a target SS set is allocated, if it is determined that the candidate PDCCH of the target SS set is to result in exceeding the maximum processing capability of the terminal in a non-connected state, the candidate PDCCH of the target SS set and a fifth SS set are abandoned; wherein the mapping priority of the fifth SS set is lower than the mapping priority of the target SS set, and the first SS set comprises the target SS set and the fifth SS set.
For example, the mapping priority of the SDT USS set is less than the PEI CSS set, and when the UE finds that the maximum BD or CCE number limit is exceeded if the SDT USS set is redistributed after the PEI CSS set is distributed, the SDT USS set is discarded.
Optionally, the maximum processing capability of the terminal in the unconnected state includes: a maximum number of candidate PDCCHs within a first time unit of support; and/or a maximum number of non-overlapping Control Channel Elements (CCEs) within a supported first time unit.
In a specific application, the demodulation process of the PDCCH candidates (PDCCH candidates) carrying DCI by the terminal may be: the terminal finds the initial position of the CCE, tries different aggregation levels at the initial position of the CCE, intercepts and decodes the guessed DCI length, uses corresponding Radio Network Temporary Identifiers (RNTIs) and CCE information to carry out Cyclic Redundancy Check (CRC) on different expected information terminals, and if the CRC is successful, the terminal determines that the information is required by the terminal, which is called a blind check process. In this process, the number of attempts to decode DCI by the terminal is the number of blind detections. Each CCE location of PDCCH candidates may be calculated in a predetermined manner. The starting CCE locations of all PDCCH candidates of a certain PDCCH channel are related to parameters such as aggregation level, search space type, subframe number, total number of available CCEs, RNTI, etc. of the PDCCH channel.
By the method provided by the embodiment of the application, the terminal in the non-connected state can allocate the candidate PDCCH of the first SS set in the first time unit according to the first rule, so that the allocation process of the terminal in the non-connected state to the candidate PDCCH is determined, the problems of exceeding the maximum relevant processing capacity of the terminal in the non-connected state and the like are avoided, and the performance of scheduling transmission is improved.
Fig. 3 shows a flowchart of a PDCCH monitoring method provided in an embodiment of the present application, where the method 300 may be performed by a terminal. In other words, the method may be performed by software or hardware installed on the terminal, as shown in fig. 3, and the method 300 may include the following steps.
S310, under the condition that the terminal does not need to monitor PEI, the terminal determines the monitoring action of the paging PDCCH. Wherein the monitoring behavior of the pagengPDCCH comprises any one of the following: monitoring a paging PDCCH; monitoring of the paging PDCCH is not performed.
In the embodiment of the present application, the terminal may be a connected terminal, for example, an RRC connected UE, or may also be a non-connected terminal, for example, an RRCidle UE or an RRC inactive UE. The specific examples of the present application are not limited thereto.
In the technical scheme provided by the embodiment of the application, the terminal can determine the monitoring action of the paging PDCCH and execute the monitoring action under the condition that the PEI does not need to be monitored.
In one possible implementation manner, the determining, by the terminal, a monitoring behavior of a paging PDCCH includes: and determining whether the terminal monitors the paging PDCCH or not according to the configuration of the network side equipment.
Or, the terminal may also determine the monitoring behavior of the paging PDCCH without monitoring the PEI, for example, if the network side device configuration or the protocol agrees that the UE does not detect the PEI that wakes up itself, then the UE performs the paging PDCCH monitoring, and if the terminal does not need to monitor the PEI, then the terminal performs the paging PDCCH monitoring. And when the network side equipment is configured or agreed by a protocol, the terminal in the non-connection state does not monitor paging PDCCH under the condition that the paging PDCCH is monitored when the PEI is not detected, and does not monitor the paging PDCCH under the condition that the PEI does not need to be monitored by the terminal.
In one possible implementation, the terminal does not need to listen to PEI in the case of at least one of the following:
(1) The terminal does not allocate candidate PDCCHs for carrying CSS sets of the PEI PDCCH;
(2) Modifying the transmission direction of the time unit where the PEI is located;
(3) PEI collides or overlaps with other channels or signals. For example, PEI collides with or overlaps with other transmissions (overlaps) that have higher priority than PEI detection. Among other transmissions, other transmissions include, but are not limited to: at least one of receive, detect, measure, or transmit.
Fig. 4 is a flowchart illustrating a method for configuring a search space set according to an embodiment of the present application, where the method 400 may be performed by a network-side device. In other words, the method may be performed by software or hardware installed on the terminal, as shown in fig. 4, and the method 400 includes the following steps.
S410, a network side device sends configuration information to a terminal in a non-connected state, where the configuration information includes a first rule, the first rule is used to indicate a mapping priority of a first SS set in a first time unit, and the first time unit includes: time slots and/or listening spans.
The first rule is the same as the first rule in the method 200, that is, the method 400 is a method of configuring, by the network side device, the corresponding network side device according to the first rule in the method 200.
The configuration information may be each possible information configured by the network side device in the method 200, and specifically, refer to the relevant description in the method 200.
In the present embodiment, the first SSset includes, but is not limited to, at least one of a first common search space set (CSS set) and a first dedicated search space set (USS set).
Optionally, the first CSS set may include at least one of:
(1) CSS set for carrying paging advanced indication (PEI) PDCCH;
(2) CSS set for carrying Multicast Broadcast Service (MBS) PDCCH;
(3) CSS set for carrying a Small Data Transmission (SDT) PDCCH;
(4) Type 0PDCCH (Type 0-PDCCH) CSS set;
(5) Type0A PDCCH (Type 0A-PDCCH) CSS set;
(6) Type 1PDCCH (Type 1-PDCCH) CSS set;
(7) Type 2PDCCH (Type 2-PDCCH) CSS set;
(8) Type 3PDCCH (Type 3-PDCCH) CSS set.
Optionally, the first USS set includes, but is not limited to, a USS set for carrying an SDT PDCCH.
In one possible implementation, the first rule is further for indicating at least one of:
(1) The terminal in the non-connected state is not allowed to give up allocation of the candidate PDCCH for the second SS set.
For example, in order to ensure that the second SS set is not discarded from being allocated by the terminal due to exceeding the maximum processing capability, the network side device may be configured not to allow the terminal in the non-connected state to discard the allocation of the PDCCH candidate for the second SS set. That is, the terminal in the non-connected state must perform the allocation of the PDCCH candidate for the second sscet in the first time unit.
For example, the second SS set may contain at least one of: CSSset for carrying PEI PDCCH, CSS set for carrying SDT PDCCH. Alternatively, the second SS set may be a CSS set other than the CSS set used to carry the PEI PDCCH.
(2) Allowing the terminal in the non-connected state to abandon the allocation of the PDCCH candidate for the third SS set.
For example, the network side device may configure to allow the third CSS set to be relinquished from allocation by the idle/inactive stateful terminal.
Wherein the second SSset and the third SSset are included in the first SSset.
In one embodiment, the third SS set may include at least one of:
(a) CSS set for carrying PEI PDCCH;
(b) CSS set for carrying MBS PDCCH;
(c) CSS set for carrying SDT PDCCH;
(d) The first USS set.
In the above possible implementation, one SS set can only be one of the second SS set or the third SS set, and cannot belong to both the second SS set and the third SS set.
Through the indication of the first rule, the terminal in the non-connected state may determine the mapping priority of the second SS set and/or the third SS set according to the condition that the terminal in the non-connected state is not allowed to abandon the allocation of the candidate PDCCH for the second SS set and/or the terminal in the non-connected state is allowed to abandon the allocation of the candidate PDCCH for the third SS set.
In one possible implementation, in a case where the first rule is further used to indicate that the terminal in the non-connected state is not allowed to abandon allocation of a PDCCH candidate for the second SS set and/or that the terminal in the non-connected state is allowed to abandon allocation of a PDCCH candidate for the third SS set, the order indicating the mapping priority of the first SS set from high to low includes any one of:
(1) The second SS set, SS sets other than the second SS set;
for example, in the case where the first rule indicates that the terminal in the non-connected state is not allowed to relinquish allocation of a PDCCH candidate for a second SS set, the mapping priority of the second SS set is set to a high priority in order to guarantee allocation of a PDCCH candidate for the second SS set, which is preferentially allocated to the PDCCH candidate for the second SS set.
(2) A SS set other than the third SS set, the third SS set;
for example, in the case where the first rule indicates that the terminal in the non-connected state is allowed to relinquish allocation of a PDCCH candidate for the third SSset, since the PDCCH candidate for the third SSset can be relinquished for allocation, the mapping priority of the third SSset may be set to the lowest priority, i.e., PDCCHs candidates for SSsets other than the third SSset are allocated first, and then PDCCHs candidates for the third SSset are reallocated.
(3) The second SS set, the third SS set.
For example, in the case where the first rule indicates that the terminal in the non-connected state is not allowed to relinquish allocation of a PDCCH candidate for the second SS set, and that the terminal in the non-connected state is allowed to relinquish allocation of a PDCCH candidate for the third SSset, the mapping priority for the second SS set may be set to be higher than the priority for the third SS set.
In the above possible implementation manner, the first rule may implicitly indicate the priority of the second SS set and/or the third SS set by indicating that the terminal in the non-connected state is not allowed to abandon the assignment of the PDCCH candidate for the second SS set and/or allowing the terminal in the non-connected state to abandon the assignment of the PDCCH candidate for the third SS set.
In a possible implementation manner, the configuration information may further indicate whether the terminal in the non-connected state performs paging PDCCH monitoring when the terminal does not detect PEI. In a possible implementation manner, whether paging PDCCH monitoring is performed to determine whether to allow the non-connected terminal to abandon allocation of candidate PDCCHs for carrying CSS sets of the PEI PDCCH and/or determine mapping priority of the CSS sets for carrying the PEI PDCCH may also be determined according to whether the configuration information indicates that the non-connected terminal detects PEI.
Optionally, in a case that the configuration information further indicates that the terminal in the non-connected state does not perform paging PDCCH monitoring when the terminal does not detect PEI, the terminal in the non-connected state is not allowed to abandon allocation of candidate PDCCHs used for carrying CSS sets of PEI PDCCHs; and/or the mapping priority of the CSS set for carrying the PEI PDCCH is higher than at least one of the following: the mapping priority of CSS sets except the CSS sets for carrying the PEI PDCCH and the mapping priority of USS sets.
In another possible implementation manner, in a case that the configuration information further indicates that the non-connected terminal monitors paging PDCCH when no PEI is detected, the non-connected terminal is allowed to abandon allocation of candidate PDCCHs for carrying CSS sets of PEI PDCCHs; and/or the mapping priority of the CSS set for carrying the PEI PDCCH is lower than at least one of the following: the mapping priority of CSS sets except the CSS sets for carrying the PEI PDCCH and the mapping priority of USS sets.
In one possible implementation, the configuration information indicates that the mapping priorities of the first SS sets include at least one of the following in order from high to low:
(1) CSS set except CSS set for carrying PEI PDCCH, first USS set and CSS set for carrying PEI PDCCH.
As described above, the first SS set may include at least one of a first CSS set and a first USS set, and the first CSS set includes the CSS set used for carrying the PEI PDCCH.
Further, the first CSS set may further include at least one of:
(a) CSS set for carrying Multicast Broadcast Service (MBS) PDCCH;
(b) CSS set for carrying a Small Data Transmission (SDT) PDCCH;
(c) Type 0PDCCH (Type 0-PDCCH) CSS set;
(d) Type0A PDCCH (Type 0A-PDCCH) CSS set;
(e) Type 1PDCCH (Type 1-PDCCH) CSS set;
(f) Type 2PDCCH (Type 2-PDCCH) CSS set;
(g) Type 3PDCCH (Type 3-PDCCH) CSS set.
The first USS set includes, but is not limited to, a USS set for carrying the SDT PDCCH.
(2) CSS set except CSS set for carrying PEI PDCCH, and first USS set;
(3) A first CSS set, a first USS set;
(4) First USS set, first CSS set.
In one possible implementation manner, the network side device may configure the mapping priority of the first CSS set with respect to the first USS set (i.e., the foregoing (3) or (4), and may configure or agree with the priority of the foregoing (1) and (2) in advance, and the terminal in the non-connected state determines to adopt the mapping priority order of the foregoing (1) or (2) according to the content of the broadcast of the network side device.
In one possible implementation, the first rule indicates that the mapping priority of CSS set for carrying PEI PDCCH is lowest. Namely, the network side device configures the mapping priority of the CSS set for carrying the PEI PDCCH to be the lowest. For example, when the network side device configures or agrees that the terminal in the non-connected state does not detect PEI, paging PDCCH monitoring is performed, and the network side device may configure a first rule indicating that the mapping priority of the CSS set used for carrying the PEI PDCCH is the lowest.
In one possible implementation, the first rule indicates a mapping priority of a fourth SS set, where the fourth SS set is included in the first SS set. For example, the fourth SS set may include the CSS set used to carry the PEI PDCCH. In addition, the network side device may configure the terminal in the non-connected state by broadcasting an SIB message, and the mapping priority of the CSS set for carrying the PEI PDCCH.
By the method provided by the embodiment of the application, the network side equipment can configure the first rule for the search space set allocation for the terminal in the non-connected state, so that the terminal in the non-connected state can allocate the first SS set of the first time unit according to the first rule, the allocation process of the terminal in the non-connected state to the candidate PDCCH is determined, the problems that the maximum related processing capability of the terminal in the non-connected state is exceeded and the like are avoided, and the performance of scheduling transmission is improved.
Fig. 5 shows a flowchart of a configuration method for PDCCH monitoring according to an embodiment of the present application, where the method 400 may be performed by a network side device. In other words, the method may be performed by software or hardware installed on the terminal, as shown in fig. 5, and the method 500 includes the following steps:
s510, a network side device sends configuration information to a terminal, wherein the configuration information indicates the monitoring behavior of the terminal on the paging PDCCH under the condition that the PEI does not need to be monitored;
wherein the monitoring behavior of the paging PDCCH comprises any one of the following:
monitoring a paging PDCCH;
monitoring of the paging PDCCH is not performed.
In the method and the method 300, the monitoring behavior of paging the paging PDCCH is a method for configuring a corresponding network side device by the network side device without monitoring the PEI, which may specifically refer to the description in the method 300 and is not described herein again.
It should be noted that, in the method for allocating PDCCH candidates provided in the embodiment of the present application, the execution subject may be an apparatus for allocating PDCCH candidates, or a control module in the apparatus for allocating PDCCH candidates, configured to execute the method for allocating PDCCH candidates. In the embodiment of the present application, an apparatus for allocating candidate PDCCHs performs a method for allocating candidate PDCCHs, as an example, and is described in the embodiment of the present application.
Fig. 6 is a schematic structural diagram of an apparatus for allocating PDCCH candidates according to an embodiment of the present application, and as shown in fig. 6, the apparatus 600 mainly includes: a first determination module 601 and an assignment module 602.
In this embodiment, the first determining module 601 is configured to determine a first rule, where the first rule is used to indicate a mapping priority of a first SS set of a terminal in a non-connected state; an allocating module 602, configured to allocate the PDCCH candidate of the first SS set in a first time unit according to the first rule; wherein the first time unit comprises: time slots and/or listening spans.
In one possible implementation, the first SS set includes at least one of a first common search space set CSS set and a first terminal-specific search space set USS set;
wherein the first CSS set comprises at least one of:
CSS set for carrying PEI PDCCH;
CSS set for carrying MBS PDCCH;
CSS set for carrying SDT PDCCH;
type 0PDCCH CSS set;
type0A PDCCH CSS set;
type 1PDCCH CSS set;
type 2PDCCH CSS set;
type 3PDCCH CSS set.
In one possible implementation, the first rule is further configured to indicate at least one of:
not allowing the terminal in the non-connected state to abandon allocation of the candidate PDCCH to the second SS set;
allowing the terminal in the non-connected state to abandon the allocation of the PDCCH candidate for the third SS set;
wherein the second SS set and the third SS set are included in the first SS set.
In one possible implementation, in the first case,
not allowing the terminal in the non-connected state to abandon allocation of a candidate PDCCH for carrying CSS set of a PEI PDCCH; and/or the presence of a gas in the gas,
the mapping priority of the CSS set for carrying the PEI PDCCH is higher than at least one of the following: the mapping priority of the CSS sets except the CSS sets for carrying the PEI PDCCH and the mapping priority of the USS sets;
wherein the first condition satisfies: and when the non-connected terminal does not detect PEI, not monitoring the paging PDCCH.
In one possible implementation, in the second case,
allowing the terminal in the non-connected state to abandon allocation of a candidate PDCCH for a CSS set carrying a PEI PDCCH; and/or
The mapping priority of the CSS set for carrying the PEI PDCCH is lower than at least one of the following: the mapping priority of the CSS sets except the CSS sets for carrying the PEI PDCCH and the mapping priority of the USS sets;
wherein the second condition satisfies: and when the non-connected terminal does not detect the PEI, monitoring the paging PDCCH.
In one possible implementation, the third SS set includes at least one of:
CSS set for carrying PEI PDCCH;
CSS set for carrying MBS PDCCH;
CSS set for carrying SDT PDCCH;
the first USS set.
In one possible implementation, the mapping priorities of the first SS sets include any one of the following in order from high to low:
the second SS set, SS sets other than the second SS set;
a SS set other than the third SS set, the third SS set;
the second SS set, the third SS set.
In one possible implementation, the mapping priority of the CSS set for carrying the PEI PDCCH is lowest.
In one possible implementation, the mapping priorities of the first SS sets further include, in order from high to low, at least one of:
the CSS set is used for carrying the PEI PDCCH, the first USS set and the CSS set is used for carrying the PEI PDCCH;
CSS set except the CSS set used for carrying the PEI PDCCH, the CSS set used for carrying the PEI PDCCH and the first USS set;
the first CSS set, the first USS set;
the first USS set and the first CSS set.
In one possible implementation, the mapping priority of the fourth SS set is agreed by network configuration or protocol, wherein the fourth SS set is included in the first SS set.
In one possible implementation manner, the allocating module 602 allocates the PDCCH candidate for the first SS set in the first time unit according to the first rule, including:
sequentially allocating candidate PDCCHs of the first SS set according to the sequence of the mapping priority of the first SS set from high to low;
wherein, before a candidate PDCCH of a target SS set is allocated, if it is determined that the candidate PDCCH of the target SS set is to result in exceeding the maximum processing capability of the terminal in a non-connected state, the candidate PDCCH of the target SS set and a fifth SS set are abandoned; and the mapping priority of the fifth SS set is lower than that of the target SS set, and the first SS set comprises the target SS set and the fifth SS set.
In one possible implementation, the maximum processing capability of the terminal in the unconnected state includes:
a maximum number of candidate PDCCHs within a first time unit of support; and/or the presence of a gas in the atmosphere,
a maximum number of non-overlapping CCEs within a first time unit supported.
The apparatus for allocating PDCCH candidates in the embodiment of the present application may be an apparatus, or may be a component, an integrated circuit, or a chip in a terminal. The device can be a mobile terminal or a non-mobile terminal. For example, the mobile terminal may include, but is not limited to, the above-listed type of terminal 11, and the non-mobile terminal may be a server, a Network Attached Storage (NAS), a Personal Computer (PC), a Television (TV), a teller machine, a kiosk, or the like, and the embodiments of the present application are not limited in particular.
The apparatus for allocating PDCCH candidates in the embodiment of the present application may be an apparatus having an operating system. The operating system may be an Android (Android) operating system, an ios operating system, or other possible operating systems, and embodiments of the present application are not limited specifically.
The device for allocating candidate PDCCHs according to the embodiment of the present application can implement each process implemented by the method embodiment of fig. 2, and achieve the same technical effect, and is not described herein again to avoid repetition.
It should be noted that, in the monitoring method for the PDCCH provided in the embodiment of the present application, the execution subject may be a monitoring apparatus for the PDCCH, or a control module in the monitoring apparatus for the PDCCH, which is used for executing the monitoring method for the PDCCH. In the embodiment of the present application, a method for performing PDCCH monitoring by a PDCCH monitoring apparatus is taken as an example, and the PDCCH monitoring apparatus provided in the embodiment of the present application is described.
Fig. 7 shows a schematic structural diagram of an apparatus for monitoring a PDCCH according to an embodiment of the present application, and as shown in fig. 7, the apparatus 700 mainly includes: a second determination module 701 and a listening module 702.
In this embodiment of the present application, the second determining module 701 is configured to determine whether the terminal needs to monitor the PEI; a monitoring module 702, configured to determine a monitoring behavior of a paging PDCCH when the terminal does not need to monitor a paging advanced indication PEI, where the monitoring behavior of the paging PDCCH includes any one of: monitoring a paging PDCCH; monitoring of the paging PDCCH is not performed.
In the embodiment of the present application, the monitoring module 702 determines a monitoring behavior of the paging PDCCH and executes the monitoring behavior.
In one possible implementation manner, the determining, by the monitoring module 702, a monitoring behavior of paging PDCCH includes:
and determining whether the terminal monitors the paging PDCCH or not according to the configuration set by the network.
In one possible implementation, the terminal does not need to listen to PEI in the case of at least one of the following:
the terminal does not allocate candidate PDCCHs for carrying CSS sets of the PEI PDCCH;
modifying the transmission direction of the time unit where the PEI is located;
PEI collides or overlaps with other channels or signals.
The monitoring device of the candidate PDCCH in the embodiment of the present application may be a device, or may be a component, an integrated circuit, or a chip in the terminal. The device can be a mobile terminal or a non-mobile terminal. For example, the mobile terminal may include, but is not limited to, the above-listed type of terminal 11, and the non-mobile terminal may be a server, a Network Attached Storage (NAS), a Personal Computer (PC), a Television (TV), a teller machine, a kiosk, or the like, and the embodiments of the present application are not limited in particular.
The monitoring device of the candidate PDCCH in the embodiment of the present application may be a device having an operating system. The operating system may be an Android (Android) operating system, an ios operating system, or other possible operating systems, and embodiments of the present application are not limited specifically.
The monitoring apparatus for candidate PDCCHs provided in the embodiment of the present application can implement each process implemented in the method embodiment of fig. 3, and achieve the same technical effect, and is not described herein again to avoid repetition.
It should be noted that, in the configuration method of the search space set provided in the embodiment of the present application, the execution main body may be a configuration device of the search space set, or a control module in the configuration device of the search space set, configured to execute the configuration method of the search space set. In the embodiment of the present application, a configuration device for a search space set is described as an example of a method for executing a configuration of a search space set by using a configuration device for a search space set.
Fig. 8 is a schematic structural diagram of an apparatus for configuring a search space set according to an embodiment of the present application, and as shown in fig. 8, the apparatus 800 mainly includes: a third determination module 801 and a configuration module 802.
In this embodiment of the present application, the third determining module 801 is configured to determine a first rule of a terminal in a non-connected state, where the first rule is used to indicate a mapping priority of a first SS set in a first time unit, and the first time unit includes: time slots and/or listening spans; a configuration module 802, configured to send configuration information to the terminal in the non-connected state, where the configuration information includes the first rule, and the first rule is used to indicate a mapping priority of the first SS set in a first time unit.
In one possible implementation, the first rule is further configured to indicate at least one of:
not allowing the terminal in the non-connected state to abandon allocation of the candidate PDCCH to the second SS set;
allowing the terminal in the non-connected state to abandon the allocation of the PDCCH candidate for the third SS set;
wherein the second SS set and the third SS set are included in the first SS set.
In one possible implementation, when the configuration information further indicates that the non-connected terminal is in the first case,
not allowing the terminal in the non-connected state to abandon allocation of a candidate PDCCH for carrying CSS set of a PEI PDCCH; and/or the presence of a gas in the gas,
the mapping priority of the CSS set for carrying the PEI PDCCH is higher than at least one of the following: the mapping priority of the CSS sets except the CSS sets for carrying the PEI PDCCH and the mapping priority of the USS sets;
wherein the first condition satisfies: and when the non-connected terminal does not detect PEI, not monitoring the paging PDCCH.
In one possible implementation manner, in the second case, the configuration information further indicates that the terminal in the non-connected state,
allowing the terminal in the non-connected state to abandon allocation of a candidate PDCCH for a CSS set carrying a PEI PDCCH; and/or
The mapping priority of the CSS sets for carrying the PEI PDCCH is lower than at least one of the following: mapping priorities of CSS sets and mapping priorities of USS sets except the CSS sets used for carrying the PEI PDCCH;
wherein the second condition satisfies: and when the non-connected terminal does not detect the PEI, monitoring the paging PDCCH.
In one possible implementation, the configuration information indicates that the mapping priorities of the first SS sets include at least one of the following in order from high to low:
CSS sets except the CSS set used for carrying the PEI PDCCH, a first USS set and the CSS set used for carrying the PEI PDCCH, wherein the first SS set comprises at least one of the first CSS set and the first USS set, and the first CSS set comprises the CSS set used for carrying the PEI PDCCH;
CSS set except CSS set for carrying PEI PDCCH, and first USS set;
a first CSS set, a first USS set;
a first USS set, a first CSS set.
In one possible implementation, the first rule indicates that the mapping priority of the CSS set for carrying the PEI PDCCH is lowest.
In one possible implementation, the first rule indicates a mapping priority of a fourth SS set, where the fourth SS set is included in the first SS set.
The configuration device of the search space set in the embodiment of the present application may be a device, or may be a component, an integrated circuit, or a chip in a network side device. Illustratively, the network-side device may include, but is not limited to, the types of network-side device 12 listed above.
The configuration device of the search space set in the embodiment of the present application may be a device having an operating system. The operating system may be an Android (Android) operating system, an ios operating system, or other possible operating systems, and embodiments of the present application are not limited specifically.
The configuration device for the search space set provided in the embodiment of the present application can implement each process implemented in the method embodiment of fig. 4, and achieve the same technical effect, and is not described here again to avoid repetition.
It should be noted that, in the configuration method for PDCCH monitoring provided in the embodiment of the present application, the execution subject may be a configuration device for PDCCH monitoring, or a control module in the configuration device for PDCCH monitoring, configured to execute the configuration method for PDCCH monitoring. In the embodiment of the present application, a configuration method for a configuration device for PDCCH monitoring to perform PDCCH monitoring is taken as an example to describe the configuration device for PDCCH monitoring provided in the embodiment of the present application.
Fig. 9 shows a schematic structural diagram of a configuration apparatus for PDCCH monitoring according to an embodiment of the present application, and as shown in fig. 9, the apparatus 900 mainly includes: a fourth determining module 901 and a second configuring module 902.
In this embodiment of the present application, the fourth determining module 901 is configured to determine configuration information of a terminal, where the configuration information indicates a monitoring behavior of the terminal on a paging PDCCH without monitoring a paging advance indication PEI; a second configuration module 902, configured to send the configuration information to the terminal; wherein the monitoring behavior of the paging PDCCH comprises any one of the following: monitoring a paging PDCCH; monitoring of the paging PDCCH is not performed.
The configuration apparatus for PDCCH monitoring in this embodiment may be an apparatus, or may be a component, an integrated circuit, or a chip in a network side device. Illustratively, the network-side device may include, but is not limited to, the types of network-side device 12 listed above.
The PDCCH monitoring configuration device in the embodiment of the present application may be a device with an operating system. The operating system may be an Android (Android) operating system, an ios operating system, or other possible operating systems, and embodiments of the present application are not limited specifically.
The PDCCH monitoring configuration apparatus provided in this embodiment of the present application can implement each process implemented in the method embodiment of fig. 5, and achieve the same technical effect, and is not described here again to avoid repetition.
Optionally, as shown in fig. 10, an embodiment of the present application further provides a communication device 1000, which includes a processor 1001, a memory 1002, and a program or an instruction stored in the memory 1002 and executable on the processor 1001, for example, when the communication device 1000 is a terminal, the program or the instruction is executed by the processor 1001 to implement each process of the foregoing candidate PDCCH allocation method embodiment, or to implement each process of the foregoing PDCCH monitoring method embodiment, and the same technical effects can be achieved. When the communication device 1000 is a network device, the program or the instruction is executed by the processor 1001 to implement each process of the configuration method embodiment of the search space set or each process of the configuration method embodiment of the PDCCH monitoring, and the same technical effect can be achieved, and is not described herein again to avoid repetition.
The embodiment of the present application further provides a terminal, which includes a processor and a communication interface, where the processor is configured to implement each process of the foregoing candidate PDCCH allocation method embodiment or each process of the foregoing PDCCH monitoring method embodiment, and the communication interface is configured to communicate with a network side device. The terminal embodiment corresponds to the terminal-side method embodiment, and all implementation processes and implementation manners of the method embodiment can be applied to the terminal embodiment and can achieve the same technical effect. Specifically, fig. 11 is a schematic diagram of a hardware structure of a terminal for implementing the embodiment of the present application.
The terminal 1100 includes, but is not limited to: a radio frequency unit 1101, a network module 1102, an audio output unit 1103, an input unit 1104, a sensor 1105, a display unit 1106, a user input unit 1107, an interface unit 1108, a memory 1109, a processor 1110, and the like.
Those skilled in the art will appreciate that the terminal 1100 can further include a power supply (e.g., a battery) for supplying power to the various components, and the power supply can be logically connected to the processor 1110 via a power management system, so as to manage charging, discharging, and power consumption management functions via the power management system. The terminal structure shown in fig. 11 does not constitute a limitation of the terminal, and the terminal may include more or less components than those shown, or combine some components, or arrange different components, and thus, the detailed description is omitted here.
It should be understood that in the embodiment of the present application, the input Unit 1104 may include a Graphics Processing Unit (GPU) 11041 and a microphone 11042, and the Graphics processor 11041 processes image data of still pictures or video obtained by an image capturing device (such as a camera) in a video capturing mode or an image capturing mode. The display unit 1106 may include a display panel 11061, and the display panel 11061 may be configured in the form of a liquid crystal display, an organic light emitting diode, or the like. The user input unit 1107 includes a touch panel 11071 and other input devices 11072. A touch panel 11071, also called a touch screen. The touch panel 11071 may include two portions of a touch detection device and a touch controller. Other input devices 11072 may include, but are not limited to, a physical keyboard, function keys (e.g., volume control keys, switch keys, etc.), a trackball, a mouse, and a joystick, which are not described in detail herein.
In this embodiment of the application, the radio frequency unit 1101 receives downlink data from a network side device and then processes the downlink data to the processor 1110; in addition, the uplink data is sent to the network side equipment. In general, radio frequency unit 1101 includes, but is not limited to, an antenna, at least one amplifier, a transceiver, a coupler, a low noise amplifier, a duplexer, and the like.
The memory 1109 may be used for storing software programs or instructions as well as various data. The memory 1109 may mainly include a program or instruction storage area and a data storage area, wherein the program or instruction storage area may store an operating system, application programs or instructions required for at least one function (such as a sound playing function, an image playing function, etc.), and the like. In addition, the memory 1109 may include a high-speed random access memory and may further include a transient memory, wherein the transient memory may be a Read-only memory (ROM), a programmable Read-only memory (PROM), an erasable programmable Read-only memory (EPROM), an electrically erasable programmable Read-only memory (EEPROM), or a flash memory. Such as at least one magnetic disk storage device, flash memory device, or other transitory solid state storage device.
The processor 1110 is configured to allocate, according to a first rule, a candidate PDCCH of a first SS set of a terminal in a non-connected state in a first time unit; wherein the first rule is used to indicate a mapping priority of the first SS set, and the first time unit includes: time slots and/or listening spans.
Or, the processor 1110 is configured to, in a case that the terminal does not need to monitor the paging advance indication PEI, determine a monitoring behavior of the paging PDCCH to be any of: monitoring a paging PDCCH; monitoring of the paging PDCCH is not performed.
The terminal provided by the embodiment of the application can realize the allocation of the candidate PDCCH of the SS set in the non-connection state, thereby utilizing the maximum blind detection capability of the terminal in the non-connection state to the maximum extent.
The embodiment of the present application further provides a network side device, which includes a processor and a communication interface, where the processor is configured to perform each process in the configuration method embodiment of the search space set, or to implement each process in the configuration method embodiment of the PDCCH monitoring, and the communication interface is configured to communicate with a terminal. The embodiment of the network side device corresponds to the embodiment of the method of the network side device, and all implementation processes and implementation manners of the embodiment of the method can be applied to the embodiment of the network side device and can achieve the same technical effect.
Specifically, the embodiment of the application further provides a network side device. As shown in fig. 12, the network-side device 1200 includes: antenna 1201, radio frequency device 1202, baseband device 1203. Antenna 1201 is connected to radio frequency device 1202. In the uplink direction, the rf device 1202 receives information through the antenna 1201 and sends the received information to the baseband device 1203 for processing. In the downlink direction, the baseband device 1203 processes information to be transmitted and transmits the processed information to the radio frequency device 1202, and the radio frequency device 1202 processes the received information and transmits the processed information through the antenna 1201.
The above band processing means may be located in the baseband apparatus 1203, and the method performed by the network side device in the above embodiment may be implemented in the baseband apparatus 1203, where the baseband apparatus 1203 includes a processor 1204 and a memory 1205.
The baseband apparatus 1203 may include at least one baseband board, for example, and a plurality of chips are disposed on the baseband board, as shown in fig. 12, where one chip is, for example, a processor 1204, and is connected to the memory 1205 to call up a program in the memory 1205 to perform the network side device operation shown in the above method embodiment.
The baseband apparatus 1203 may further include a network interface 1206 for exchanging information with the radio frequency apparatus 1202, such as a Common Public Radio Interface (CPRI).
Specifically, the network side device according to the embodiment of the present invention further includes: the instructions or programs stored in the memory 1205 and executable on the processor 1204 are called by the processor 1204 to execute the methods executed by the modules shown in fig. 8 or 9, and achieve the same technical effects, which are not described herein for avoiding repetition.
An embodiment of the present application further provides a readable storage medium, where a program or an instruction is stored on the readable storage medium, and when executed by a processor, the program or the instruction implements each process of the foregoing candidate PDCCH allocation method embodiment, or implements each process of the foregoing PDCCH monitoring method embodiment, or implements each process of the foregoing search space set configuration method embodiment, or implements each process of the foregoing PDCCH monitoring configuration method embodiment, and can achieve the same technical effect, and in order to avoid repetition, the description is not repeated here.
The processor is the processor in the terminal or the network side device in the above embodiment. The readable storage medium includes a computer readable storage medium, such as a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and so on.
The embodiment of the present application further provides a chip, where the chip includes a processor and a communication interface, the communication interface is coupled to the processor, and the processor is configured to execute a program or an instruction to implement each process of the embodiment of the method for allocating candidate PDCCHs, or each process of the embodiment of the method for monitoring a PDCCH, or each process of the embodiment of the method for configuring a search space set, or each process of the embodiment of the method for configuring a PDCCH monitoring, and to achieve the same technical effect, and in order to avoid repetition, the chip is not described herein again.
It should be understood that the chips mentioned in the embodiments of the present application may also be referred to as a system-on-chip, a system-on-chip or a system-on-chip.
The embodiments of the present application further provide a computer program/program product, where the computer program/program product is stored in a transient storage medium, and the program/program product is executed by at least one processor to implement each process of the foregoing candidate PDCCH allocation method embodiment, or implement each process of the foregoing PDCCH monitoring method embodiment, or implement each process of the foregoing search space set configuration method embodiment, or implement each process of the foregoing PDCCH monitoring configuration method embodiment, and can achieve the same technical effect, and in order to avoid repetition, details are not repeated here.
It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a … …" does not exclude the presence of another identical element in a process, method, article, or apparatus that comprises the element. Further, it should be noted that the scope of the methods and apparatus of the embodiments of the present application is not limited to performing the functions in the order illustrated or discussed, but may include performing the functions in a substantially simultaneous manner or in a reverse order based on the functions involved, e.g., the methods described may be performed in an order different than that described, and various steps may be added, omitted, or combined. In addition, features described with reference to certain examples may be combined in other examples.
Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present application may be embodied in the form of a computer software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal (e.g., a mobile phone, a computer, a server, an air conditioner, or a network-side device) to execute the method according to the embodiments of the present application.
While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.
Claims (35)
1. A method for allocating a candidate Physical Downlink Control Channel (PDCCH) is characterized by comprising the following steps:
the terminal in the non-connection state allocates a candidate Physical Downlink Control Channel (PDCCH) of a first search space set (SSset) in a first time unit according to a first rule; wherein the first rule is used for indicating mapping priority of the first SS set, and the first time unit comprises: time slots and/or listening spans.
2. The method of claim 1, wherein the first SSset comprises at least one of a first common search space set CSSset and a first dedicated search space set USSset;
wherein the first CSSset comprises at least one of:
CSSset used for carrying paging advanced indication PEI PDCCH;
CSS set used for bearing the weight of multicast broadcast service MBS PDCCH;
CSS set for carrying SDT PDCCH;
type 0PDCCH CSS set;
type 0APDCCH CSS set;
type 1PDCCH CSS set;
type 2PDCCH CSS set;
type 3PDCCH CSS set.
3. The method of claim 1, wherein the first rule is further configured to indicate at least one of:
not allowing the terminal in the non-connected state to abandon the allocation of the PDCCH candidate for the second SSset;
allowing the terminal in the non-connected state to abandon the allocation of the PDCCH candidate for the third SSset;
wherein the second SSset and the third SSset are included in the first SSset.
4. A method according to claim 2 or 3, characterized in that, in the first case,
not allowing the terminal in a non-connected state to abandon allocation of the candidate PDCCH carrying the CSS set of the PEI PDCCH; and/or the presence of a gas in the gas,
the mapping priority of the CSS set for carrying the PEI PDCCH is higher than at least one of the following: mapping priorities of CSS sets and USS sets except the CSSset for carrying the PEI PDCCH;
wherein the first condition satisfies: and when the non-connected terminal does not detect the PEI, not monitoring a paging PDCCH.
5. A method according to claim 2 or 3, characterized in that, in the second case,
allowing the terminal in a non-connected state to give up allocation of the candidate PDCCH carrying the CSS set of the PEI PDCCH; and/or
The mapping priority of the CSS sets for carrying the PEI PDCCH is lower than at least one of the following: mapping priorities of CSS sets and mapping priorities of USS sets except the CSSset for carrying the PEI PDCCH;
wherein the second condition satisfies: and when the non-connected terminal does not detect the PEI, monitoring the paging PDCCH.
6. The method of claim 3, wherein the third SSset comprises at least one of:
CSSset for carrying PEI PDCCH;
CSS set for carrying MBS PDCCH;
CSS set for carrying SDT PDCCH;
the first USS set.
7. The method of claim 2, wherein the CSSset used to carry the PEI PDCCH has a lowest mapping priority.
8. The method as claimed in claim 1, wherein a mapping priority of a fourth SSset is agreed upon by a network configuration or protocol, wherein the fourth SSset is included in the first SSset.
9. The method of claim 3, wherein the mapping priorities of the first SS sets in order from high to low comprise any of:
the second SSset, SSsets other than the second SSset;
SSset other than the third SSset, the third SSset;
the second SSset, the third SSset.
10. The method of claim 2, wherein the mapping priorities of the first SS sets in order from high to low comprise at least one of:
CSS set except the CSS set for carrying the PEI PDCCH, the first USS set and the CSSset for carrying the PEI PDCCH;
CSS set except the CSS set used for carrying PEI PDCCH, CSSset used for carrying PEI PDCCH, and the first USS set;
the first CSSset, the first USSset;
the first USSset, the first CSSset.
11. The method according to claim 1, wherein the terminal in the unconnected state allocates the candidate physical downlink control channel PDCCH of the first search space set SS set in the first time unit according to a first rule, and the method comprises:
the terminal in the non-connection state sequentially allocates the candidate PDCCHs of the first SS set from high to low according to the mapping priority of the first SS set;
wherein, before a candidate PDCCH of a target SS set is allocated, if it is determined that the candidate PDCCH of the target SS set is allocated to cause the maximum processing capability of the terminal in the non-connected state to be exceeded, the candidate PDCCH of the target SS set and a fifth SSset are abandoned; wherein the mapping priority of the fifth SSset is lower than the mapping priority of the target SSset, and the first SSset comprises the target SSset and the fifth SSset.
12. The method according to claim 11, wherein the maximum processing capability of the terminal in the unconnected state comprises:
a maximum number of candidate PDCCHs supported in a first time unit; and/or the presence of a gas in the gas,
a maximum number of non-overlapping control channel elements, CCEs, within a first time unit supported.
13. A method for monitoring a PDCCH is characterized by comprising the following steps:
determining the monitoring action of a paging PDCCH under the condition that the terminal does not need to monitor paging advanced indication PEI; wherein the monitoring behavior of the paging PDCCH comprises any one of the following:
monitoring the pageingPDCCH;
the paging pdcch is not monitored.
14. The method of claim 13, wherein the determining the monitoring behavior for paging the paging PDCCH comprises:
and determining to monitor or not to monitor the pagengPDCCH according to the configuration of the network side equipment.
15. The method according to claim 13, wherein the terminal does not need to listen to PEI in at least one of:
the terminal does not allocate candidate PDCCHs for carrying CSS sets of the PEI PDCCH;
modifying the transmission direction of the time unit where the PEI is located;
PEI collides or overlaps with other channels or signals.
16. A method for configuring a search space set is characterized by comprising the following steps:
the method comprises the steps that network side equipment sends configuration information to a terminal in a non-connection state, wherein the configuration information comprises a first rule, the first rule is used for indicating the mapping priority of a first SS set in a first time unit, and the first time unit comprises the following steps: time slots and/or listening spans.
17. The method of claim 16, wherein the first rule is further configured to indicate at least one of:
not allowing the terminal in the non-connected state to abandon the allocation of the PDCCH candidate for the second SS set;
allowing the terminal in the non-connected state to abandon the allocation of the PDCCH candidate for the third SS set;
wherein the second SS set and the third SS set are included in the first SS set.
18. The method according to claim 17, characterized in that in the first case,
not allowing the terminal in the non-connected state to abandon allocation of a candidate PDCCH for carrying CSS set of a PEI PDCCH; and/or the presence of a gas in the gas,
the mapping priority of the CSS set for carrying the PEI PDCCH is higher than at least one of the following: mapping priorities of CSS sets and mapping priorities of USS sets except the CSS sets used for carrying the PEI PDCCH;
wherein the first condition satisfies: and when the non-connected terminal does not detect the PEI, not monitoring the paging PDCCH.
19. The method according to claim 17, characterized in that in the second case,
allowing the terminal in the non-connected state to abandon allocation of a candidate PDCCH for a CSS set carrying a PEI PDCCH; and/or
The mapping priority of the CSS set for carrying the PEI PDCCH is lower than at least one of the following: mapping priorities of CSS sets and mapping priorities of USS sets except the CSSset for carrying the PEI PDCCH;
wherein the second condition satisfies: and when the non-connected terminal does not detect PEI, monitoring a paging PDCCH.
20. The method of claim 16, wherein the configuration information indicates that the mapping priorities of the first SS sets are in a high-to-low order comprising at least one of:
CSS set except CSS set for carrying PEI PDCCH, first USS set and CSSset for carrying PEI PDCCH, wherein the first SS set comprises at least one of first CSS set and the first USS set, and the first CSS set comprises the CSS set for carrying PEI PDCCH;
CSS set except CSS set for carrying PEI PDCCH, CSSset for carrying PEI PDCCH, and first USS set;
a first CSSset, a first USSset;
a first USSset, a first CSSset.
21. The method of claim 16, wherein the first rule indicates that a mapping priority of CSSset for carrying PEI PDCCH is lowest.
22. The method of claim 16, wherein the first rule indicates a mapping priority for a fourth SSset, wherein the fourth SSset is included in the first SSset.
23. A method for configuring PDCCH monitoring, comprising:
the method comprises the steps that network side equipment sends configuration information to a terminal, wherein the configuration information indicates the monitoring behavior of the paging PDCCH of the terminal under the condition that the paging is not required to monitor the PEI in advance;
wherein the monitoring behavior of the paging PDCCH comprises any one of the following:
monitoring a paging PDCCH;
monitoring of the paging PDCCH is not performed.
24. An apparatus for allocating PDCCH candidates, comprising:
the terminal comprises a first determining module, a second determining module and a judging module, wherein the first determining module is used for determining a first rule, and the first rule is used for indicating the mapping priority of a first SS set of a terminal in a non-connection state;
an allocating module, configured to allocate the PDCCH candidate of the first SS set in a first time unit according to the first rule; wherein the first time unit comprises: time slots and/or listening spans.
25. The apparatus of claim 24, wherein the first SS set comprises at least one of a first common search space set (CSS set) and a first dedicated search space set (USS set);
wherein the first CSS set comprises at least one of:
CSS set for carrying PEI PDCCH;
CSS set for carrying MBS PDCCH;
CSS set for carrying SDT PDCCH;
type 0PDCCH CSS set;
type0A PDCCH CSS set;
type 1PDCCH CSS set;
type 2PDCCH CSS set;
type 3PDCCH CSS set.
26. The apparatus of claim 24, wherein the allocating module allocates the PDCCH candidate for the first SS set in the first time unit according to the first rule, and comprises:
sequentially allocating candidate PDCCHs of the first SS set according to the sequence of the mapping priority of the first SS set from high to low;
wherein, before a candidate PDCCH of a target SS set is allocated, if it is determined that the candidate PDCCH of the target SS set is to result in exceeding the maximum processing capability of the terminal in a non-connected state, the candidate PDCCH of the target SS set and a fifth SS set are abandoned; wherein the mapping priority of the fifth SS set is lower than the mapping priority of the target SS set, and the first SS set comprises the target SS set and the fifth SS set.
27. An apparatus for monitoring a PDCCH, comprising:
the second determining module is used for determining whether the terminal needs to monitor the PEI;
a monitoring module, configured to determine a monitoring behavior for paging a paging PDCCH when the terminal does not need to monitor the PEI, where the monitoring behavior for paging the PDCCH includes any one of the following:
monitoring a paging PDCCH;
monitoring of the paging PDCCH is not performed.
28. The apparatus of claim 27, wherein the monitoring module determines a monitoring behavior of paging PDCCH, comprising:
and determining whether the terminal monitors the paging PDCCH or not according to the configuration set by the network.
29. An apparatus for configuring a set of search spaces, comprising:
a third determining module, configured to determine a first rule of a terminal in a non-connected state, where the first rule is used to indicate a mapping priority of a first SS set in a first time unit, and the first time unit includes: time slots and/or listening spans;
a first configuration module, configured to send configuration information to the terminal in the non-connected state, where the configuration information includes the first rule, and the first rule is used to indicate a mapping priority of the first SS set in a first time unit.
30. The apparatus of claim 29, wherein the first rule is further configured to indicate at least one of:
not allowing the terminal in the non-connected state to abandon the allocation of the PDCCH candidate for the second SS set;
allowing the terminal in the non-connected state to abandon the allocation of the PDCCH candidate for the third SS set;
wherein the second SS set and the third SS set are included in the first SS set.
31. The apparatus of claim 29, wherein the configuration information indicates that the mapping priorities of the first SS sets are ordered from high to low comprising at least one of:
CSS set except CSS set for carrying PEI PDCCH, first USS set and CSSset for carrying PEI PDCCH, wherein the first SS set comprises at least one of first CSS set and the first USS set, and the first CSS set comprises the CSS set for carrying PEI PDCCH;
CSS set except CSS set for carrying PEI PDCCH, CSSset for carrying PEI PDCCH, and first USS set;
a first CSSset, a first USSset;
a first USSset, a first CSSset.
32. An apparatus for configuring PDCCH monitoring, comprising:
a fourth determining module, configured to determine configuration information of a terminal, where the configuration information indicates a monitoring behavior of the terminal on a paging PDCCH without monitoring a paging advanced indication PEI;
a second configuration module, configured to send the configuration information to the terminal;
wherein the monitoring behavior of the paging PDCCH comprises any one of the following:
monitoring a paging PDCCH;
monitoring of the paging PDCCH is not performed.
33. A terminal comprising a processor, a memory and a program or instructions stored on the memory and executable on the processor, the program or instructions, when executed by the processor, implementing the steps of the method for allocating candidate PDCCHs according to any one of claims 1 to 12 or implementing the steps of the method for listening to PDCCHs according to any one of claims 13 to 15.
34. A network side device, comprising a processor, a memory, and a program or instructions stored on the memory and executable on the processor, wherein the program or instructions, when executed by the processor, implement the steps of the configuration method for search space set according to any one of claims 16 to 22, or implement the steps of the configuration method for PDCCH monitoring according to claim 23.
35. A readable storage medium, on which a program or instructions are stored, which, when executed by a processor, implement the steps of the method for allocating candidate PDCCHs of any one of claims 1 to 12, or the steps of the method for monitoring the PDCCHs of any one of claims 13 to 15, or the steps of the method for configuring a set of search spaces of any one of claims 16 to 22, or the steps of the method for configuring the monitoring of the PDCCHs of claim 23.
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