WO2019137100A1 - Signaling transmission method and device - Google Patents

Abstract

The present application discloses a signaling transmission method and device, for resolving an issue of the prior art in which a verification field in activation signaling or deactivation signaling cannot be accurately transmitted between a base station and a user equipment unit in a 5G NR system. The method comprises: a base station generating data transmission activation signaling or deactivation signaling, wherein the HARQ process number field and/or the Redundancy version field in a PDCCH is configured as a verification field in the activation signaling or deactivation signaling; and using the PDCCH to carry the generated data transmission activation signaling or deactivation signaling to send the same to a user equipment unit. A base station generates activation signaling or deactivation signaling, such that a verification field in activation signaling or deactivation signaling is transmitted between the base station and the user equipment in a 5G NR system.

Description

Signal transmission method and device

The present application claims priority to Chinese Patent Application No. 201810031887.9, entitled "A Signaling Transmission Method and Apparatus" on January 12, 2018, the entire contents of which is incorporated herein by reference. in.

Technical field

The present application relates to the field of communications technologies, and in particular, to a signaling transmission method and apparatus.

Background technique

With the development of mobile communication services, organizations such as the 3rd Generation Partnership Project (3GPP) have begun to research new wireless access technologies (5G NR). In the 5G NR system, in order to reduce the delay and reduce the overhead of control signaling, a transmission scheme such as Semi-Persistent Scheduling (SPS) and a second type of uplink-free scheduling has emerged.

Before the data transmission is started by using the semi-persistent scheduling or the second type uplink scheduling transmission scheme, special control signaling is required for data transmission activation; after the data transmission is completed by using the semi-persistent scheduling or the second type uplink scheduling system Dedicated control signaling is required for data transmission deactivation.

In the prior art, a verification field is set in the activation signaling and the deactivation signaling to implement the verification function. When the authentication field in the signaling and deactivation signaling is activated, the field in the DCI downlink control information (DCI) format format 0/1/1A/2/2A/2B/2C of the PDCCH is used. .

In the 5G NR, the activation signaling and deactivation signaling are no longer using DCI format0/1/1A/2/2A/2B/2C of the PDCCH, according to DCI format 0/1/1A/2/2A/2B/2C. The verification information consisting of the set activation signaling and the verification field in the deactivation signaling is no longer applicable in the 5G NR. Therefore, the activation signaling in the semi-persistent scheduling or the second type of uplink scheduling-free scheme in the 5G NR needs to be redesigned in order to implement an activation signal between the base station and the user equipment in the 5G NR system. Let the transmission of the verification field in the deactivation signaling.

Summary of the invention

The embodiment of the present application discloses a signaling transmission method and apparatus, which are used to solve the verification field in the activation signaling and deactivation signaling between the base station and the user equipment in the 5G NR system in the prior art. The problem of transmission.

To achieve the above objective, the embodiment of the present application discloses a signaling transmission method, where the method includes:

The base station generates activation signaling or deactivation signaling of the data transmission, where the hybrid automatic retransmission request process number in the physical downlink control channel PDCCH, the HARQ process number field, and/or in the activation signaling or deactivation signaling Or the redundancy version Redundancy version field is set to the verification field;

The generated activation signaling or deactivation signaling of the data transmission is sent to the user equipment in the PDCCH.

Further, in the activation signaling or deactivation signaling, setting a hybrid automatic repeat request process number HARQ process number field and/or a redundancy version Redundancy version field in the physical downlink control channel PDCCH as a verification field include:

In the activation signaling of the uplink data transmission, the HARQ process number field and/or the Redundancy version field in the format format 0_0 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the uplink data transmission, the PDCCH is The HARQ process number field and/or the Redundancy version field in format 0_0 or format 0_1 is set to the verification field; or,

In the activation signaling of the uplink data transmission, the HARQ process number field and/or the Redundancy version field in the format 0_1 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the uplink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 0_0 or format 0_1 are set as the verification field.

Further, in the activation signaling or deactivation signaling, setting a hybrid automatic repeat request process number HARQ process number field and/or a redundancy version Redundancy version field in the physical downlink control channel PDCCH as a verification field include:

In the activation signaling of the downlink data transmission, the HARQ process number field and/or the Redundancy version field in the format 1_0 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the downlink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 1_0 or format 1_1 are set as the verification field; or,

In the activation signaling of the downlink data transmission, the HARQ process number field and/or the Redundancy version field in the format 1_1 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the downlink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 1_0 or format 1_1 are set as the verification field.

Further, setting the HARQ process number field and/or the Redundancy version field in the PDCCH to the verification field includes:

Setting the HARQ process number field, the Redundancy version field, and other fields in the PDCCH as verification fields; or,

Setting the HARQ process number field and other fields in the PDCCH as verification fields; or,

Set the Redundancy version field and other fields in the PDCCH as verification fields.

Further, in the activation signaling, the other field includes at least one of the following: a transmit power control command TPC command field, a modulation and coding policy MCS field, a first downlink allocation index DAI field, and a padding field;

In the deactivation signaling, the other field includes at least one of the following: a TPC command field, an MCS field, a first DAI field, a padding field, a frequency domain resource allocation frequency resource assignment field, a time domain resource allocation time resource assignment field, Antenna interface impedance antenna ports field.

Further, for each field set as the verification field, all bits or partial bits of the field are used as verification bits;

Wherein, when all bits of the field are used as verification bits, the field is set to all 0s or all 1s;

When a partial bit of the field is used as the verification bit, the first predetermined number of bits of the field are used as the verification bits.

Further, when setting the verification field in the activation signaling and the deactivation signaling, the fields set as the verification field in the activation signaling and the deactivation signaling have only two fields different;

Wherein, the field different in the activation signaling and the deactivation signaling includes: in the activation signaling and the deactivation signaling, the names of the fields are different; and/or,

In the activation signaling and deactivation signaling, the bits occupied by the fields of the same name are used as the number of verification bits and/or the bits used as the verification bits are different in the field; and/or,

In the activation signaling and deactivation signaling, the fields of the same name are on the same bit, and the values set are different.

The embodiment of the present application discloses a signaling transmission method, where the method includes:

The user equipment receives the activation signaling or deactivation signaling of the data transmission carried in the physical downlink control channel PDCCH sent by the base station, where the base station sends the HARQ process number in the PDCCH in the activation signaling or deactivation signaling. The field and/or the Redundancy version field is set to the verification field;

Controlling the transmission of data based on the received activation signaling or deactivation signaling of the data transmission.

The embodiment of the present application discloses a signaling transmission device, where the device includes:

And a generating module, configured to generate activation signaling or deactivation signaling of the data transmission, where the HARQ process number field and/or Redundancy version in the physical downlink control channel PDCCH in the activation signaling or deactivation signaling The field is set to the verification field;

And a sending module, configured to send the generated activation signaling or deactivation signaling of the data transmission to the user equipment in the PDCCH.

The embodiment of the present application discloses a signaling transmission device, where the device includes:

a receiving module, configured to receive, by the base station, activation signaling or deactivation signaling of a data transmission carried in a physical downlink control channel PDCCH, where the base station performs the PDCCH in the activation signaling or the deactivation signaling The HARQ process number field and/or the Redundancy version field are set as verification fields;

And a control module, configured to control transmission of the data according to the received activation signaling or deactivation signaling of the data transmission.

The embodiment of the present application discloses a base station, where the base station includes: a memory, a processor, and a transceiver;

The processor is configured to read a program in the memory, and perform the following process: generating activation signaling or deactivation signaling of a data transmission, where, in the activation signaling or deactivation signaling, the physical The HARQ process number field and/or the Redundancy version field in the downlink control channel PDCCH is set as a verification field;

The transceiver is configured to send the generated activation signaling or deactivation signaling of the data transmission in the PDCCH to the user equipment under the control of the processor.

Further, the processor is specifically configured to: in the activation signaling of the uplink data transmission, set the HARQ process number field and/or the Redundancy version field in the format0_0 of the PDCCH to a verification field, corresponding to the uplink data transmission. In the deactivation signaling, the HARQ process number field and/or the Redundancy version field in the format 0_0 or format 0_1 of the PDCCH are set as the verification field; or

In the activation signaling of the uplink data transmission, the HARQ process number field and/or the Redundancy version field in the format 0_1 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the uplink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 0_0 or format 0_1 are set as the verification field.

Further, the processor is specifically configured to: in the activation signaling of the downlink data transmission, set the HARQ process number field and/or the Redundancy version field in the format1_0 of the PDCCH to a verification field, corresponding to the downlink data transmission. In the deactivation signaling, the HARQ process number field and/or the Redundancy version field in the format 1_0 or format 1_1 of the PDCCH are set as the verification field; or

In the activation signaling of the downlink data transmission, the HARQ process number field and/or the Redundancy version field in the format 1_1 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the downlink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 1_0 or format 1_1 are set as the verification field.

Further, the processor is specifically configured to set a HARQ process number field, a Redundancy version field, and other fields in the PDCCH as an authentication field; or set a HARQ process number field and other fields in the PDCCH as a verification field. Or, set the Redundancy version field and other fields in the PDCCH as verification fields.

Further, in the activation signaling, the other field includes at least one of the following: a TPC command field, an MCS field, a first DAI field, and a padding field;

In the deactivation signaling, the other fields include at least one of the following: a TPC command field, an MCS field, a first DAI field, a padding field, a frequency resource assignment field, a time resource assignment field, and an antenna ports field.

Further, the processor is specifically configured to use all bits or partial bits of the field as verification bits for each field set as an authentication field; wherein when all bits of the field are used as verification bits, This field is set to all 0s or all 1s; when a partial bit of the field is used as the verification bit, the first predetermined number of bits of the field are used as the verification bits.

The embodiment of the present application discloses a user equipment, where the device includes: a memory, a processor, and a transceiver;

The transceiver is configured to receive, according to the control of the processor, activation signaling or deactivation signaling of a data transmission carried by a base station in a physical downlink control channel PDCCH, where the base station is in the activation signaling Or deactivation signaling, setting a HARQ process number field and/or a Redundancy version field in the PDCCH as a verification field;

The processor is configured to read a program in the memory, and perform the following process: controlling transmission of data according to the received activation signaling or deactivation signaling of the data transmission.

The embodiment of the present application discloses a computer readable storage medium storing a computer program executable by a base station, when the program is run on the base station, causing the base station to perform the steps of any of the methods described above .

The embodiment of the present application discloses a computer readable storage medium storing a computer program executable by a user equipment, and when the program runs on the user equipment, causing the user equipment to perform any of the methods described above A step of.

The embodiment of the present application discloses a signaling transmission method, device, base station, user equipment, system, and storage medium, where the method includes: the base station generates activation signaling or deactivation signaling of data transmission, where the activation In the signaling or deactivation signaling, the HARQ process number field and/or the Redundancy version field in the physical downlink control channel PDCCH are set as an authentication field; and the generated activation signaling or deactivation signaling bearer of the data transmission is generated. The PDCCH is sent to the user equipment. In the embodiment of the present application, the base station sets the HARQ process number field and/or the Redundancy version field in the PDCCH as the verification field in the activation signaling or deactivation signaling of the data transmission, implements the verification function, and generates the generated function. The activation signaling or deactivation signaling bearer of the data transmission is sent to the user equipment in the PDCCH, and the verification field in the activation signaling and deactivation signaling between the base station and the user equipment in the 5G NR system is accurately implemented. transmission.

DRAWINGS

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings to be used in the embodiments or the prior art description will be briefly described below. Obviously, the drawings in the following description are only It is a certain embodiment of the present application, and other drawings can be obtained according to the drawings without any creative work for those skilled in the art.

FIG. 1 is a schematic diagram of a transmission process of activation signaling and deactivation signaling according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram of a transmission process of activation signaling and deactivation signaling according to an embodiment of the present disclosure;

FIG. 3 is a structural diagram of a transmission apparatus for activating signaling and deactivating signaling according to an embodiment of the present disclosure;

4 is a structural diagram of a transmission device for activating signaling and deactivating signaling according to an embodiment of the present disclosure;

Figure 5 is a base station according to an embodiment of the present application;

FIG. 6 is a user equipment according to an embodiment of the present application;

FIG. 7 is a structural diagram of a signaling transmission system according to an embodiment of the present application.

Detailed ways

The technical solutions in the embodiments of the present application are clearly and completely described in the following with reference to the drawings in the embodiments of the present application. It is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present application without departing from the inventive scope are the scope of the present application.

In Long Term Evolution (LTE), the technical solutions related to activation signaling and deactivation signaling for SPS are as follows.

First, the SPS-RNTI is used to perform the physical downlink control channel (PDCCH) for scrambling bearer activation signaling and deactivation signaling. Secondly, the new signaling signaling and deactivation signaling are used. The New Data Indicator (NDI) field is set to 0. This is the two basic conditions. For further rigorous validation, additional fields are required. Table 1 below is the verification field for activation signaling.

Table 1

In the uplink SPS transmission, for any transmission mode, the activation signaling adopts the Downlink Control Information (DCI) format format 0 of the PDCCH, where the Transmit Power Control (TPC) command (command) field is set to 00, Cyclic shift Demodulation Modulator Reference Signal (DMRS) field is set to 000, the most significant bit of the Modulation and Coding Scheme (MCS) field (Most Significant Bit, MSB) ) is set to 0, and other fields are not restricted.

In the downlink SPS transmission of the Frequency Division Duplexing (FDD) system, if the PDCCH format corresponding to the transmission mode is DCI format 1/1A, the activation signaling adopts the DCI format 1/1A of the PDCCH, where the hybrid automatic retransmission is performed. Request (Hybrid Automatic Repeat Request), HARQ) process number, that is, the HARQ process number field is set to 000, the most significant bit of the MCS field is set to 0, and the redundancy version field is set to 00, other fields. No restrictions.

In the downlink SPS transmission of the FDD system, if the PDCCH format corresponding to the transmission mode is DCI format 2/2A/2B/2C, the activation signaling adopts DCI format 2/2A/2B/2C of the PDCCH, where the HARQ process number field is set to 000. The highest bit of the MCS field corresponding to the enabled transport block (TB) is set to 0, and the Redundancy version field corresponding to the enabled TB is set to 00. The other fields are not limited.

For TDD systems, the HARQ process number field is set to 0000 and the other field settings are the same as for FDD.

Table 2 below is the verification field for deactivation signaling.

Table 2

In the uplink SPS transmission, for any transmission mode, the deactivation signaling adopts DCI format 0 of the PDCCH, where the TPC command field is set to 00, the Cyclic shift DMRS field is set to 000, the MCS field is set to 11111, and the RB allocation field is set to All 1, other fields are not restricted.

In the downlink SPS transmission of the FDD system, for any transmission mode, the deactivation signaling adopts the DCI format 1A of the PDCCH, where the HARQ process number field is set to 000, the MCS field is set to 11111, the Redundancy version is set to 00, and the resource block (Resource) The Block, RB) RB allocation field is set to all 1, and other fields are not restricted.

For TDD systems, the HARQ process number field is set to 0000 and the other field settings are the same as for FDD.

FIG. 1 is a schematic diagram of a transmission process of activation signaling and deactivation signaling according to an embodiment of the present application, where the method is applied to a base station, including:

S101: The base station generates activation signaling or deactivation signaling of the data transmission, where the hybrid automatic retransmission request process number HARQ process number field in the physical downlink control channel PDCCH in the activation signaling or deactivation signaling And/or the redundancy version Redundancy version field is set to the verification field.

S102: The activated signaling or deactivation signaling of the generated data transmission is carried in the PDCCH and sent to the user equipment.

The base station can generate activation signaling and deactivation signaling of the data transmission, and the activation signaling and the deactivation signaling include a verification field, and the base station can set the verification field, that is, which fields are set as the verification field, specifically In the activation signaling and the deactivation signaling, the HARQ process number field and/or the Redundancy version field in the PDCCH are set as the verification field.

In the embodiment of the present application, the base station sets the HARQ process number field and/or the Redundancy version field in the PDCCH as the verification field in the activation signaling or deactivation signaling of the data transmission, implements the verification function, and generates the generated function. The activation signaling or deactivation signaling bearer of the data transmission is sent to the user equipment in the PDCCH, and the verification field in the activation signaling and deactivation signaling between the base station and the user equipment in the 5G NR system is accurately implemented. transmission.

Example 1:

A schematic diagram of a transmission process of activation signaling and deactivation signaling provided by Embodiment 1 of the present application, where the process includes:

The base station generates activation signaling or deactivation signaling of the uplink data transmission, where the HARQ process number field and/or the Redundancy version field in the physical downlink control channel PDCCH is set to be the activation signaling or the deactivation signaling Verify the field.

The generated activation signaling or deactivation signaling of the uplink data transmission is sent to the user equipment in the PDCCH.

The method for transmitting activation signaling and deactivation signaling provided by the embodiment of the present application is applied to a base station (gNB).

The base station needs special control signaling to perform activation of uplink data transmission before using the second type of uplink scheduling-free scheme to perform uplink data transmission with the user equipment, and the activated control signaling for performing uplink data transmission is called activation signaling; After the uplink data transmission is performed by the base station and the user equipment is used for the uplink data transmission, the base station needs special control signaling to perform the deactivation of the uplink data transmission, and the deactivated control signaling for performing the uplink data transmission is called deactivation. Signaling.

The base station can generate activation signaling and deactivation signaling of the uplink data transmission, and the activation signaling and the deactivation signaling include a verification field, and the base station can set the verification field, that is, which fields are set as the verification field, specifically Yes, in the activation signaling and deactivation signaling, the HARQ process number field and/or the Redundancy version field in the PDCCH are set as the verification field.

After the base station generates the activation signaling, the activation signaling may be carried in the PDCCH and sent to the user equipment. After the base station generates the deactivation signaling, the deactivation signaling may be carried in the PDCCH and sent to the user equipment.

When setting the verification field in the activation signaling, the base station may set the HARQ process number field to the verification field, and may set the Redundancy version field to the verification field, or set the HARQ process number field and the Redundancy version field. To verify the field.

When the base station sets the verification field in the deactivation signaling, the HARQ process number field may be set as the verification field, and the Redundancy version field may be set as the verification field, or the HARQ process number field and the Redundancy version field may be used. Set to verify the field.

The verification field in the activation signaling may be the same as the field specifically included in the verification field in the deactivation signaling, for example, the base station sets the redundancy version field to the verification field in the activation signaling and the deactivation signaling.

The verification field in the activation signaling may be different from the field specifically included in the verification field in the deactivation signaling. For example, the base station sets the redundancy version field to the verification field in the activation signaling, and sets the HARQ process number field as the deactivation letter. The validation field in the order.

The verification field in the activation signaling and the verification field in the deactivation signaling may also be partially identical, partially different, and will not be further described. When the base station sets the HARQ process number field and/or the Redundancy version field as the verification field, whether some fields other than the two fields are set as the verification field, which is not limited in this embodiment.

Example 2:

The activation signaling or deactivation signaling may adopt multiple formats of the PDCCH. On the basis of the foregoing embodiment, in the embodiment of the present application, in the active signaling or deactivation signaling, the physical downlink control channel PDCCH is used. When the HARQ process number field and/or the Redundancy version field are set to the verification field, the HARQ process number field in the format 0_0 or format 0_1 of the PDCCH may be in the activation signaling or deactivation signaling of the uplink data transmission. Or the Redundancy version field is set to the verification field;

In the embodiment of the present application, in the uplink data transmission, the activation signaling or the deactivation signaling may adopt the format 0_0 or the format 0_1 of the PDCCH. Specifically, if the activation signaling of the uplink data transmission adopts the format0_1 of the PDCCH, the corresponding uplink The deactivation signaling of the data transmission adopts the format 0_0 of the PDCCH or the format 0_1 of the PDCCH; if the activation signaling of the uplink data transmission adopts the format 0_0 of the PDCCH, the deactivation signaling of the corresponding uplink data transmission adopts the format 0_0 of the PDCCH or adopts Format 0_1 of the PDCCH.

Specifically, in the activation signaling of the uplink data transmission, the HARQ process number field and/or the Redundancy version field in the format 0_0 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the uplink data transmission, The HARQ process number field and/or the Redundancy version field in the format 0_0 or format 0_1 of the PDCCH are set as the verification field; or,

In the activation signaling of the uplink data transmission, the HARQ process number field and/or the Redundancy version field in the format 0_1 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the uplink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 0_0 or format 0_1 are set as the verification field.

Example 3:

In addition to generating activation signaling or deactivation signaling for uplink data transmission, the base station may also generate activation signaling or deactivation signaling for downlink data transmission. On the basis of the foregoing embodiments, in the embodiment of the present application, the base station generates the activation signaling or the deactivation signaling of the downlink data transmission, and the bearer is sent to the user equipment in the PDCCH.

In the activation signaling or deactivation signaling, setting the hybrid automatic retransmission request process number HARQ process number field and/or the redundancy version redundancy version field in the physical downlink control channel PDCCH to the verification field includes:

In the activation signaling of the downlink data transmission, the HARQ process number field and/or the Redundancy version field in the format 1_0 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the downlink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 1_0 or format 1_1 are set as the verification field; or,

In the activation signaling of the downlink data transmission, the HARQ process number field and/or the Redundancy version field in the format 1_1 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the downlink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 1_0 or format 1_1 are set as the verification field.

In the embodiment of the present application, the base station needs special control signaling to perform activation of downlink data transmission before using the semi-persistent scheduling scheme to start downlink data transmission with the user equipment, and the control signaling for performing the downlink data transmission is called Activation signaling; after the downlink data transmission is completed by the base station and the user equipment by using the semi-persistent scheduling scheme, the base station needs special control signaling to perform deactivation of downlink data transmission, and the deactivated control signaling for performing downlink data transmission is called Activate signaling.

The base station can generate activation signaling and deactivation signaling of the downlink data transmission, and the activation signaling and the deactivation signaling include a verification field, and the base station can set the verification field, that is, which fields are set as the verification field, specifically Yes, in the activation signaling and deactivation signaling, the HARQ process number field and/or the Redundancy version field in the PDCCH are set as the verification field.

After the base station generates the activation signaling, the activation signaling may be carried in the PDCCH and sent to the user equipment. After the base station generates the deactivation signaling, the deactivation signaling may be carried in the PDCCH and sent to the user equipment.

In the activation signaling or deactivation signaling, when the HARQ process number field and/or the Redundancy version field in the PDCCH are set as the verification field, it may be in the activation signaling or deactivation signaling of the downlink data transmission, The HARQ process number field and/or the Redundancy version field in the format 1_0 or format 1_1 of the PDCCH are set as the verification field.

In the downlink data transmission, the activation signaling or the deactivation signaling may adopt the format 1_0 or format1_1 of the PDCCH. Specifically, if the activation signaling of the downlink data transmission adopts the format 1_1 of the PDCCH, the deactivation signal of the corresponding downlink data transmission is used. The format 1_0 of the PDCCH or the format 1_1 of the PDCCH is adopted. If the activation signaling of the downlink data transmission adopts the format 1_0 of the PDCCH, the deactivation signaling of the corresponding downlink data transmission adopts the format 1_0 of the PDCCH or the format 1_1 of the PDCCH.

Specifically, in the activation signaling of the downlink data transmission, the HARQ process number field and/or the Redundancy version field in the format 1_0 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the downlink data transmission, The HARQ process number field and/or the Redundancy version field in the format 1_0 or format 1_1 of the PDCCH are set as the verification field; or,

In the activation signaling of the downlink data transmission, the HARQ process number field and/or the Redundancy version field in the format 1_1 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the downlink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 1_0 or format 1_1 are set as the verification field.

Example 4:

In order to more strictly verify the activation signaling or the deactivation signaling, on the basis of the foregoing embodiments, in the embodiment of the present application, the HARQ process number field and/or the Redundancy version field in the PDCCH are set as the verification field. include:

Setting the HARQ process number field, the Redundancy version field, and other fields in the PDCCH as verification fields; or,

Setting the HARQ process number field and other fields in the PDCCH as verification fields; or,

Set the Redundancy version field and other fields in the PDCCH as verification fields.

In the embodiment of the present application, setting the HARQ process number field and the Redundancy version field in the PDCCH to the verification field includes:

The HARQ process number field, the Redundancy version field, and other fields in the PDCCH are set as verification fields.

Specifically, the base station may simultaneously set the HARQ process number field and the Redundancy version field to the verification field in the activation signaling or deactivation signaling. The base station may also set other fields as the verification field, and the base station sets the HARQ process number field, the Redundancy version field, and other fields in the PDCCH as the verification field.

In the activation signaling, the other fields include at least one of the following: a TPC command field, an MCS field, a first Downlink Assignment Index (DAI) field, and a padding field;

In the deactivation signaling, the other fields include at least one of the following: a TPC command field, an MCS field, a first DAI field, a padding field, a frequency domain resource allocation (frequency resource assignment field), and a time domain resource allocation (time resource). Assignment field, antenna port field.

According to the above description, the field included in the verification field in the activation signaling may be the same as the field included in the verification field in the deactivation signaling, and may be different, partially identical, or partially different.

For example, the base station sets the HARQ process number field, the Redundancy version field, and the TPC command field to the verification field in the activation signaling, and sets the HARQ process number field, the Redundancy version field, the padding field, and the frequency resource assignment field to deactivation signaling. Verification field.

In the embodiment of the present application, setting the HARQ process number field in the PDCCH to the verification field includes:

The HARQ process number field and other fields in the PDCCH are set as verification fields.

Specifically, the base station may set the HARQ process number field in the PDCCH to the verification field in the activation signaling or the deactivation signaling, and may also set the other fields as the verification field, and the base station sends the HARQ process number field in the PDCCH. And other fields, set to the validation field.

For example, the base station sets the HARQ process number field and the first DAI field to the verification field in the activation signaling, and sets the HARQ process number field, the padding field, and the antenna ports field to the verification field in the deactivation signaling.

In this embodiment of the present application, setting the Redundancy version field in the PDCCH to the verification field includes:

Set the Redundancy version field and other fields in the PDCCH as verification fields.

In this embodiment, the base station may set the Redundancy version field in the PDCCH to the verification field in the activation signaling or the deactivation signaling, and set the other fields as the verification field, and the base station will use the Redundancy in the PDCCH. The version field and other fields are set to the validation field.

For example, the base station sets the Redundancy version field, the MCS field, and the first DAI field to the verification field in the activation signaling, and sets the Redundancy version field, the TPC command field, the MCS field, the first DAI field, and the padding field to deactivation signaling. The validation field in .

Preferably, the base station sets all the fields mentioned above as an authentication field, that is, sets the HARQ process number field, the Redundancy version field, the TPC command field, the MCS field, the first DAI field, and the padding field in the PDCCH as an activation letter. The verification field in the command; setting the HARQ process number field, the Redundancy version field, the TPC command field, the MCS field, the first DAI field, the padding field, the frequency resource assignment field, the time resource assignment field, and the antenna ports field to deactivate signaling The validation field in .

Example 5:

Each of the fields has its occupied bits. On the basis of the foregoing embodiments, in the embodiment of the present application, all the bits or partial bits of the field are used as the verification bits for each field set as the verification field;

Wherein, when all bits of the field are used as verification bits, the field is set to all 0s or all 1s;

When a partial bit of the field is used as the verification bit, the first predetermined number of bits of the field are used as the verification bits.

In the embodiment of the present application, each field has its occupied bits. For example, the HARQ process number field occupies 4 bits, and the Redundancy version field occupies 2 bits. Which field occupies a number of bits, which is well known to those skilled in the art. This is not repeated here.

After the base station sets the field as the verification field, it is also possible to determine whether to use all or a part of the bits of the field as the verification bit for each field set as the verification field. If a partial bit of the field is used as the verification bit, the first few bits of the field may be used as the verification bit, or the last few bits of the field may be used as the verification bit. Preferably, the front preset of the field is used. The number of bits is used as the verification bit. If the field occupies 5 bits, the preset number can be one, then the highest bit, or two, three, and so on. The bits used in the activation signaling and deactivation signaling may be the same or different for the same field set as the authentication field.

For example, if the MCS field is used as the authentication field, the highest bit of the MCS field is used as the verification bit in the activation signaling, and in the deactivation signaling, all the bits of the MCS field are used as the verification bit.

If all bits of this field are used as verification bits, the field can be set to all 0s or all ones.

Example 6

In order to implement the verification function of the verification field, the base station may set a different value for the field as the verification field, for a field set as the verification field, activate the value of the field set in the signaling and in the deactivation signaling, The value set in this field can be the same or different. On the basis of the foregoing embodiments, in the embodiment of the present application, if the HARQ process number field is set as the verification field, when all the bits of the HARQ process number field are used as the verification bit, the HARQ process number field is set to All 0 or right 1.

Specifically, if the HARQ process number field is set to the verification field in the activation signaling, when all the bits of the HARQ process number field are used as the verification bit, the HARQ process number field may be set to all 0s or all 1s;

If the HARQ process number field is set to the verification field in the deactivation signaling, when all the bits of the HARQ process number field are used as the verification bit, the HARQ process number field may be set to all 0s or all 1s;

If the HARQ process number field is set to the authentication field in the activation signaling and deactivation signaling, when all the bits of the HARQ process number field are used as the verification bit, in the activation signaling and the deactivation signaling, The values set in the HARQ process number field may be the same or different.

For example, in the activation signaling and the deactivation signaling, the HARQ process number field may be set to all 0s, or in the activation signaling, the HARQ process number field may be set to all 0s, in the deactivation letter. In the order, the HARQ process number field is set to all ones.

In the embodiment of the present application, if the Redundancy version field is set as the verification field, when the entire bit of the Redundancy version field is used as the verification bit, the Redundancy version field is set to 00 or 11 or 01 or 10.

Specifically, if the Redundancy version field is set to the verification field in the activation signaling, when all the bits of the Redundancy version field are used as the verification bit, the Redundancy version field may be set to 00 or 11 or 01 or 10;

If the Redundancy version field is set to the authentication field in the deactivation signaling, when the entire bit of the Redundancy version field is used as the verification bit, the Redundancy version field may be set to 00 or 11 or 01 or 10;

If the Redundancy version field is set to the authentication field in the activation signaling and deactivation signaling, when all the bits of the Redundancy version field are used as the verification bits, the Redundancy version is activated in the signaling and deactivation signaling. The values set in the fields can be the same or different.

For example, in the activation signaling and the deactivation signaling, the redundancy version field may be set to 00, or in the activation signaling, the redundancy version field is set to 11, in the deactivation signaling, The Redundancy version field is set to 10.

In the embodiment of the present application, if the TPC command field is set as the verification field, when all the bits of the TPC command field are used as the verification bit, the TPC command field is set to 00 or 11 or 01 or 10.

Specifically, if the TPC command field is set to the verification field in the activation signaling, when all the bits of the TPC command field are used as the verification bit, the TPC command field may be set to 00 or 11 or 01 or 10;

If the TPC command field is set to the authentication field in the deactivation signaling, when all the bits of the TPC command field are used as the verification bit, the TPC command field may be set to 00 or 11 or 01 or 10;

If the TPC command field is set to the authentication field in the activation signaling and deactivation signaling, when all the bits of the TPC command field are used as the verification bit, the TPC command is used in the activation signaling and the deactivation signaling. The values set in the fields can be the same or different.

For example, in the activation signaling and the deactivation signaling, the TPC command field may be set to 11, or in the activation signaling, the TPC command field is set to 10, and in the deactivation signaling, the The TPC command field is set to 01.

In the embodiment of the present application, if the Padding field is set as the verification field, when all the bits of the Padding field are used as the verification bit, the Padding field is set to all 0s or all ones.

Specifically, if the Padding field is set to the verification field in the activation signaling, when all the bits of the Padding field are used as the verification bit, the Padding field may be set to all 0s or all 1s;

If the Padding field is set to the verification field in the deactivation signaling, when all the bits of the Padding field are used as the verification bit, the Padding field may be set to all 0s or all 1s;

If the Padding field is set to the authentication field in the activation signaling and deactivation signaling, when all the bits of the Padding field are used as the verification bit, the Padding field is set in the activation signaling and the deactivation signaling. The values can be the same or different.

For example, in the activation signaling and the deactivation signaling, the Padding field may be set to all 0s, or in the activation signaling, the Padding field may be set to all 0s. In the deactivation signaling, the The Padding field is set to all ones.

Preferably, the Padding field is set to all zeros.

In the embodiment of the present application, if the MCS field is set as the verification field, when all the bits of the MCS field are used as the verification bit, the MCS field is set to all 0s or all ones.

Specifically, if the MCS field is set to the verification field in the activation signaling, when all the bits of the MCS field are used as the verification bit, the MCS field may be set to all 0s or all 1s;

If the MCS field is set to the authentication field in the deactivation signaling, when all the bits of the MCS field are used as the verification bit, the MCS field may be set to all 0s or all 1s;

If the MCS field is set to the authentication field in the activation signaling and deactivation signaling, when all the bits of the MCS field are used as the verification bit, the MCS field is set in the activation signaling and the deactivation signaling. The values can be the same or different.

For example, in the activation signaling and the deactivation signaling, the MCS field may be set to all ones, or in the activation signaling, the MCS field is set to all ones, and in the deactivation signaling, the The MCS field is set to all 0s.

In the embodiment of the present application, if the first DAI field is set as the verification field, when all the bits of the first DAI field are used as the verification bit, the first DAI field is set to all 0s or all ones.

Specifically, if the first DAI field is set to the verification field in the activation signaling, when all the bits of the first DAI field are used as the verification bit, the first DAI field may be set to all 0s or all 1s;

If the first DAI field is set to the verification field in the deactivation signaling, when all the bits of the first DAI field are used as the verification bit, the first DAI field may be set to all 0s or all 1s;

If the first DAI field is set to the authentication field in the activation signaling and deactivation signaling, when all the bits of the first DAI field are used as the verification bit, in the activation signaling and the deactivation signaling, The values set in the first DAI field may be the same or different.

For example, in the activation signaling and the deactivation signaling, the first DAI field may be set to all ones, or in the activation signaling, the first DAI field may be set to all zeros, in the deactivation signal. In the order, the first DAI field is set to all ones.

In the embodiment of the present application, if the frequency resource assignment field is set as the verification field, when all the bits of the frequency resource assignment field are used as the verification bit, the frequency resource assignment field is set to all 0s or all ones.

Specifically, if the frequency resource assignment field is set to the verification field in the deactivation signaling, when all the bits of the frequency resource assignment field are used as the verification bit, the frequency resource assignment field may be set to all 0s or all ones.

In this embodiment of the present application, if the time resource assignment field is set to the verification field, when all the bits of the time resource assignment field are used as the verification bit, the time resource assignment field is set to all 0s or all ones.

Specifically, if the time resource assignment field is set to the verification field in the deactivation signaling, when all the bits of the time resource assignment field are used as the verification bit, the time resource assignment field may be set to all 0s or all ones.

In the embodiment of the present application, if the antenna ports field is set as the verification field, when all the bits of the antenna ports field are used as the verification bits, the antenna ports field is set to all 0s or all ones.

Specifically, if the antenna ports field is set to the verification field in the deactivation signaling, when the all bits of the antenna ports field are used as the verification bits, the antenna ports field may be set to all 0s or all ones.

Example 7

According to the above description, the setting manner of the verification field in the activation signaling is specifically described in Table 3 to implement the method of uplink and downlink activation in the semi-persistent scheduling and the second type uplink scheduling-free scheduling.

table 3

As shown in the second column of Table 3, in the uplink data transmission, the activation signaling adopts the DCI format 0_0 or 0_1 of the PDCCH, sets the TPC command field to 00, sets the HARQ process number field to 0000, and sets the highest MCS. The bit (MSB) is set to 0, the Redundancy version field is set to 00, and other fields are not restricted. The highest bit of the MCS field in Table 3 and the antenna ports field are added with [], indicating optional.

As shown in the third column of Table 3, in the downlink data transmission, the activation signaling adopts the DCI format 1_0 of the PDCCH, the HARQ process number is set to 0000, the redundancy version is set to 00, and the highest bit of the MCS is set to 0, other fields are not restricted. The highest bit of the MCS field in Table 3 is added with [], indicating optional.

As shown in the fourth column in Table 3, in the downlink data transmission, the activation signaling adopts the DCI format 1_1 of the PDCCH, the HARQ process number is set to 0000, and the highest bit of the Redundancy version field corresponding to the valid transport block is set. If it is 00, the highest bit of the MCS field corresponding to the valid transport block is set to 0, and other fields are not limited. The highest bit of the MCS field in Table 3 is added with [], indicating optional.

Example 8

According to the above description, the setting manner of the verification field in the deactivation signaling is specifically described in Table 4 to implement the method of uplink and downlink deactivation in the semi-persistent scheduling and the second type uplink scheduling-free scheduling.

Table 4

As shown in the second column of Table 4, in the uplink transmission, the deactivation signaling adopts the DCI format 0_0 of the PDCCH, the TPC command field is set to 00, the antenna ports field is set to all 0, and the HARQ process number field is set. To 0000, set the MCS field to 11111, set the Redundancy version field to 00, set the frequency resource assignment field to all 1, set the time resource assignment field to all 0s, and leave no restrictions on other fields. The antenna ports field in Table 4 and the highest bit of the MCS are added with [], indicating optional.

As shown in the third column in Table 4, in the downlink transmission, the deactivation signaling adopts the DCI format 1_0 of the PDCCH, the HARQ process number is set to 0000, the MCS field is set to 11111, and the Redundancy version field is set to 00. Set the frequency resource assignment field to all 1, set the time resource assignment field to all 0s, and leave the other fields unrestricted. The highest bit of the MCS in Table 4 is added with [], indicating optional.

In the embodiment of the present application, when setting the verification field in the activation signaling, all the fields or partial fields in the HARQ process number field, the Redundancy version field, the TPC command field, and the MCS field may be set as the verification field, if The MCS field is set to the verification field, and the highest bit of the MCS field is used as the verification bit; and when the verification field in the deactivation signaling is set, the HARQ process number field, the Redundancy version field, the TPC command field, the MCS field, the frequency resource are used. All the fields or partial fields in the assignment field and the time resource assignment field are set as the verification field. If the MCS field is set as the verification field, all the bits of the MCS field are used as the verification bits; and the activation signaling and the deactivation signaling are set. When the authentication field is in the field, the fields set to the authentication field in the activation signaling and deactivation signaling have only two differences.

Of course, all of them may be the same, all different, or partially identical, and partially different.

Wherein, the field different in the activation signaling and the deactivation signaling includes: in the activation signaling and the deactivation signaling, the names of the fields are different; and/or,

In the activation signaling and deactivation signaling, the bits occupied by the fields of the same name are used as the number of verification bits and/or the bits used as the verification bits are different in the field; and/or,

In the activation signaling and deactivation signaling, the fields of the same name are on the same bit, and the values set are different.

The name of the field is MCS, HARQ process number, and so on.

For example, if in the activation signaling, the highest bit in the MCS field is used as the verification bit, in the deactivation signaling, all bits of the MCS field are used as the verification bit, which can be considered in the activation signaling. The field set as the authentication field is a different field from the field set as the authentication field in the deactivation signaling, ie the MCS field is treated as a different field in the activation signaling and the deactivation signaling.

If a field is set to the authentication field in the activation signaling, the deactivation signaling also sets the field as the authentication field, but this field is different in the activation signaling and the value set on the same bit in the deactivation signaling. If it is set to all 1s and all 0s, respectively, it is considered that the field set as the verification field in the activation signaling is a field different from the field set as the verification field in the deactivation signaling, that is, the field is activated. Signaling and deactivation signaling are treated as different fields.

Example 9

FIG. 2 is a schematic diagram of a transmission process of activation signaling and deactivation signaling according to an embodiment of the present application, where the process includes the following steps:

S201: The user equipment receives the activation signaling or the deactivation signaling of the data transmission carried in the physical downlink control channel PDCCH sent by the base station, where the base station performs the HARQ in the PDCCH in the activation signaling or the deactivation signaling. The process number field and/or the Redundancy version field are set to the verification field.

S202: Control transmission of data according to the received activation signaling or deactivation signaling of the data transmission.

The method for transmitting activation signaling and deactivation signaling provided by the embodiment of the present application is applied to a user equipment.

Data transmission includes uplink data transmission and downlink data transmission.

The user equipment may receive activation signaling or deactivation signaling of the uplink data transmission sent by the base station, and the activation signaling or deactivation signaling of the uplink data transmission is carried in the PDCCH. The base station sets the HARQ process number field and/or the Redundancy version field in the PDCCH as a verification field in the activation signaling or the deactivation signaling.

The user equipment receives the activation signaling or the deactivation signaling of the uplink data transmission, and controls the transmission of the uplink data, which may be the transmission or reception of the uplink data when the activation signaling of the uplink data transmission received by the user equipment is received. When the deactivated signaling of the received uplink data transmission is received, the transmission or reception of the uplink data may be stopped.

In the activation signaling of the uplink data transmission, the HARQ process number field and/or the Redundancy version field in the format format 0_0 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the uplink data transmission, the PDCCH is The HARQ process number field and/or the Redundancy version field in format 0_0 or format 0_1 is set to the verification field; or,

In the activation signaling of the uplink data transmission, the HARQ process number field and/or the Redundancy version field in the format 0_1 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the uplink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 0_0 or format 0_1 are set as the verification field.

Example 10:

In order to achieve a more complete data transmission, on the basis of the foregoing embodiments, in the embodiment of the present application, the method further includes:

Receiving, by the base station, activation signaling or deactivation signaling of a downlink data transmission carried in the PDCCH;

Controlling transmission of downlink data according to the received activation signaling or deactivation signaling of the downlink data transmission;

In the activation signaling of the downlink data transmission, the base station sets the HARQ process number field and/or the Redundancy version field in the format 1_0 of the PDCCH as a verification field, and correspondingly, in the deactivation signaling of the downlink data transmission, the base station Setting a HARQ process number field and/or a Redundancy version field in format 1_0 or format 1_1 of the PDCCH as a verification field; or,

In the activation signaling of the downlink data transmission, the base station sets the HARQ process number field and/or the Redundancy version field in the format 1_1 of the PDCCH as a verification field, and correspondingly, in the deactivation signaling of the downlink data transmission, the base station performs the PDCCH. The HARQ process number field and/or the Redundancy version field in the format 1_0 or format 1_1 are set as the authentication field.

In this embodiment, the user equipment may receive activation signaling or deactivation signaling of the downlink data transmission sent by the base station, and the activation signaling or deactivation signaling of the downlink data transmission is carried in the PDCCH. The base station sets the HARQ process number field and/or the Redundancy version field in the PDCCH as a verification field in the activation signaling or the deactivation signaling.

The user equipment receives the activation signaling or the deactivation signaling of the downlink data transmission, and controls the transmission of the downlink data. When the user equipment receives the activation signaling of the downlink data transmission, the user equipment may start to send the downlink data or Receiving, when the deactivated signaling of the received downlink data transmission is received, the transmission or reception of the downlink data may be stopped.

Specifically, in the activation signaling of the downlink data transmission, the HARQ process number field and/or the Redundancy version field in the format 1_0 of the PDCCH may be set as a verification field, and correspondingly, in the deactivation signaling of the downlink data transmission, The HARQ process number field and/or the Redundancy version field in format 1_0 or format 1_1 of the PDCCH may be set as a verification field; or,

In the activation signaling of the downlink data transmission, the HARQ process number field and/or the Redundancy version field in the format 1_1 of the PDCCH may be set as the verification field, and correspondingly, in the deactivation signaling of the downlink data transmission, the format of the PDCCH The HARQ process number field and/or the Redundancy version field in 1_0 or format 1_1 may be set as the verification field.

Example 11

Based on the foregoing embodiments, in the semi-persistent scheduling and/or the second type uplink scheduling-free scheduling, the process of activating signaling and de-activation is as follows:

S301: The semi-static configuration of the semi-persistent scheduling and/or the second-type uplink-free scheduling transmission of the user equipment by the base station after the base station establishes the connection with the user equipment, and the configuration information includes: a resource configuration period.

S302: The base station generates first part information of the activation signaling, including frequency domain resource allocation, time domain resource allocation, MCS, and the like.

S303: The base station generates second part information of the activation signaling, that is, a verification field. Specifically, the HARQ process number field and/or the Redundancy version field in the PDCCH are set as the verification field, and other fields can also be set as the verification field.

S304: The PDCCH is scrambled by using the SPS C-RNTI, and the NDI field is set to 0.

S305: The base station sends the generated activation signaling to the user equipment in the PDCCH, and is used to activate the transmission of the semi-persistent scheduling and/or the second type of uplink scheduling.

S306: The user equipment receives the PDCCH carrying the activation signaling, and the CRC check bit is descrambled by using the SPS C-RNTI to check whether the NDI field is set to 0. After the foregoing conditions are met, the user equipment further performs the information according to the activation signaling. Verify the validation fields in it.

S307: After the user equipment verifies that the activation signaling is passed, obtaining signaling of a semi-persistent scheduling and/or a second type of uplink scheduling-free transmission.

S308: After being activated, the base station and the user equipment may periodically use the configured time-frequency resource to transmit data according to the resource allocation and transmission manner in the activation signaling. In the uplink transmission, the user equipment is in the specified half. The static scheduling resource sends data periodically, and the base station periodically receives data on the specified semi-persistent scheduling resource. During downlink transmission, the base station periodically sends data on the specified semi-persistent scheduling resource, and the user equipment is on the specified semi-persistent scheduling resource. Receive data in a cycle.

S309: After the second type of unscheduled uplink transmission is completed, the base station sends deactivation signaling, and after the user equipment correctly detects and obtains the deactivation signaling, the semi-persistent scheduling and/or the second type of uplink scheduling is terminated.

For the user equipment, after receiving the signaling, the user equipment performs PDCCH demodulation and decoding. If it is determined to be activated signaling, the data is periodically sent according to the resource allocation and transmission mode in the activation signaling. Or receiving; if it is determined to deactivate the signaling, the periodic transmission or reception of data is stopped.

Example 12

FIG. 3 is a structural diagram of a transmission device for activating signaling and deactivating signaling according to an embodiment of the present disclosure, where the device includes:

The generating module 31 is configured to generate activation signaling or deactivation signaling of the data transmission, where the number of hybrid automatic retransmission request processes in the physical downlink control channel PDCCH is HARQ in the activation signaling or deactivation signaling The process number field and/or the redundancy version Redundancy version field is set to the verification field;

The sending module 32 is configured to send the generated activation signaling or deactivation signaling of the data transmission to the PDCCH in the PDCCH.

Further, the generating module 31 is specifically configured to: in the activation signaling of the uplink data transmission, set the HARQ process number field and/or the Redundancy version field in the format 0_0 of the PDCCH to a verification field, corresponding to the uplink data. In the deactivation signaling of the transmission, the HARQ process number field and/or the Redundancy version field in the format 0_0 or format 0_1 of the PDCCH are set as the verification field; or, in the activation signaling of the uplink data transmission, the format 0_1 of the PDCCH is used. The HARQ process number field and/or the Redundancy version field are set as the verification field, and correspondingly, in the deactivation signaling of the uplink data transmission, the HARQ process number field and/or the Redundancy version field in the format0_0 or format 0_1 of the PDCCH is used. Set to verify the field.

Further, the generating module 31 is specifically configured to: in the activation signaling of the downlink data transmission, set the HARQ process number field and/or the Redundancy version field in the format 1_0 of the PDCCH to a verification field, corresponding to the downlink data. In the deactivation signaling of the transmission, the HARQ process number field and/or the Redundancy version field in the format 1_0 or format 1_1 of the PDCCH are set as the verification field; or, in the activation signaling of the downlink data transmission, the format 1_1 of the PDCCH is used. The HARQ process number field and/or the Redundancy version field are set to the verification field, and correspondingly, in the deactivation signaling of the downlink data transmission, the HARQ process number field and/or the Redundancy version field in the format1_0 or format 1_1 of the PDCCH is used. Set to the verification field;

Further, the generating module 31 is specifically configured to set a HARQ process number field, a redundancy version field, and other fields in the PDCCH as a verification field; or

Setting the HARQ process number field and other fields in the PDCCH as verification fields; or,

Set the Redundancy version field and other fields in the PDCCH as verification fields.

Further, the generating module 31 is specifically configured to use all bits or partial bits of the field as the verification bit for each field set as the verification field;

Wherein, when all bits of the field are used as verification bits, the field is set to all 0s or all 1s;

When a partial bit of the field is used as the verification bit, the first predetermined number of bits of the field are used as the verification bits.

Example 13

FIG. 4 is a structural diagram of a transmission device for activating signaling and deactivating signaling according to an embodiment of the present disclosure, where the device includes:

The receiving module 41 is configured to receive, by the base station, activation signaling or deactivation signaling of a data transmission carried in a physical downlink control channel PDCCH, where the base station performs PDCCH in the activation signaling or deactivation signaling. The HARQ process number field and/or the Redundancy version field are set to the verification field;

The control module 42 is configured to control transmission of data according to the received activation signaling or deactivation signaling of the data transmission.

Example 14

Figure 5 is a base station according to an embodiment of the present application, where the base station includes: a memory 52, a processor 51, and a transceiver 53;

In FIG. 5, the bus architecture can include any number of interconnected buses and bridges, with one or more processors represented by processor 51 and various circuits of memory represented by memory 52 being linked together. The bus architecture can also link various other circuits such as peripherals, voltage regulators, and power management circuits, which are well known in the art and, therefore, will not be further described herein. The bus interface provides an interface. Transceiver 53 can be a plurality of components, including a transmitter and a transceiver, providing means for communicating with various other devices on a transmission medium. The processor 51 is responsible for managing the bus architecture and the usual processing, and the memory 52 can store data used by the processor 51 when performing operations.

The processor is configured to read a program in the memory, and perform the following process: generating activation signaling or deactivation signaling of a data transmission, where, in the activation signaling or deactivation signaling, the physical The HARQ process number field and/or the Redundancy version field in the downlink control channel PDCCH is set as a verification field;

The transceiver is configured to send the generated activation signaling or deactivation signaling of the data transmission in the PDCCH to the user equipment under the control of the processor.

The processor is specifically configured to: in the activation signaling of the uplink data transmission, set the HARQ process number field and/or the Redundancy version field in the format 0_0 of the PDCCH to a verification field, and correspondingly, deactivate the uplink data transmission. In the signaling, the HARQ process number field and/or the Redundancy version field in the format 0_0 or format 0_1 of the PDCCH are set as the verification field; or

In the activation signaling of the uplink data transmission, the HARQ process number field and/or the Redundancy version field in the format 0_1 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the uplink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 0_0 or format 0_1 are set as the verification field.

Further, the processor is specifically configured to: in the activation signaling of the downlink data transmission, set the HARQ process number field and/or the Redundancy version field in the format1_0 of the PDCCH to a verification field, corresponding to the downlink data transmission. In the deactivation signaling, the HARQ process number field and/or the Redundancy version field in the format 1_0 or format 1_1 of the PDCCH are set as the verification field; or

In the activation signaling of the downlink data transmission, the HARQ process number field and/or the Redundancy version field in the format 1_1 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the downlink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 1_0 or format 1_1 are set as the verification field.

Further, the processor is specifically configured to set a HARQ process number field, a Redundancy version field, and other fields in the PDCCH as an authentication field; or set a HARQ process number field and other fields in the PDCCH as a verification field. Or, set the Redundancy version field and other fields in the PDCCH as verification fields.

further,

In the activation signaling, the other field includes at least one of the following: a TPC command field, an MCS field, a first DAI field, and a padding field;

In the deactivation signaling, the other fields include at least one of the following: a TPC command field, an MCS field, a first DAI field, a padding field, a frequency resource assignment field, a time resource assignment field, and an antenna ports field.

Further, the processor is specifically configured to use all bits or partial bits of the field as verification bits for each field set as an authentication field; wherein when all bits of the field are used as verification bits, This field is set to all 0s or all 1s; when a partial bit of the field is used as the verification bit, the first predetermined number of bits of the field are used as the verification bits.

Example 15

Figure 6 is a user equipment according to an embodiment of the present application, where the user equipment includes: a memory 62, a processor 61, and a transceiver 63;

In FIG. 6, the bus architecture may include any number of interconnected buses and bridges, with one or more processors represented by processor 61 and various circuits of memory represented by memory 62 being linked together. The bus architecture can also link various other circuits such as peripherals, voltage regulators, and power management circuits, which are well known in the art and, therefore, will not be further described herein. The bus interface provides an interface. Transceiver 63 can be a plurality of components, including a transmitter and a transceiver, providing means for communicating with various other devices on a transmission medium. The processor 61 is responsible for managing the bus architecture and general processing, and the memory 62 can store data used by the processor 61 in performing operations. For different user equipments, the user interface 64 may also be an interface capable of externally connecting the required devices, including but not limited to a keypad, a display, a speaker, a microphone, a joystick, and the like.

The transceiver is configured to receive, according to the control of the processor, activation signaling or deactivation signaling of a data transmission carried by a base station in a physical downlink control channel PDCCH, where the base station is in the activation signaling Or deactivation signaling, setting a HARQ process number field and/or a Redundancy version field in the PDCCH as a verification field;

The processor is configured to read a program in the memory, and perform the following process: controlling transmission of data according to the received activation signaling or deactivation signaling of the data transmission.

Example 16:

FIG. 7 is a structural diagram of a signaling transmission system according to an embodiment of the present disclosure. The system includes the base station 71 according to any one of the preceding claims, and the user equipment 72 described in any one of the above.

Example 17

The embodiment of the present application provides a computer readable storage medium storing a computer program executable by a base station, when the program is run on the base station, causing the base station to perform the following steps:

The base station generates activation signaling or deactivation signaling of the data transmission, where the HARQ process number field and/or the Redundancy version field in the physical downlink control channel PDCCH is set to be verified in the activation signaling or deactivation signaling. Field

The generated activation signaling or deactivation signaling of the data transmission is sent to the user equipment in the PDCCH.

Further, in the activation signaling or deactivation signaling, setting the HARQ process number field and/or the Redundancy version field in the physical downlink control channel PDCCH to the verification field includes:

In the activation signaling of the uplink data transmission, the HARQ process number field and/or the Redundancy version field in the format 0_0 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the uplink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 0_0 or format 0_1 are set to the verification field; or,

In the activation signaling of the uplink data transmission, the HARQ process number field and/or the Redundancy version field in the format 0_1 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the uplink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 0_0 or format 0_1 are set as the verification field.

Further, in the activation signaling or deactivation signaling, setting the HARQ process number field and/or the Redundancy version field in the physical downlink control channel PDCCH to the verification field includes:

In the activation signaling of the downlink data transmission, the HARQ process number field and/or the Redundancy version field in the format 1_0 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the downlink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 1_0 or format 1_1 are set as the verification field; or,

In the activation signaling of the downlink data transmission, the HARQ process number field and/or the Redundancy version field in the format 1_1 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the downlink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 1_0 or format 1_1 are set as the verification field.

Further, setting a HARQ process number field, a Redundancy version field, and other fields in the PDCCH as a verification field; or

Setting the HARQ process number field and other fields in the PDCCH as verification fields; or,

Set the Redundancy version field and other fields in the PDCCH as verification fields.

Further, in the activation signaling, the other field includes at least one of the following: a TPC command field, an MCS field, a first DAI field, and a padding field;

In the deactivation signaling, the other fields include at least one of the following: a TPC command field, an MCS field, a first DAI field, a padding field, a frequency resource assignment field, a time resource assignment field, and an antenna ports field.

Further, for each field set as the verification field, all bits or partial bits of the field are used as verification bits;

Wherein, when all bits of the field are used as verification bits, the field is set to all 0s or all 1s;

When a partial bit of the field is used as the verification bit, the first predetermined number of bits of the field are used as the verification bits.

Example 18

The embodiment of the present application provides a computer readable storage medium storing a computer program executable by a user equipment, and when the program runs on the user equipment, causing the user equipment to perform the following steps:

Receiving, by the base station, activation signaling or deactivation signaling of a data transmission carried in the physical downlink control channel PDCCH, where the base station, in the activation signaling or deactivation signaling, the HARQ process number field in the PDCCH and / or the Redundancy version field is set to the verification field;

Controlling the transmission of data based on the received activation signaling or deactivation signaling of the data transmission.

The embodiment of the present application discloses a signaling transmission method, device, base station, user equipment, system, and storage medium, where the method includes: the base station generates activation signaling or deactivation signaling of data transmission, where the activation In the signaling or deactivation signaling, the HARQ process number field and/or the Redundancy version field in the physical downlink control channel PDCCH are set as an authentication field; and the generated activation signaling or deactivation signaling bearer of the data transmission is generated. The PDCCH is sent to the user equipment. In the embodiment of the present application, the base station sets the HARQ process number field and/or the Redundancy version field in the PDCCH as the verification field in the activation signaling or deactivation signaling of the data transmission, implements the verification function, and generates the generated function. The activation signaling or deactivation signaling bearer of the data transmission is sent to the user equipment in the PDCCH, and the verification field in the activation signaling and deactivation signaling between the base station and the user equipment in the 5G NR system is accurately implemented. transmission.

For the system/device embodiment, since it is basically similar to the method embodiment, the description is relatively simple, and the relevant parts can be referred to the description of the method embodiment.

It should be noted that, in this context, relational terms such as first and second, etc. are only used to distinguish one entity or one operation from another or another operation, and do not necessarily require or imply these entities. Or there is any such actual relationship or order between operations.

Those skilled in the art will appreciate that embodiments of the present application can be provided as a method, system, or computer program product. Thus, the present application can take the form of an entirely hardware embodiment, an entirely software embodiment, or an embodiment in combination of software and hardware. Moreover, the application can take the form of a computer program product embodied on one or more computer-usable storage media (including but not limited to disk storage, CD-ROM, optical storage, etc.) including computer usable program code.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (system), and computer program products according to embodiments of the present application. It will be understood that each flow and/or block of the flowchart illustrations and/or FIG. These computer program instructions can be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing device to produce a machine for the execution of instructions for execution by a processor of a computer or other programmable data processing device. Means for implementing the functions specified in one or more of the flow or in a block or blocks of the flow chart.

The computer program instructions can also be stored in a computer readable memory that can direct a computer or other programmable data processing device to operate in a particular manner, such that the instructions stored in the computer readable memory produce an article of manufacture comprising the instruction device. The apparatus implements the functions specified in one or more blocks of a flow or a flow and/or block diagram of the flowchart.

These computer program instructions can also be loaded onto a computer or other programmable data processing device such that a series of operational steps are performed on a computer or other programmable device to produce computer-implemented processing for execution on a computer or other programmable device. The instructions provide steps for implementing the functions specified in one or more of the flow or in a block or blocks of a flow diagram.

While the preferred embodiment of the present application has been described, it will be apparent that those skilled in the art can make further changes and modifications to the embodiments. Therefore, the appended claims are intended to be interpreted as including the preferred embodiments and the modifications and

It is apparent that those skilled in the art can make various changes and modifications to the embodiments of the present application without departing from the spirit and scope of the embodiments of the present application. Thus, it is intended that the present invention cover the modifications and variations of the embodiments of the present invention.

Claims (19)

A signaling transmission method, the method comprising: The base station generates activation signaling or deactivation signaling of the data transmission, where the hybrid automatic retransmission request process number in the physical downlink control channel PDCCH, the HARQ process number field, and/or in the activation signaling or deactivation signaling Or the redundancy version Redundancy version field is set to the verification field; The generated activation signaling or deactivation signaling of the data transmission is sent to the user equipment in the PDCCH. The method according to claim 1, wherein in the activation signaling or deactivation signaling, the number of hybrid automatic repeat request processes in the physical downlink control channel PDCCH is HARQ process number field and/or The redundancy version of the Redundancy version field is set to the verification field including: In the activation signaling of the uplink data transmission, the HARQ process number field and/or the Redundancy version field in the format format 0_0 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the uplink data transmission, the PDCCH is The HARQ process number field and/or the Redundancy version field in format 0_0 or format 0_1 is set to the verification field; or, In the activation signaling of the uplink data transmission, the HARQ process number field and/or the Redundancy version field in the format 0_1 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the uplink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 0_0 or format 0_1 are set as the verification field. The method according to claim 1, wherein in the activation signaling or deactivation signaling, the number of hybrid automatic repeat request processes in the physical downlink control channel PDCCH is HARQ process number field and/or The redundancy version of the Redundancy version field is set to the verification field including: In the activation signaling of the downlink data transmission, the HARQ process number field and/or the Redundancy version field in the format 1_0 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the downlink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 1_0 or format 1_1 are set as the verification field; or, In the activation signaling of the downlink data transmission, the HARQ process number field and/or the Redundancy version field in the format 1_1 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the downlink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 1_0 or format 1_1 are set as the verification field. The method according to any one of claims 1-3, wherein setting the HARQ process number field and/or the Redundancy version field in the PDCCH to the verification field comprises: Setting the HARQ process number field, the Redundancy version field, and other fields in the PDCCH as verification fields; or Setting the HARQ process number field and other fields in the PDCCH as verification fields; or, Set the Redundancy version field and other fields in the PDCCH as verification fields. The method of claim 4 wherein: In the activation signaling, the other field includes at least one of the following: a transmit power control command TPC command field, a modulation and coding policy MCS field, a first downlink allocation index DAI field, and a padding field; In the deactivation signaling, the other field includes at least one of the following: a TPC command field, an MCS field, a first DAI field, a padding field, a frequency domain resource allocation frequency resource assignment field, a time domain resource allocation time resource assignment field, Antenna interface impedance antenna ports field. The method of claim 5, wherein all bits or partial bits of the field are used as verification bits for each field set as an authentication field; Wherein, when all bits of the field are used as verification bits, the field is set to all 0s or all 1s; When a partial bit of the field is used as the verification bit, the first predetermined number of bits of the field are used as the verification bits. The method according to claim 6, wherein when the verification field in the activation signaling and the deactivation signaling is set, the fields in the activation signaling and the deactivation signaling which are set as the verification fields are and only The two fields are different; Wherein, the field different in the activation signaling and the deactivation signaling includes: in the activation signaling and the deactivation signaling, the names of the fields are different; and/or, In the activation signaling and deactivation signaling, the bits occupied by the fields of the same name are used as the number of verification bits and/or the bits used as the verification bits are different in the field; and/or, In the activation signaling and deactivation signaling, the fields of the same name are on the same bit, and the values set are different. A signaling transmission method, the method comprising: The user equipment receives the activation signaling or the deactivation signaling of the data transmission carried in the physical downlink control channel PDCCH sent by the base station, where the base station automatically adds the hybrid in the PDCCH in the activation signaling or the deactivation signaling. The number of request process HARQ process number fields and/or the redundancy version Redundancy version field is set to a verification field; Controlling the transmission of data based on the received activation signaling or deactivation signaling of the data transmission. A signaling transmission device, characterized in that the device comprises: And a generating module, configured to generate activation signaling or deactivation signaling of the data transmission, where, in the activation signaling or deactivation signaling, the number of hybrid automatic retransmission request processes in the physical downlink control channel PDCCH is HARQ process The number field and/or the redundancy version Redundancy version field is set to the verification field; And a sending module, configured to send the generated activation signaling or deactivation signaling of the data transmission to the user equipment in the PDCCH. A signaling transmission device, characterized in that the device comprises: a receiving module, configured to receive, by the base station, activation signaling or deactivation signaling of a data transmission carried in a physical downlink control channel PDCCH, where the base station performs the PDCCH in the activation signaling or the deactivation signaling The hybrid automatic repeat request process number HARQ process number field and/or the redundancy version Redundancy version field is set as a verification field; And a control module, configured to control transmission of the data according to the received activation signaling or deactivation signaling of the data transmission. A base station, comprising: a memory, a processor, and a transceiver; The processor is configured to read a program in the memory, and perform the following process: generating activation signaling or deactivation signaling of a data transmission, where, in the activation signaling or deactivation signaling, the physical The hybrid automatic repeat request process number HARQ process number field and/or the redundancy version Redundancy version field in the downlink control channel PDCCH is set as a verification field; The transceiver is configured to send the generated activation signaling or deactivation signaling of the data transmission in the PDCCH to the user equipment under the control of the processor. The base station according to claim 11, wherein the processor is configured to set a HARQ process number field and/or a Redundancy version field in a format format 0_0 of the PDCCH in the activation signaling of the uplink data transmission. For the verification field, correspondingly, in the deactivation signaling of the uplink data transmission, the HARQ process number field and/or the Redundancy version field in the format 0_0 or format 0_1 of the PDCCH are set as the verification field; or In the activation signaling of the uplink data transmission, the HARQ process number field and/or the Redundancy version field in the format 0_1 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the uplink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 0_0 or format 0_1 are set as the verification field. The base station according to claim 11, wherein the processor is specifically configured to: in the activation signaling of the downlink data transmission, set the HARQ process number field and/or the Redundancy version field in the format 1_0 of the PDCCH to a verification field, correspondingly, in the deactivation signaling of the downlink data transmission, setting a HARQ process number field and/or a Redundancy version field in format1_0 or format 1_1 of the PDCCH as a verification field; or In the activation signaling of the downlink data transmission, the HARQ process number field and/or the Redundancy version field in the format 1_1 of the PDCCH are set as the verification field, and correspondingly, in the deactivation signaling of the downlink data transmission, the format of the PDCCH is used. The HARQ process number field and/or the Redundancy version field in 1_0 or format 1_1 are set as the verification field. The base station according to any one of claims 11 to 13, wherein the processor is specifically configured to set a HARQ process number field, a redundancy version field, and other fields in the PDCCH as a verification field; or, The HARQ process number field and other fields in the PDCCH are set as the verification field; or, the Redundancy version field and other fields in the PDCCH are set as the verification field. The base station according to claim 14, wherein In the activation signaling, the other field includes at least one of the following: a transmit power control command TPC command field, a modulation and coding policy MCS field, a first downlink allocation index DAI field, and a padding field; In the deactivation signaling, the other field includes at least one of the following: a TPC command field, an MCS field, a first DAI field, a padding field, a frequency domain resource allocation frequency resource assignment field, a time domain resource allocation time resource assignment field, Antenna interface impedance antenna ports field. The base station according to claim 15, wherein the processor is configured to use all bits or partial bits of the field as verification bits for each field set as an authentication field; When all bits of the field are used as verification bits, the field is set to all 0s or all 1s; when a partial bit of the field is used as the verification bit, the first predetermined number of bits of the field are used as verification bits. A user equipment, characterized in that the device comprises: a memory, a processor and a transceiver; The transceiver is configured to receive, according to the control of the processor, activation signaling or deactivation signaling of a data transmission carried by a base station in a physical downlink control channel PDCCH, where the base station is in the activation signaling Or de-activation signaling, setting a hybrid automatic repeat request process number HARQ process number field and/or a redundancy version Redundancy version field in the PDCCH as a verification field; The processor is configured to read a program in the memory, and perform the following process: controlling transmission of data according to the received activation signaling or deactivation signaling of the data transmission. A computer readable storage medium storing a computer program executable by a base station, the program causing the base station to perform the method of any one of claims 1 to 7 when the program is run on the base station A step of. A computer readable storage medium storing a computer program executable by a user device, the program causing the user device to perform the steps of the method of claim 8 when the program is run on the user device .

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