CN109391405A - Restoration methods, device, terminal and the network equipment of wave beam failure - Google Patents

Restoration methods, device, terminal and the network equipment of wave beam failure Download PDF

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Publication number
CN109391405A
CN109391405A CN201710682088.3A CN201710682088A CN109391405A CN 109391405 A CN109391405 A CN 109391405A CN 201710682088 A CN201710682088 A CN 201710682088A CN 109391405 A CN109391405 A CN 109391405A
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CN
China
Prior art keywords
wave beam
resource set
downlink
control channel
control resource
Prior art date
Application number
CN201710682088.3A
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Chinese (zh)
Inventor
黄秋萍
陈润华
高秋彬
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电信科学技术研究院
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Priority to CN201710682088.3A priority Critical patent/CN109391405A/en
Publication of CN109391405A publication Critical patent/CN109391405A/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • H04L5/003Arrangements for allocating sub-channels of the transmission path
    • H04L5/0048Allocation of pilot signals, i.e. of signals known to the receiver
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L5/00Arrangements affording multiple use of the transmission path
    • H04L5/003Arrangements for allocating sub-channels of the transmission path
    • H04L5/0053Allocation of signaling, i.e. of overhead other than pilot signals
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management, e.g. wireless traffic scheduling or selection or allocation of wireless resources
    • H04W72/12Dynamic Wireless traffic scheduling ; Dynamically scheduled allocation on shared channel
    • H04W72/14Dynamic Wireless traffic scheduling ; Dynamically scheduled allocation on shared channel using a grant or specific channel

Abstract

The present invention provides restoration methods, device, terminal and the network equipment of a kind of wave beam failure, this method comprises: wave beam failure occurs for M effectively wave beams if detecting, sends the request of wave beam failure recovery to network;The corresponding downlink reference signal of Physical Downlink Control Channel and at least one to be switched downlink wave beam in configuration the second control resource set is space QCL;The monitoring of Physical Downlink Control Channel is carried out using downlink reception wave beam corresponding with downlink reference signal in the second control resource set;Network side is the corresponding second control resource set of Physical Downlink Control Channel that terminal is configured to wave beam recovery in the embodiment of the present invention, to realize the resource management of the Physical Downlink Control Channel under wave beam failure and recovery event;It further enables the terminal to more accurately obtain downlink reception wave beam corresponding with Physical Downlink Control Channel by the setting of space QCL, to more accurately monitor Physical Downlink Control Channel.

Description

Restoration methods, device, terminal and the network equipment of wave beam failure

Technical field

The present invention relates to fields of communication technology, particularly relate to restoration methods, device, terminal and the network of a kind of wave beam failure Equipment.

Background technique

In view of MIMO (Multiple-Input Multiple-Output, multiple-input, multiple-output) technology for improving peak rate With the important function of system spectrum utilization rate, LTE (Long Term Evolution)/LTE-A (LTE-Advanced) etc. is wireless Access technology standard is all with MIMO+OFDM (Orthogonal Frequency Division Multiplexing, orthogonal frequency Point multiplexing) construct based on technology.The performance gain of MIMO technology can be obtained space from multiaerial system Freedom degree, therefore a most important evolution tendency of MIMO technology during Standardization Development is the extension of dimension.

In the NR that eats dishes without rice or wine, the downlink control resource for being used for transmission down link control information is referred to as CORESET (control money Source collection).Each CORESET includes multiple candidate PDCCH (Physical Downlink Control Channel, physical down Control channel), each candidate PDCCH includes the specific time/frequency resource that can send a DCI on it.UE One or more CORESETS can be configured, UE should monitor PDCCH on it.Different CORESET can be used identical or not Same multi-beam transmission.In a CORESET, different candidate PDCCH also can be used identical or different wave beam and send.

Consider that a Radio Link, base station BS have M Tx wave beam (launching beam), there is terminal UE N number of Rx wave beam (to connect Receive wave beam), then a total of M*N Tx-Rx wave beam pair.Due in order to realize that enough coverings is promoted, the Tx/ in millimeter wave frequency band The quantity of Rx wave beam is usually very big, therefore effective wave beam measures and reports process for ensuring the low system operatio in 5G NR Expense and UE complexity are important.

The UE that beam quality for having generated M*N wave beam pair measures, needs to report a wave beam to subset Beam quality and/or beam index, in subsequent downlink transmission, base station can be selected from the wave beam reported received It selects one and is transmitted (for example, UE report best one).Base station also needs to indicate its selected transmission wave beam to UE Index.After receiving the instruction by the base station selected launching beam for downlink transmission, UE can be deposited from it The optimum reception wave beam for corresponding to the instruction is searched in reservoir.In conclusion the downlink wave beam instruction of a transmitting signal It needs to be sent to receiver and determines reception wave beam for it.

UE needs to know the downlink wave beam of DCI to determine suitably to receive wave beam.This can pass through space QCL (Quasi Collocation, quasi- co-located) signaling is completed.Space QCL's is defined as: if the emission filter of a signal (launching beam) is assumed identical as the emission filter of another signal, then claims the two signal spaces QCL.Cause This, UE can be used reception space filter (receiving wave beam) identical with the first signal and go to receive second signal.

For downlink control channel, CORESET/PDCCH can be indicated as and specific DL RS (descending reference Signal) there is space QCL.Here, DL RS is the reference signal for measuring/reporting for wave beam.UE receives CORESET/PDCCH When, identical reception wave beam can be used and receive DL RS.

In order to make network keep the connection with UE, prerequisite is that any downlink control channel that network is sent is necessary It can reliably be decoded by UE.Assuming that downlink control channel can be in one group of M active (effective) wave beam (each It is associated with a DL RS) on send, it means that the signal quality of at least one of M active wave beam must be enough It is high.If the quality of some wave beam have decreased to some threshold value hereinafter, if DCI on the wave beam cannot be enhanced by UE and decode, The wave beam is considered " failure ".If M all active wave beams all have failed, network cannot be sent to UE Any down link control information, this is defined as " wave beam fails (beam failure) ".In order to be connected, need to carry out The reconstruction of one new link.

In the prior art after wave beam failure, base station can be sent the request of wave beam failure recovery by terminal, may in the request Including the new candidate beam recommended to base station;After base station receives the request, response signaling can be sent to terminal, in the response signaling Including switching to new candidate beam or restarting beam search or other instructions.The wave beam failure recovery mechanism can quickly be cut Change to spare wave beam on link BPL (beam pair link, comprising a launching beam and a reception wave beam) after resuming Defeated control message and data realize the fast quick-recovery of wave beam.But it in wave beam failure recovery mechanism in the prior art and describes Down control channel resources how are controlled and managed under wave beam failure and recovery event.

Summary of the invention

The purpose of the present invention is to provide restoration methods, device, terminal and the network equipments of a kind of failure of wave beam, to solve It is not described in the problem of how controlling under wave beam failure and recovery event and manage down control channel resources in the prior art.

To solve the above-mentioned problems, the embodiment of the present invention provides a kind of restoration methods of wave beam failure, comprising:

Physical Downlink Control Channel is monitored in the first control resource set, is used for transmission down control channel if detecting Wave beam failure occurs for M effectively wave beams, sends the request of wave beam failure recovery to network;It is wrapped in the wave beam failure recovery request Contain: the instruction information of at least one to be switched downlink wave beam of terminal selection and the instruction M effectively wave beam are sent out The instruction information of raw wave beam failure;M is the integer more than or equal to 1;

Physical Downlink Control Channel and at least one described to be switched downlink wave in configuration the second control resource set The corresponding downlink reference signal of beam is the quasi- co-located QCL in space;

Use downlink reception wave beam corresponding with the downlink reference signal carries out object in the second control resource set Manage the monitoring of down control channel.

Preferably, the use downlink reception corresponding with the downlink reference signal in the second control resource set Wave beam carries out the step of monitoring of Physical Downlink Control Channel, comprising:

After receiving the wave beam failure recovery response that network issues, use and the downlink in the second control resource set The corresponding downlink reception wave beam of reference signal carries out the monitoring of Physical Downlink Control Channel.

Preferably, the method also includes:

Receive the configuration for the first control resource set that network side is sent and the configuration of the second control resource set;Or Person,

The configuration for the default control resource set that network side is sent is received, the default control resource set is used as described First control resource set and the second control resource set;

Wherein, the first control resource set is the set of the M corresponding physical downlink control channel resources of effective wave beam; The second control resource set is the set for the physical downlink control channel resource restored for wave beam.

Preferably, the configuration and the second control resource for receiving the first control resource set that network side is sent The step of configuration of collection, comprising:

Receive configuration and institute of the network side by semi-static signaling or the first control resource set of dynamic signaling transmission State the configuration of the second control resource set;Alternatively,

The step of configuration for receiving the default control resource set that network side is sent, comprising:

Receive the default control resource set that network side is sent by semi-static signaling or dynamic signaling.

Preferably, Physical Downlink Control Channel in the second control of configuration resource set and described at least one is to be switched Before the corresponding downlink reference signal of downlink wave beam is the quasi- co-located QCL in space, the method also includes:

Obtain the corresponding relationship of preconfigured to be switched downlink wave beam and downlink reference signal;

According to the corresponding relationship, determining descending reference letter corresponding at least one described to be switched downlink wave beam Number.

Preferably, Physical Downlink Control Channel in the second control of configuration resource set and described at least one is to be switched The step of corresponding downlink reference signal of downlink wave beam is space standard co-located QCL, comprising:

The downlink reception wave beam of the corresponding downlink reference signal of at least one described to be switched downlink wave beam will be received It is configured to receive the downlink reception wave beam of the Physical Downlink Control Channel in the second control resource set.

Preferably, the method also includes:

It is stopped in the first control resource set in predetermined time and monitors the first Physical Downlink Control Channel.

Preferably, the predetermined time are as follows:

After terminal determines that wave beam failure occurs for the M effective wave beams;Alternatively,

After terminal sends the wave beam failure recovery request to network;Alternatively,

Terminal sends the wave beam failure recovery to network and requests and receive the wave beam failure recovery response that network issues Afterwards.

Preferably, first Physical Downlink Control Channel includes: public Physical Downlink Control Channel and/or dedicated physics Down control channel;

Alternatively, first Physical Downlink Control Channel includes: the Physical Downlink Control Channel for carrying uplink Grant information And/or carry the Physical Downlink Control Channel of downlink Grant information.

Preferably, the method also includes:

Continue to monitor the second Physical Downlink Control Channel in the first control resource set.

Preferably, second Physical Downlink Control Channel includes: public Physical Downlink Control Channel and/or dedicated physics Down control channel.

Alternatively, second Physical Downlink Control Channel includes: the Physical Downlink Control Channel for carrying uplink Grant information And/or carry the Physical Downlink Control Channel of downlink Grant information.

The embodiment of the present invention also provides a kind of restoration methods of wave beam failure, comprising:

Receive the wave beam failure recovery request that terminal is sent;Include in the wave beam failure recovery request: what terminal selected The instruction information of at least one to be switched downlink wave beam and instruction are used for transmission M effective wave beams of down control channel The instruction information of wave beam failure occurs;M is the integer more than or equal to 1;

It is requested according to the wave beam failure recovery, at least one downlink is selected to send out from the to be switched downlink wave beam Ejected wave Shu Zuowei target downlink launching beam;

Resource set transmitting physical downlink channel control is controlled second using the target downlink launching beam of selection.

Preferably, the target downlink launching beam using selection controls resource set transmitting physical downlink second Before control channel, the method also includes:

The response of wave beam failure recovery is issued to terminal.

Preferably, the method also includes:

The configuration of the first control resource set and the configuration of the second control resource set are sent to terminal;Alternatively,

The configuration of a default control resource set is sent to terminal;Wherein, the default control resource set is used as first Control resource set and the second control resource set;

Wherein, the first control resource set is the set of the M corresponding physical downlink control channel resources of effective wave beam; The second control resource set is the set for the physical downlink control channel resource restored for wave beam.

Preferably, the step for sending the configuration of the first control resource set and the configuration of the second control resource set to terminal Suddenly, comprising:

The configuration and the second control resource of the first control resource set are sent to terminal by semi-static signaling or dynamic signaling The configuration of collection;Alternatively,

The step of configuration that a default control resource set is sent to terminal, comprising:

The default control resource set is sent to terminal by semi-static signaling or dynamic signaling.

The embodiment of the present invention also provides a kind of recovery device of wave beam failure, comprising:

Request sending module is used for for monitoring Physical Downlink Control Channel in the first control resource set if detecting Wave beam failure occurs for M effectively wave beams for transmitting down control channel, sends the request of wave beam failure recovery to network;The wave Include in the request of beam failure recovery: the instruction information of at least one to be switched downlink wave beam of terminal selection and instruction institute It states M effectively wave beams and the instruction information that wave beam fails occurs;M is the integer more than or equal to 1;

Configuration module, for configuring Physical Downlink Control Channel in the second control resource set and described at least one is to be cut Changing the corresponding downlink reference signal of row launching beam is the quasi- co-located QCL in space;

First monitoring modular, for it is described second control resource set in use it is corresponding with the downlink reference signal under Row receives the monitoring that wave beam carries out Physical Downlink Control Channel.

Preferably, first monitoring modular includes:

Submodule is monitored, after receiving the wave beam failure recovery response that network issues, in the second control resource set Interior use downlink reception wave beam corresponding with the downlink reference signal carries out the monitoring of Physical Downlink Control Channel.

Preferably, described device further include:

First control resource set configures receiving module, and described first for receiving network side transmission controls matching for resource set Set the configuration with the second control resource set;And/or

Second control resource set configures receiving module, and default control resource set for receiving network side transmission is matched It sets, wherein the default control resource set is used as the first control resource set and the second control resource set;

Wherein, the first control resource set is the set of the M corresponding physical downlink control channel resources of effective wave beam; The second control resource set is the set for the physical downlink control channel resource restored for wave beam.

Preferably, the first control resource set configuration receiving module includes:

First submodule is provided for receiving network side by first control that semi-static signaling or dynamic signaling are sent The configuration of the configuration of source collection and the second control resource set;And/or

The second control resource set configures receiving module and includes:

Second submodule is provided for receiving network side by the default control that semi-static signaling or dynamic signaling are sent Source collection.

Preferable described device further include:

Relation acquisition module, it is corresponding with downlink reference signal for obtaining preconfigured to be switched downlink wave beam Relationship;

Reference signal determining module, for according to the corresponding relationship, at least one determining and described to be switched downlink to be sent out The corresponding downlink reference signal of ejected wave beam.

Preferably, the configuration module includes:

Submodule is configured, for the corresponding downlink reference signal of at least one to be switched downlink wave beam described in receiving Downlink reception beam configuration be receive it is described second control resource set in Physical Downlink Control Channel downlink reception wave beam.

Preferably, described device further include:

Stopping modular monitors the control of the first physical down for stopping in the first control resource set in predetermined time Channel.

Preferably, the predetermined time are as follows:

After terminal determines that wave beam failure occurs for the M effective wave beams;Alternatively,

After terminal sends the wave beam failure recovery request to network;Alternatively,

Terminal sends the wave beam failure recovery to network and requests and receive the wave beam failure recovery response that network issues Afterwards.

Preferably, first Physical Downlink Control Channel includes: public Physical Downlink Control Channel and/or dedicated physics Down control channel.

Alternatively, first Physical Downlink Control Channel includes: the Physical Downlink Control Channel for carrying uplink Grant information And/or carry the Physical Downlink Control Channel of downlink Grant information.

Preferably, described device further include:

Second monitoring modular, for continuing to monitor the second Physical Downlink Control Channel in the first control resource set.

Preferably, second Physical Downlink Control Channel includes: public Physical Downlink Control Channel and/or dedicated physics Down control channel.

Alternatively, second Physical Downlink Control Channel includes: the Physical Downlink Control Channel for carrying uplink Grant information And/or carry the Physical Downlink Control Channel of downlink Grant information.

The embodiment of the present invention also provides a kind of terminal, including memory, processor and is stored on the memory and can The computer program run on the processor, the processor perform the steps of when executing described program

Physical Downlink Control Channel is monitored in the first control resource set, is used for transmission down control channel if detecting Wave beam failure occurs for M effectively wave beams, sends the request of wave beam failure recovery to network;It is wrapped in the wave beam failure recovery request Contain: the instruction information of at least one to be switched downlink wave beam of terminal selection and the instruction M effectively wave beam are sent out The instruction information of raw wave beam failure;M is the integer more than or equal to 1;

Physical Downlink Control Channel and at least one described to be switched downlink wave in configuration the second control resource set The corresponding downlink reference signal of beam is the quasi- co-located QCL in space;

Use downlink reception wave beam corresponding with the downlink reference signal carries out object in the second control resource set Manage the monitoring of down control channel.

The embodiment of the present invention also provides a kind of computer readable storage medium, is stored thereon with computer program, the program It is performed the steps of when being executed by processor

Physical Downlink Control Channel is monitored in the first control resource set, is used for transmission down control channel if detecting Wave beam failure occurs for M effectively wave beams, sends the request of wave beam failure recovery to network;It is wrapped in the wave beam failure recovery request Contain: the instruction information of at least one to be switched downlink wave beam of terminal selection and the instruction M effectively wave beam are sent out The instruction information of raw wave beam failure;M is the integer more than or equal to 1;

Physical Downlink Control Channel and at least one described to be switched downlink wave in configuration the second control resource set The corresponding downlink reference signal of beam is the quasi- co-located QCL in space;

Use downlink reception wave beam corresponding with the downlink reference signal carries out object in the second control resource set Manage the monitoring of down control channel.

The embodiment of the present invention also provides a kind of recovery device of wave beam failure, comprising:

Request receiving module, for receiving the wave beam failure recovery request of terminal transmission;The wave beam failure recovery request In include: terminal selection at least one to be switched downlink wave beam instruction information and instruction be used for transmission downlink control The instruction information of wave beam failure occurs for the effectively wave beam of M of channel;M is the integer more than or equal to 1;

Beam selection module, for being requested according to the wave beam failure recovery, from the to be switched downlink wave beam Select at least one downlink wave beam as target downlink launching beam;

Transmission module, for using the target downlink launching beam of selection under the second control resource set transmitting physical Row control channel.

Preferably, described device further include:

Sending module is responded, for issuing the response of wave beam failure recovery to terminal.

Preferably, described device further include:

First configuration module, for sending the first configuration of control resource set and matching for the second control resource set to terminal It sets;And/or

Second configuration module, for sending the configuration of a default control resource set to terminal;Wherein, the default control Resource set is used as the first control resource set and the second control resource set;

Wherein, the first control resource set is the set of the M corresponding physical downlink control channel resources of effective wave beam; The second control resource set is the set for the physical downlink control channel resource restored for wave beam.

Preferably, first configuration module includes:

First configuration submodule, for sending the first control resource set to terminal by semi-static signaling or dynamic signaling The configuration of configuration and the second control resource set;And/or

Second configuration module includes:

Second configuration submodule, for sending the default control resource to terminal by semi-static signaling or dynamic signaling Collection.

The embodiment of the present invention also provides a kind of network equipment, including memory, processor and is stored on the memory And the computer program that can be run on the processor, the processor perform the steps of when executing described program

Receive the wave beam failure recovery request that terminal is sent;Include in the wave beam failure recovery request: what terminal selected The instruction information of at least one to be switched downlink wave beam and instruction are used for transmission M effective wave beams of down control channel The instruction information of wave beam failure occurs;M is the integer more than or equal to 1;

It is requested according to the wave beam failure recovery, at least one downlink is selected to send out from the to be switched downlink wave beam Ejected wave Shu Zuowei target downlink launching beam;

Resource set transmitting physical downlink channel control is controlled second using the target downlink launching beam of selection.

The embodiment of the present invention also provides a kind of computer readable storage medium, is stored thereon with computer program, the program It is performed the steps of when being executed by processor

Receive the wave beam failure recovery request that terminal is sent;Include in the wave beam failure recovery request: what terminal selected The instruction information of at least one to be switched downlink wave beam and instruction are used for transmission M effective wave beams of down control channel The instruction information of wave beam failure occurs;M is the integer more than or equal to 1;

It is requested according to the wave beam failure recovery, at least one downlink is selected to send out from the to be switched downlink wave beam Ejected wave Shu Zuowei target downlink launching beam;

Resource set transmitting physical downlink channel control is controlled second using the target downlink launching beam of selection.

Above-mentioned technical proposal of the invention at least has the following beneficial effects:

The above-mentioned technical proposal of the embodiment of the present invention, network side are the physical down control that terminal is configured to wave beam recovery The corresponding second control resource set of channel, to realize the resource of the Physical Downlink Control Channel under wave beam failure and recovery event Management;Further, wave beam restore when assume second control resource set in Physical Downlink Control Channel and it is described at least one The corresponding downlink reference signal of to be switched downlink wave beam is the quasi- co-located QCL in space, thus in the second control resource set Interior use downlink reception wave beam corresponding with the downlink reference signal carries out the monitoring of Physical Downlink Control Channel, so that terminal Downlink reception wave beam corresponding with Physical Downlink Control Channel can be more accurately obtained, to more accurately monitor physical down Control channel.

Detailed description of the invention

Fig. 1 shows one of the step flow charts of restoration methods of wave beam provided in an embodiment of the present invention failure;

Fig. 2 indicates the first control resource set and the second control in the restoration methods of wave beam failure provided in an embodiment of the present invention One of relativeness schematic diagram of resource set;

Fig. 3 indicates the first control resource set and the second control in the restoration methods of wave beam failure provided in an embodiment of the present invention The two of the relativeness schematic diagram of resource set;

Fig. 4 indicates the first control resource set and the second control in the restoration methods of wave beam failure provided in an embodiment of the present invention The three of the relativeness schematic diagram of resource set;

Fig. 5 indicates the two of the step flow chart of the restoration methods of wave beam failure provided in an embodiment of the present invention;

Fig. 6 indicates one of the structural schematic diagram of recovery device of wave beam failure provided in an embodiment of the present invention;

Fig. 7 indicates the structural schematic diagram of terminal provided in an embodiment of the present invention;

Fig. 8 shows the second structural representations of the recovery device of wave beam provided in an embodiment of the present invention failure;

Fig. 9 indicates the structural schematic diagram of the network equipment provided in an embodiment of the present invention.

Specific embodiment

Technical solution of the embodiment of the present invention is described in detail below by attached drawing and specific embodiment, it should be understood that Specific features in the embodiment of the present invention and embodiment are the detailed description to technical solution of the embodiment of the present invention, rather than Restriction to technical solution of the embodiment of the present invention, in the absence of conflict, the technology in the embodiment of the present invention and embodiment Feature can be combined with each other.

The embodiment of the present invention can be adapted in 5G system;Other wireless communication systems are readily applicable to, such as a long time Evolution (Long Term Evolution, LTE) system, global system for mobile communications (Global System for Mobile Communication, GSM), mobile communication system (Universal Mobile Telecommunications System, UMTS), CDMA access (Code Division Multiple Access, CDMA) system and new network equipment system System etc..

The present embodiments relate to terminal, user can be directed to, the equipment of voice and/or data connectivity, tool are provided There is the handheld device of wireless connecting function or is connected to other processing equipments of radio modem.Wireless user equipment It can be communicated through wireless access network (Radio Access Network, RAN) with one or more core nets, terminal can be with It is mobile terminal, such as mobile phone (or be " honeycomb " phone) and the computer with mobile terminal, for example, it may be portable Formula, pocket, hand-held, built-in computer or vehicle-mounted mobile device, they exchanged with wireless access network language and/or Data.For example, personal communication service (Personal Communication Service, PCS) phone, wireless phone, session Initiation protocol (SIP) phone, wireless local loop (Wireless Local Loop, WLL) are stood, personal digital assistant Equipment such as (Personal Digital Assistant, PDA).Terminal is referred to as system, subscriber unit (Subscriber Unit), subscriber station (Subscriber Station), movement station (Mobile Station), mobile station (Mobile), distant station (Remote Station), access point (Access Point), remote terminal (Remote Terminal), access terminal (Access Terminal), user terminal (User Terminal), user agent (User Agent), user equipment (User Device), wireless device (wireless device).

The network equipment involved by the embodiment of the present invention can be for mutually being turned the air frame received and IP grouping It changes, as the router between wireless terminal device and the rest part of access net, wherein the rest part for accessing net may include Internet protocol (IP) network equipment.The network equipment can also be the equipment coordinated to the attribute management of air interface.For example, net Network equipment can be the network equipment in 5G system, and such as next-generation base station (Next generation Node B, gNB) may be used also To be global system for mobile communications (Global System for Mobile Communication, GSM) or CDMA Base station (Base Transceiver Station, BTS) in (Code Division Multiple Access, CDMA), It can be the base station in wideband code division multiple access (Wideband Code Division Multiple Access, WCDMA) (NodeB), it can also be that the evolved base station (evolutional Node B, eNB or e-NodeB) in LTE, the present invention are implemented Example does not limit.

It is to be appreciated that in the description of the embodiment of the present invention, the vocabulary such as " first ", " second " are only used for distinguishing and retouch The purpose stated, is not understood to indicate or imply relative importance, can not be interpreted as indication or suggestion sequence.In the present invention In the description of embodiment " multiple ", refer to two or more.

As shown in Figure 1, the embodiment of the present invention provides a kind of restoration methods of wave beam failure, comprising:

Step 11, Physical Downlink Control Channel is monitored in the first control resource set, is used for transmission downlink control if detecting Wave beam failure occurs for the effectively wave beam of M of channel processed, sends the request of wave beam failure recovery to network;The wave beam failure recovery Include in request: the instruction information of at least one to be switched downlink wave beam of terminal selection and described M of instruction are effectively The instruction information of wave beam failure occurs for wave beam;M is the integer more than or equal to 1.

In this step, there are M to have for the transmission of the physical downlink control channel PDCCH of the network equipment (such as base station) to terminal Imitate wave beam.The set of effective wave beam can be semi-statically configured by radio resource control RRC signaling.One PDCCH can To use any one or more of above-mentioned M effectively wave beam wave beams to be transmitted.

Specifically, the instruction information of to be switched downlink wave beam is specifically as follows: the mark of to be switched downlink wave beam Know or instruction, using to be switched downlink wave beam channel state information reference signals CSI-RS resource identification or instruction, Using the mark of the port of the channel state information reference signals CSI-RS of to be switched downlink wave beam or instruction etc., herein not Make specific limit.

Preferably, the corresponding received signal quality of to be switched downlink wave beam need to be higher than a certain threshold value.Signal herein Quality can be the Reference Signal Received Power RSRP of downlink reference signal, the Signal to Noise Ratio (SNR) of downlink reference signal, descending reference The Reference Signal Received Quality RSRQ of signal, the channel quality indicator (CQI) of downlink reference signal or downlink reference signal are corresponding Capacity etc., be not specifically limited herein.

Preferably, terminal receives signal using the corresponding downlink reception wave beam of to be switched downlink wave beam, and measures and connect The quality of the collection of letters number.Signal quality herein can be Reference Signal Received Power RSRP, the descending reference of downlink reference signal The channel quality instruction of the Signal to Noise Ratio (SNR) of signal, the Reference Signal Received Quality RSRQ of downlink reference signal, downlink reference signal CQI or the corresponding capacity of downlink reference signal etc., are not specifically limited herein.To be switched downlink wave beam accordingly receives Wave beam can be what terminal was obtained and stored in advance.

Step 12, the Physical Downlink Control Channel in the second control of configuration resource set and at least one described to be switched downlink The corresponding downlink reference signal of launching beam is the quasi- co-located QCL in space.

In this step, the quasi- co-located QCL in space is specifically defined are as follows: receives the physical down control in the second control resource set The downlink reception wave beam of channel processed downlink reference signal corresponding at least one described to be switched downlink wave beam is received Downlink reception wave beam is identical.

Therefore step 12 specifically includes:

Step 121, the downlink of the corresponding downlink reference signal of at least one described to be switched downlink wave beam will be received Receive the downlink reception wave beam for the Physical Downlink Control Channel that wave beam is configured to receive in the second control resource set, then second Controlling Physical Downlink Control Channel and the corresponding downlink reference signal of to be switched downlink wave beam in resource set is that space is quasi- Co-located QCL.

In this step, connect in order to enable terminal can be obtained more accurately with the downlink for receiving Physical Downlink Control Channel Wave beam is received, Physical Downlink Control Channel in the second control resource set is assumed in the embodiment of the present invention and described at least one is to be cut Changing the corresponding downlink reference signal of row launching beam is the quasi- co-located QCL in space.

Step 13, the use downlink reception wave beam corresponding with the downlink reference signal in the second control resource set Carry out the monitoring of Physical Downlink Control Channel.

In this step, it can determine in the second control resource set under physics according to the downlink reception wave beam of downlink reference signal The downlink reception wave beam of row control channel, to carry out the prison of Physical Downlink Control Channel on determining downlink reception wave beam It surveys.

Further, step 13 includes: in the above embodiment of the present invention

After receiving the wave beam failure recovery response that network issues, use and the downlink in the second control resource set The corresponding downlink reception wave beam of reference signal carries out the monitoring of Physical Downlink Control Channel.

Specifically, terminal is after receiving the wave beam failure recovery response that network issues, terminal determines that wave beam has restored, Determine the biography that Physical Downlink Control Channel is carried out at least one to be switched downlink wave beam that network switching is selected to terminal It is defeated;To which terminal can control use downlink reception wave corresponding with the downlink reference signal in resource set described second The monitoring of Shu Jinhang Physical Downlink Control Channel.

It should be noted that in the above embodiment of the present invention, the method also includes: receive the described of network side transmission The configuration of the configuration of first control resource set and the second control resource set;Alternatively,

The configuration for the default control resource set that network side is sent is received, the default control resource set is used as described First control resource set and the second control resource set;Wherein, the first control resource set is that M effectively wave beams are corresponding The set of physical downlink control channel resource;The second control resource set is the Physical Downlink Control Channel restored for wave beam The set of resource.

Each effectively wave beam and a downlink reference signal or multiple downlink reference signals are the quasi- co-located QCL in space.M have The set quilt of the time/frequency resource of terminal monitoring physical downlink control channel PDCCH before wave beam fails occurs for effect wave beam It is defined as the first control resource set.Different PDCCH in first control resource set can correspond to one in M effective wave beams Wave beam.As one PDCCH of decoding terminals, the corresponding downlink reference signal of terminal use effective wave beam corresponding with the PDCCH Identical reception wave beam (the reception wave beam can be simulation, is also possible to number, can also be analog-digital hybrid).

Preferably, the method also includes:

The configuration of the first control resource set sent to terminal and the configuration of the second control resource set can be sent simultaneously, It can be independently transmitted.

It should be noted that network can control matching for resource set with the configuration and second of independently transmitted first control resource set It sets.Such as first control resource set configuration and the configuration of the second control resource set can be sent in the same DCI, or not Same DCI is sent.In another example the configuration of the first control resource set is sent using semi-static signaling, the second control resource set is matched It sets and is sent using DCI.In another example the configuration of the first control resource set uses semi-static signaling (such as RRC signaling or MAC at moment 1 CE signaling) it sends, the configuration of the second control resource set is sent using the semi-static signaling at moment 2 etc..

It should be noted that the first control resource set and the second control resource set essence that the above embodiment of the present invention provides On be terminal monitoring Physical Downlink Control Channel running time-frequency resource set.First control resource set and the second control resource set The identical characteristic having is following (for the convenience of description, being referred to as controlling by the first control resource set and the second control resource set here Resource set processed):

1. a control resource set is the quasi- co-located QCL in space with a downlink reference signal;Passed in the control resource set Defeated all PDCCH are the quasi- co-located QCL in space with the downlink reference signal.Terminal use is identical with the downlink reference signal Downlink reception wave beam monitors PDCCH.

It should be noted that terminal monitoring PDCCH is a kind of mode of blind examination, terminal only knows that PDCCH is likely to be present in In this control resource set, but specific position is not known.Therefore terminal will use it is identical with the downlink reference signal under Row receives wave beam in some possible position monitoring PDCCH, comes if detected, and decodes to PDCCH;If monitoring less than, Then think that this PDCCH is not present in this control resource set or thinks the corresponding downlink wave beam of this downlink reception wave beam Monitoring failure.

2. a control resource set and multiple downlink reference signals are the quasi- co-located QCL in space;A kind of mode be terminal simultaneously PDCCH monitoring is carried out using the corresponding multiple downlink reception wave beams of these downlink reference signals;Another way is terminal not With at the time of PDCCH monitoring carried out using the corresponding downlink reception wave beam of different downlink reference signals.One moment may be only Correspond to the corresponding reception wave beam of a downlink reference signal, it is also possible to which it is corresponding that a moment corresponds to one group of downlink reference signal One group of downlink reception wave beam.

It should be noted that downlink reception wave beam here can correspond to analog beam, digital wave may correspond to Beam can also correspond to digital analog mixed wave beam.For example, one moment only corresponds to one when only one aerial panel of terminal A simulation receives wave beam.Multiple reception wave beams can be then corresponded to if it is digital beam;It, can when terminal has mutiple antennas panel It is received with receiving wave beam using multiple simulations simultaneously.

Further desirable for explanation, above-mentioned control resource set typically refers to one and passes for Physical Downlink Control Channel Defeated Physical Resource Block (block).It may include one or more such resource, and each piece can be referred to as " a control Resource set processed ", terminal can also configure multiple " control resource sets ".For example, system is that UE is configured with multiple control resource sets, In each control resource set correspond to a wave beam in M effectively wave beams.When UE is decoded in each control resource set When PDCCH, the identical reception wave beam of terminal use downlink reference signal corresponding with the wave beam.No matter what the configuration of system uses Kind of mode defines " control resource set ", or is defined using which kind of term with the same function with control resource set herein Resource, these differences are only the difference defined, are not intended to limit applicability of the invention.

Further, in the above embodiment of the present invention, the method also includes:

Receive configuration and institute of the network side by semi-static signaling or the first control resource set of dynamic signaling transmission State the configuration of the second control resource set;The time/frequency resource of i.e. first control resource set and the second control resource set is by network It is separately configured, such as passes through semi-static signaling.As shown in Fig. 2, the second control resource set and the first control resource set can be complete It is not overlapped;Or as shown in figure 3, the second control resource set and the first control resource set can partly overlap;Or such as Fig. 4 institute Show, the second control resource set is fallen in the first control resource set.Certain first control resource set may also fall in the second control money In the collection of source.

First control resource set is configured as the old PDCCH of terminal monitoring (using one or more waves in M effectively wave beam Beam transmission PDCCH) one group of time/frequency resource;Second control resource set is configured as the new PDCCH of terminal monitoring and (is used for Wave beam restore transmission PDCCH) one group of time/frequency resource.New PDCCH use selected from K candidate beam newly Substitution wave beam is sent.When terminal is attempted to be decoded the PDCCH in the second control resource set, it will be assumed that new PDCCH downlink reference signal corresponding with to be switched downlink wave beam is the quasi- co-located QCL in space.To be switched downlink wave beam It can be what terminal reported recently, be also possible to what terminal reported before a prefixed time interval.The prefixed time interval can To be that network and terminal are arranged perhaps base station notice terminal or terminal oneself in advance and determined.

Alternatively, receiving the default control resource set that network side is sent by semi-static signaling or dynamic signaling, wherein The default control resource set is used as the first control resource set and the second control resource set.That is network configuration one Default control resource set, the default control resource set be both used for old PDCCH (PDCCH of M effective multi-beam transmissions) monitoring, had also used In new PDCCH (PDCCH for restoring transmission for wave beam) monitoring.

Terminal monitoring while monitoring default control resource set (being equivalent to the first control resource set) to obtain old PDCCH The quality of M PDCCH wave beam.Under if M candidate PDCCH wave beam all monitors failure, and UE detects that at least one is new Row launching beam is simultaneously reported to network, and terminal starts the prison in default control resource set (being equivalent to the second control resource set) New PDCCH is surveyed, and assumes that new PDCCH downlink reference signal associated with new substitution wave beam is space QCL.

Further, in the above embodiment of the present invention, before step 22, the method also includes:

Obtain the corresponding relationship of preconfigured to be switched downlink wave beam and downlink reference signal;

According to the corresponding relationship, determining descending reference letter corresponding at least one described to be switched downlink wave beam Number;To be switched downlink wave beam can select the higher wave beam of quality from K candidate beam.Network side can be preset One or more downlink reference signal corresponding with K candidate beam.

Further desirable for explanation, when terminal detects that M effectively wave beams all fail and find under new substitution When row launching beam, terminal, which can continue old PDCCH in monitoring the first control resource set or terminal, can stop monitoring the Old PDCCH in one control resource set.

Specifically, method described in the above embodiment of the present invention further include:

It is stopped in the first control resource set in predetermined time and monitors the first Physical Downlink Control Channel.

When M all candidate beams is all detected unsuccessfully, terminal stops in monitoring the first control resource set PDCCH.This for uplink authorization monitoring be even more important, because if end-error detect uplink authorization (in old wave On beam), then terminal may mistakenly send not yet scheduled Physical Uplink Shared Channel PUSCH, thus base station BS and other Cell generates unnecessary interference.Therefore, terminal should stop the PDCCH in monitoring the first control resource set.

Specifically, the predetermined time are as follows:

Terminal determines the M effectively wave beams occur (no matter whether terminal is to be cut to base station report after wave beam fails Change row launching beam);If avoiding the wrong PDCCH on old wave beam from monitoring is high priority, institute preferably is determined in terminal It states after wave beam failure occurs for a effectively wave beams of M and stops at monitoring PDCCH in the first control resource set.

Alternatively, after terminal sends the wave beam failure recovery request to network.

Alternatively, terminal, which sends the wave beam failure recovery to network, requests and receives the wave beam failure recovery that network issues After response;If to be switched wave beam is actually determined holding and the control signal of base station is connected as high priority, preferably exist Terminal sends after the wave beam failure recovery response that network issues is requested and received to the wave beam failure recovery to network and stops at PDCCH is monitored in the first control resource set.

Preferably, first Physical Downlink Control Channel includes: public Physical Downlink Control Channel and/or dedicated physics Down control channel.For example, using different processing modes for public PDCCH and dedicated PDCCH, terminal stops at the first control Continue to monitor public PDCCH in the first control resource set while monitoring dedicated PDCCH in resource set processed.

Preferably, first Physical Downlink Control Channel includes:

It carries the Physical Downlink Control Channel of uplink Grant information and/or carries the physical down control of downlink Grant information Channel.For example, terminal is stopping continuing while monitoring carries the PDCCH of uplink allowance UL information in the first control resource set Monitoring carries the PDCCH that downlink permits DL information in first control resource set.

Alternatively, the method also includes:

Continue to monitor the second Physical Downlink Control Channel in the first control resource set.

Preferably, second Physical Downlink Control Channel includes: public Physical Downlink Control Channel and/or dedicated physics Down control channel.For example, using different processing modes for public PDCCH and dedicated PDCCH, terminal continues monitoring the Stop monitoring public PDCCH in the first control resource set while monitoring dedicated PDCCH in one control resource set.

Preferably, second Physical Downlink Control Channel includes: the physical down control letter for carrying uplink Grant information Road and/or the Physical Downlink Control Channel for carrying downlink Grant information.For example, terminal continues to monitor in the first control resource set It carries uplink and permits stopping at monitoring carrying downlink allowance DL information in the first control resource set while the PDCCH of UL information PDCCH。

To sum up, the physical down control that network side is configured to wave beam recovery for terminal in the above embodiment of the present invention is believed The corresponding second control resource set in road, to realize the resource pipe of the Physical Downlink Control Channel under wave beam failure and recovery event Reason;Further, wave beam restore when assume second control resource set in Physical Downlink Control Channel and it is described at least one wait for Switching the corresponding downlink reference signal of downlink wave beam is the quasi- co-located QCL in space, thus in the second control resource set The monitoring that Physical Downlink Control Channel is carried out using downlink reception wave beam corresponding with the downlink reference signal, enables terminal It is enough more accurately to obtain downlink reception wave beam corresponding with Physical Downlink Control Channel, to more accurately monitor physical down control Channel processed.

As shown in figure 5, the embodiment of the present invention also provides a kind of restoration methods of wave beam failure, comprising:

Step 51, the wave beam failure recovery request that terminal is sent is received;Include in the wave beam failure recovery request: terminal The M that the instruction information of at least one to be switched downlink wave beam of selection and instruction are used for transmission down control channel a has The instruction information of wave beam failure occurs for effect wave beam;M is the integer more than or equal to 1.

Specifically, the instruction information of to be switched downlink wave beam is specifically as follows: the body of to be switched downlink wave beam Part mark, the resource of the channel state information reference signals CSI-RS of to be switched downlink wave beam, to be switched downlink wave Port instruction of the channel state information reference signals CSI-RS of beam etc., is not specifically limited herein.

Preferably, the signal quality of to be switched downlink wave beam need to be higher than a certain threshold value.Signal quality herein can be with It is the ginseng of the Reference Signal Received Power RSRP of downlink reference signal, the Signal to Noise Ratio (SNR) of downlink reference signal, downlink reference signal Signal receiving quality RSRQ, the channel quality indicator (CQI) of downlink reference signal or the corresponding capacity of downlink reference signal etc. are examined, It is not specifically limited herein.

Step 52, it is requested according to the wave beam failure recovery, selects at least one from the to be switched downlink wave beam A downlink wave beam is as target downlink launching beam;

Step 53, it is controlled using the target downlink launching beam of selection in the second control resource set transmitting physical downlink Channel.

Further, in the above embodiment of the present invention before step 53, the method also includes:

The response of wave beam failure recovery is issued to terminal.

Specifically, the method also includes:

The response of wave beam failure recovery is issued to terminal by semi-static signaling or dynamic signaling.Such as it is sent out by RRC signaling It send, or is sent by DCI signaling.

Specifically, terminal is after receiving the wave beam failure recovery response that network issues, terminal determines that wave beam has restored, Determine the biography that Physical Downlink Control Channel is carried out at least one to be switched downlink wave beam that network switching is selected to terminal It is defeated;To which terminal can control use downlink reception wave corresponding with the downlink reference signal in resource set described second The monitoring of Shu Jinhang Physical Downlink Control Channel.

Specifically, method described in the above embodiment of the present invention further include:

The configuration of the first control resource set and the configuration of the second control resource set are sent to terminal;Alternatively,

The configuration of a default control resource set is sent to terminal;Wherein, the default control resource set is used as first Control resource set and the second control resource set;Wherein, the first control resource set is the M effectively corresponding physical downs of wave beam The set of control channel resource;The second control resource set is the collection for the physical downlink control channel resource restored for wave beam It closes.

It should be noted that the first control resource set and the second control resource set essence that the above embodiment of the present invention provides On be terminal monitoring Physical Downlink Control Channel running time-frequency resource set.First control resource set and the second control resource set The identical characteristic having is following (for the convenience of description, being referred to as controlling by the first control resource set and the second control resource set here Resource set processed):

1. a control resource set is the quasi- co-located QCL in space with a downlink reference signal;Passed in the control resource set Defeated all PDCHH are the quasi- co-located QCL in space with the downlink reference signal.Terminal use is identical with the downlink reference signal Downlink reception wave beam monitors PDCCH.

It should be noted that terminal monitoring PDCCH is a kind of mode of blind examination, terminal only knows that PDCCH is likely to be present in In this control resource set, but specific position is not known.Therefore terminal will use it is identical with the downlink reference signal under Row receives wave beam in some possible position monitoring PDCCH, comes if detected, and decodes to PDCCH;If monitoring less than, Then think that this PDCCH is not present in this control resource set or thinks the corresponding downlink wave beam of this downlink reception wave beam Monitoring failure.

2. a control resource set and multiple downlink reference signals are the quasi- co-located QCL in space;A kind of mode be terminal simultaneously PDCCH monitoring is carried out using the corresponding multiple downlink reception wave beams of these downlink reference signals;Another way is terminal not With at the time of PDCCH monitoring carried out using the corresponding downlink reception wave beam of different downlink reference signals.One moment may be only Correspond to the corresponding reception wave beam of a downlink reference signal, it is also possible to which it is corresponding that a moment corresponds to one group of downlink reference signal One group of downlink reception wave beam.

It should be noted that downlink reception wave beam here can correspond to analog beam, received wave may correspond to Beam.When only one aerial panel of terminal, a moment can only correspond to a simulation and receive wave beam, then if it is digital beam Multiple reception wave beams can be corresponded to;When terminal has mutiple antennas panel, can simultaneously using multiple simulations receive wave beam come into Row receives.

Further desirable for explanation, above-mentioned control resource set typically refers to one and passes for Physical Downlink Control Channel Defeated Physical Resource Block (block).It may include one or more such resource, and each piece can be referred to as " a control Resource set processed ", terminal can also configure multiple " control resource sets ".For example, system is that UE is configured with multiple control resource sets, In each control resource set correspond to a wave beam in M effectively wave beams.When UE is decoded in each control resource set When PDCCH, the identical reception wave beam of terminal use downlink reference signal corresponding with the wave beam.No matter what the configuration of system uses Kind of mode defines " control resource set ", or is defined using which kind of term with the same function with control resource set herein Resource, these differences are only the difference defined, are not intended to limit applicability of the invention.

Further, method described in the above embodiment of the present invention further include:

The configuration and the second control resource of the first control resource set are sent to terminal by semi-static signaling or dynamic signaling The configuration of collection;The time/frequency resource of i.e. first control resource set and the second control resource set is separately configured by network, such as logical Cross semi-static signaling.As shown in Fig. 2, the second control resource set and the first control resource set can be overlapped completely;Or such as Fig. 3 Shown, the second control resource set and the first control resource set can partly overlap;Or as shown in figure 4, the second control resource set It falls in the first control resource set.Certain first control resource set may also be fallen in the second control resource set.

When first control resource set is configured as one group of the old PDCCH of terminal monitoring (PDCCH of M effective multi-beam transmissions) Between/frequency resource;Second control resource set is configured as the new PDCCH's of terminal monitoring (PDCCH for restoring transmission for wave beam) One group of time/frequency resource.New PDCCH uses the new substitution wave beam selected from K candidate beam to be sent.Work as terminal When attempting to be decoded the PDCCH in the second control resource set, it will be assumed that new PDCCH and to be switched downlink wave beam pair The downlink reference signal answered is the quasi- co-located QCL in space.To be switched downlink wave beam can be what terminal reported recently, can also be with It is that terminal reports before a prefixed time interval.The prefixed time interval can be what network was arranged in advance with terminal, or Person base station notifies terminal or that terminal oneself determines.

Alternatively, sending the default control resource set to terminal by semi-static signaling or dynamic signaling;Wherein, described pre- If control resource set is used as the first control resource set and the second control resource set.I.e. network configuration one default control Resource set processed, the default control resource set be both used for old PDCCH (PDCCH of M effective multi-beam transmissions) monitoring, be also used for new PDCCH (PDCCH for restoring transmission for wave beam) monitoring.

Terminal monitoring while monitoring default control resource set (being equivalent to the first control resource set) to obtain old PDCCH The quality of M PDCCH wave beam.Under if M candidate PDCCH wave beam all monitors failure, and UE detects that at least one is new Row launching beam is simultaneously reported to network, and terminal starts the prison in default control resource set (being equivalent to the second control resource set) New PDCCH is surveyed, and assumes that new PDCCH downlink reference signal associated with new substitution wave beam is space QCL.

To sum up, in the above embodiment of the present invention, network side is that terminal configuration fails in generation wave beam and realizes wave in advance The second control resource set that Physical Downlink Control Channel is monitored after Shu Huifu, to realize under wave beam failure and recovery event The resource management of Physical Downlink Control Channel.

As shown in fig. 6, the embodiment of the present invention also provides a kind of recovery device of wave beam failure, comprising:

Request sending module 61, for monitoring Physical Downlink Control Channel in the first control resource set, if detecting use Wave beam failure occurs in M effectively wave beams of transmission down control channel, sends the request of wave beam failure recovery to network;It is described Include in the request of wave beam failure recovery: the instruction information and instruction of at least one to be switched downlink wave beam of terminal selection The instruction information that wave beam fails occurs for the M effectively wave beams;M is the integer more than or equal to 1;

Configuration module 62, for configure second control resource set in Physical Downlink Control Channel and it is described at least one wait for Switching the corresponding downlink reference signal of downlink wave beam is the quasi- co-located QCL in space;

First monitoring modular 63, it is corresponding with the downlink reference signal for controlling use in resource set described second The monitoring of downlink reception wave beam progress Physical Downlink Control Channel.

Specifically, device described in the above embodiment of the present invention further include:

Receiving module is responded, the wave beam failure recovery response issued for receiving network;

First monitoring modular includes:

Submodule is monitored, after receiving the wave beam failure recovery response that network issues, in the second control resource set Interior use downlink reception wave beam corresponding with the downlink reference signal carries out the monitoring of Physical Downlink Control Channel.

Specifically, device described in the above embodiment of the present invention further include:

First control resource set configures receiving module, and described first for receiving network side transmission controls matching for resource set Set the configuration with the second control resource set;And/or

Second control resource set configures receiving module, and default control resource set for receiving network side transmission is matched It sets, wherein the default control resource set is used as the first control resource set and the second control resource set;

Wherein, the first control resource set is the set of the M corresponding physical downlink control channel resources of effective wave beam; The second control resource set is the set for the physical downlink control channel resource restored for wave beam.

Specifically, the first control resource set configuration receiving module described in the above embodiment of the present invention includes:

First submodule is provided for receiving network side by first control that semi-static signaling or dynamic signaling are sent The configuration of the configuration of source collection and the second control resource set;And/or

The second control resource set configures receiving module and includes:

Second submodule is provided for receiving network side by the default control that semi-static signaling or dynamic signaling are sent Source collection.

Specifically, device described in the above embodiment of the present invention further include:

Relation acquisition module, it is corresponding with downlink reference signal for obtaining preconfigured to be switched downlink wave beam Relationship;

Reference signal determining module, for according to the corresponding relationship, at least one determining and described to be switched downlink to be sent out The corresponding downlink reference signal of ejected wave beam.

Specifically, configuration module described in the above embodiment of the present invention includes:

Submodule is configured, for the corresponding downlink reference signal of at least one to be switched downlink wave beam described in receiving Downlink reception beam configuration be receive it is described second control resource set in Physical Downlink Control Channel downlink reception wave beam.

Specifically, device described in the above embodiment of the present invention further include:

Stopping modular monitors the control of the first physical down for stopping in the first control resource set in predetermined time Channel.

Specifically, predetermined time described in the above embodiment of the present invention are as follows:

After terminal determines that wave beam failure occurs for the M effective wave beams;Alternatively,

After terminal sends the wave beam failure recovery request to network;Alternatively,

Terminal sends the wave beam failure recovery to network and requests and receive the wave beam failure recovery response that network issues Afterwards.

Specifically, the first Physical Downlink Control Channel described in the above embodiment of the present invention includes:

Public Physical Downlink Control Channel and/or dedicated Physical Downlink Control Channel.

Specifically, the first Physical Downlink Control Channel described in the above embodiment of the present invention includes:

It carries the Physical Downlink Control Channel of uplink Grant information and/or carries the physical down control of downlink Grant information Channel.

Specifically, device described in the above embodiment of the present invention further include:

Second monitoring modular, for continuing to monitor the second Physical Downlink Control Channel in the first control resource set.

Specifically, the second Physical Downlink Control Channel described in the above embodiment of the present invention includes:

Public Physical Downlink Control Channel and/or dedicated Physical Downlink Control Channel.

Specifically, the second Physical Downlink Control Channel described in the above embodiment of the present invention includes:

It carries the Physical Downlink Control Channel of uplink Grant information and/or carries the physical down control of downlink Grant information Channel.

To sum up, the Physical Downlink Control Channel that network side is configured to wave beam recovery for terminal in the embodiment of the present invention is corresponding Second control resource set, thus realize wave beam failure and recovery event under Physical Downlink Control Channel resource management;Into One step, wave beam restore when assume second control resource set in Physical Downlink Control Channel and it is described at least one it is to be switched under The corresponding downlink reference signal of row launching beam is the quasi- co-located QCL in space, thus in the second control resource set use with The corresponding downlink reception wave beam of the downlink reference signal carries out the monitoring of Physical Downlink Control Channel, enables the terminal to more quasi- True acquisition downlink reception wave beam corresponding with Physical Downlink Control Channel, thus more accurately monitoring physical down control letter Road.

It should be noted that terminal provided in an embodiment of the present invention is to be able to carry out the restoration methods of above-mentioned wave beam failure Terminal, then all embodiments of the restoration methods of above-mentioned wave beam failure are suitable for the terminal, and can reach same or similar Beneficial effect.

As shown in fig. 7, the embodiment of the present invention also provides a kind of terminal, including memory 710, processor 700, transceiver 720, user interface 730 and it is stored in the computer program that can be run on the memory 710 and on the processor 700, The processor 700 performs the steps of when executing described program

Physical Downlink Control Channel is monitored in the first control resource set, is used for transmission down control channel if detecting Wave beam failure occurs for M effectively wave beams, sends the request of wave beam failure recovery to network;It is wrapped in the wave beam failure recovery request Contain: the instruction information of at least one to be switched downlink wave beam of terminal selection and the instruction M effectively wave beam are sent out The instruction information of raw wave beam failure;M is the integer more than or equal to 1;

Physical Downlink Control Channel and at least one described to be switched downlink wave in configuration the second control resource set The corresponding downlink reference signal of beam is the quasi- co-located QCL in space;

Use downlink reception wave beam corresponding with the downlink reference signal carries out object in the second control resource set Manage the monitoring of down control channel.

To sum up, the Physical Downlink Control Channel that network side is configured to wave beam recovery for terminal in the embodiment of the present invention is corresponding Second control resource set, thus realize wave beam failure and recovery event under Physical Downlink Control Channel resource management;Into One step, wave beam restore when assume second control resource set in Physical Downlink Control Channel and it is described at least one it is to be switched under The corresponding downlink reference signal of row launching beam is the quasi- co-located QCL in space, thus in the second control resource set use with The corresponding downlink reception wave beam of the downlink reference signal carries out the monitoring of Physical Downlink Control Channel, enables the terminal to more quasi- True acquisition downlink reception wave beam corresponding with Physical Downlink Control Channel, thus more accurately monitoring physical down control letter Road.

It should be noted that terminal provided in an embodiment of the present invention is to be able to carry out the restoration methods of above-mentioned wave beam failure Terminal, then all embodiments of the restoration methods of above-mentioned wave beam failure are suitable for the terminal, and can reach same or similar Beneficial effect.

The embodiment of the present invention also provides a kind of computer readable storage medium, is stored thereon with computer program, the program It is performed the steps of when being executed by processor

Physical Downlink Control Channel is monitored in the first control resource set, is used for transmission down control channel if detecting Wave beam failure occurs for M effectively wave beams, sends the request of wave beam failure recovery to network;It is wrapped in the wave beam failure recovery request Contain: the instruction information of at least one to be switched downlink wave beam of terminal selection and the instruction M effectively wave beam are sent out The instruction information of raw wave beam failure;M is the integer more than or equal to 1;

Physical Downlink Control Channel and at least one described to be switched downlink wave in configuration the second control resource set The corresponding downlink reference signal of beam is the quasi- co-located QCL in space;

Use downlink reception wave beam corresponding with the downlink reference signal carries out object in the second control resource set Manage the monitoring of down control channel.

Wherein, the computer readable storage medium, as read-only memory (Read-Only Memory, abbreviation ROM), Random access memory (Random Access Memory, abbreviation RAM), magnetic or disk etc..

As shown in figure 8, the embodiment of the present invention also provides a kind of recovery device of wave beam failure, comprising:

Request receiving module 81, for receiving the wave beam failure recovery request of terminal transmission;The wave beam failure recovery is asked Include in asking: the instruction information of at least one to be switched downlink wave beam of terminal selection and instruction are used for transmission downlink control The instruction information of wave beam failure occurs for the effectively wave beam of M of channel processed;M is the integer more than or equal to 1;

Beam selection module 82, for being requested according to the wave beam failure recovery, from the to be switched downlink wave beam It is middle to select at least one downlink wave beam as target downlink launching beam;

Transmission module 83, for using the target downlink launching beam of selection to control resource set transmitting physical second Down control channel.

Preferably, device described in the above embodiment of the present invention further include:

Sending module is responded, for issuing the response of wave beam failure recovery to terminal.

Preferably, device described in the above embodiment of the present invention further include:

First configuration module, for sending the first configuration of control resource set and matching for the second control resource set to terminal It sets;And/or

Second configuration module, for sending the configuration of a default control resource set to terminal;Wherein, the default control Resource set is used as the first control resource set and the second control resource set;

Wherein, the first control resource set is the set of the M corresponding physical downlink control channel resources of effective wave beam; The second control resource set is the set for the physical downlink control channel resource restored for wave beam.

Preferably, the first configuration module described in the above embodiment of the present invention includes:

First configuration submodule, for sending the first control resource set to terminal by semi-static signaling or dynamic signaling The configuration of configuration and the second control resource set;And/or

Second configuration module includes:

Second configuration submodule, for sending the default control resource to terminal by semi-static signaling or dynamic signaling Collection.

To sum up, the physical down control that network side is configured to wave beam recovery for terminal in the above embodiment of the present invention is believed The corresponding second control resource set in road, to realize the resource pipe of the Physical Downlink Control Channel under wave beam failure and recovery event Reason.

It should be noted that terminal provided in an embodiment of the present invention is to be able to carry out the restoration methods of above-mentioned wave beam failure Terminal, then all embodiments of the restoration methods of above-mentioned wave beam failure are suitable for the terminal, and can reach same or similar Beneficial effect.

As shown in figure 9, the embodiment of the present invention also provides a kind of network equipment, including memory 910, processor 900, transmitting-receiving Device 920 and it is stored in the computer program that can be run on the memory 910 and on the processor 900, the processor It is performed the steps of when 900 execution described program

Receive the wave beam failure recovery request that terminal is sent;Include in the wave beam failure recovery request: what terminal selected The instruction information of at least one to be switched downlink wave beam and instruction are used for transmission M effective wave beams of down control channel The instruction information of wave beam failure occurs;M is the integer more than or equal to 1;

It is requested according to the wave beam failure recovery, at least one downlink is selected to send out from the to be switched downlink wave beam Ejected wave Shu Zuowei target downlink launching beam;

Resource set transmitting physical downlink channel control is controlled second using the target downlink launching beam of selection.

To sum up, the physical down control that network side is configured to wave beam recovery for terminal in the above embodiment of the present invention is believed The corresponding second control resource set in road, to realize the resource pipe of the Physical Downlink Control Channel under wave beam failure and recovery event Reason.

It should be noted that terminal provided in an embodiment of the present invention is to be able to carry out the restoration methods of above-mentioned wave beam failure Terminal, then all embodiments of the restoration methods of above-mentioned wave beam failure are suitable for the terminal, and can reach same or similar Beneficial effect.

The embodiment of the present invention also provides a kind of computer readable storage medium, is stored thereon with computer program, the program It is performed the steps of when being executed by processor

Receive the wave beam failure recovery request that terminal is sent;Include in the wave beam failure recovery request: what terminal selected The instruction information of at least one to be switched downlink wave beam and instruction are used for transmission M effective wave beams of down control channel The instruction information of wave beam failure occurs;M is the integer more than or equal to 1;

It is requested according to the wave beam failure recovery, at least one downlink is selected to send out from the to be switched downlink wave beam Ejected wave Shu Zuowei target downlink launching beam;

Resource set transmitting physical downlink channel control is controlled second using the target downlink launching beam of selection.

Wherein, the computer readable storage medium, as read-only memory (Read-Only Memory, abbreviation ROM), Random access memory (Random Access Memory, abbreviation RAM), magnetic or disk etc..

It should be understood by those skilled in the art that, embodiments herein can provide as method, system or computer program Product.Therefore, complete hardware embodiment, complete software embodiment or implementation combining software and hardware aspects can be used in the application The form of example.Moreover, can be used can in the computer that one or more wherein includes computer usable program code by the application Read the form for the computer program product implemented on storage medium (including but not limited to magnetic disk storage and optical memory etc.).

The application is reference according to the method for the embodiment of the present application, the flow chart of equipment (system) and computer program product And/or block diagram describes.It should be understood that each process in flowchart and/or the block diagram can be realized by computer program instructions And/or the combination of the process and/or box in box and flowchart and/or the block diagram.It can provide these computer programs to refer to Enable the processor of general purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices to generate One machine so that by the instruction that the processor of computer or other programmable data processing devices executes generate for realizing The device for the function of being specified in one or more flows of the flowchart and/or one box or multiple boxes.

These computer program instructions, which may also be stored in, is able to guide computer or other programmable data processing devices with spy Determine in the computer readable storage medium that mode works, so that the instruction being stored in the computer readable storage medium generates packet The paper products of command device are included, which realizes in one side of one or more flows of the flowchart and/or block diagram The function of being specified in frame or multiple boxes.

These computer program instructions can also be loaded into computer or other programmable data processing devices, so that calculating On machine or other programmable devices execute series of operation steps to generate computer implemented processing, thus computer or its The instruction that executes on his section's programming device is provided for realizing in one or more flows of the flowchart and/or one, block diagram The step of function of being specified in box or multiple boxes.

The above is a preferred embodiment of the present invention, it is noted that for those skilled in the art For, without departing from the principles of the present invention, several improvements and modifications can also be made, these improvements and modifications It should be regarded as protection scope of the present invention.

Claims (34)

1. a kind of restoration methods of wave beam failure characterized by comprising
Physical Downlink Control Channel is monitored in the first control resource set, if detecting M for being used for transmission down control channel Wave beam failure occurs for effective wave beam, sends the request of wave beam failure recovery to network;Include in the wave beam failure recovery request: Wave occurs for the instruction information of at least one to be switched downlink wave beam of terminal selection and the instruction M effectively wave beam The instruction information of beam failure;M is the integer more than or equal to 1;
Physical Downlink Control Channel and at least one described to be switched downlink wave beam pair in configuration the second control resource set The downlink reference signal answered is the quasi- co-located QCL in space;
Use downlink reception wave beam corresponding with the downlink reference signal carries out under physics in the second control resource set The monitoring of row control channel.
2. the method according to claim 1, wherein it is described it is described second control resource set in use with it is described The step of corresponding downlink reception wave beam of downlink reference signal carries out the monitoring of Physical Downlink Control Channel, comprising:
After receiving the wave beam failure recovery response that network issues, use and the descending reference in the second control resource set The corresponding downlink reception wave beam of signal carries out the monitoring of Physical Downlink Control Channel.
3. method according to claim 1 or 2, which is characterized in that the method also includes:
Receive the configuration for the first control resource set that network side is sent and the configuration of the second control resource set;Alternatively,
The configuration for the default control resource set that network side is sent is received, the default control resource set is used as described first Control resource set and the second control resource set;
Wherein, the first control resource set is the set of the M corresponding physical downlink control channel resources of effective wave beam;It is described Second control resource set is the set for the physical downlink control channel resource restored for wave beam.
4. according to the method described in claim 3, it is characterized in that, the first control resource for receiving network side and sending The step of configuration of collection and the configuration of the second control resource set, comprising:
It receives network side and passes through semi-static signaling or dynamic signaling are sent the described first configuration and described for controlling resource set The configuration of two control resource sets;Alternatively,
The step of configuration for receiving the default control resource set that network side is sent, comprising:
Receive the default control resource set that network side is sent by semi-static signaling or dynamic signaling.
5. method according to claim 1 or 2, which is characterized in that under the physics in the second control of configuration resource set Row control channel and the corresponding downlink reference signal of at least one described to be switched downlink wave beam be the quasi- co-located QCL in space it Before, the method also includes:
Obtain the corresponding relationship of preconfigured to be switched downlink wave beam and downlink reference signal;
According to the corresponding relationship, determining downlink reference signal corresponding at least one described to be switched downlink wave beam.
6. method according to claim 1 or 2, which is characterized in that under the physics in the second control of configuration resource set Row control channel and the corresponding downlink reference signal of at least one described to be switched downlink wave beam are the quasi- co-located QCL in space Step, comprising:
The downlink reception beam configuration of the corresponding downlink reference signal of at least one described to be switched downlink wave beam will be received For the downlink reception wave beam for receiving the Physical Downlink Control Channel in the second control resource set.
7. method according to claim 1 or 2, which is characterized in that the method also includes:
It is stopped in the first control resource set in predetermined time and monitors the first Physical Downlink Control Channel.
8. the method according to the description of claim 7 is characterized in that the predetermined time are as follows:
After terminal determines that wave beam failure occurs for the M effective wave beams;Alternatively,
After terminal sends the wave beam failure recovery request to network;Alternatively,
Terminal is sent after the wave beam failure recovery requests and receive the wave beam failure recovery response that network issues to network.
9. the method according to the description of claim 7 is characterized in that first Physical Downlink Control Channel includes: public object Manage down control channel and/or dedicated Physical Downlink Control Channel;
Alternatively, first Physical Downlink Control Channel include: carry uplink Grant information Physical Downlink Control Channel and/or Carry the Physical Downlink Control Channel of downlink Grant information.
10. method according to claim 1 or 2, which is characterized in that the method also includes:
Continue to monitor the second Physical Downlink Control Channel in the first control resource set.
11. according to the method described in claim 10, it is characterized in that, second Physical Downlink Control Channel includes: public Physical Downlink Control Channel and/or dedicated Physical Downlink Control Channel;
Alternatively, second Physical Downlink Control Channel include: carry uplink Grant information Physical Downlink Control Channel and/or Carry the Physical Downlink Control Channel of downlink Grant information.
12. a kind of restoration methods of wave beam failure characterized by comprising
Receive the wave beam failure recovery request that terminal is sent;Include in the wave beam failure recovery request: terminal selects at least The M effectively wave beams that the instruction information of one to be switched downlink wave beam and instruction are used for transmission down control channel are sent out The instruction information of raw wave beam failure;M is the integer more than or equal to 1;
It is requested according to the wave beam failure recovery, selects at least one downlink wave from the to be switched downlink wave beam Shu Zuowei target downlink launching beam;
Resource set transmitting physical downlink channel control is controlled second using the target downlink launching beam of selection.
13. according to the method for claim 12, which is characterized in that the target downlink launching beam using selection Before the second control resource set transmitting physical downlink channel control, the method also includes:
The response of wave beam failure recovery is issued to terminal.
14. method according to claim 12 or 13, which is characterized in that the method also includes:
The configuration of the first control resource set and the configuration of the second control resource set are sent to terminal;Alternatively,
The configuration of a default control resource set is sent to terminal;Wherein, the default control resource set is used as the first control Resource set and the second control resource set;
Wherein, the first control resource set is the set of the M corresponding physical downlink control channel resources of effective wave beam;It is described Second control resource set is the set for the physical downlink control channel resource restored for wave beam.
15. according to the method for claim 14, which is characterized in that the configuration for sending the first control resource set to terminal With second control resource set configuration the step of, comprising:
Resource set is controlled to the configuration and second that terminal sends the first control resource set by semi-static signaling or dynamic signaling Configuration;Alternatively,
The step of configuration that a default control resource set is sent to terminal, comprising:
The default control resource set is sent to terminal by semi-static signaling or dynamic signaling.
16. a kind of recovery device of wave beam failure characterized by comprising
Request sending module is used for transmission for monitoring Physical Downlink Control Channel in the first control resource set if detecting Wave beam failure occurs for the effectively wave beam of M of down control channel, sends the request of wave beam failure recovery to network;The wave beam loses It loses in recovery request and includes: the instruction information and the instruction M of at least one to be switched downlink wave beam of terminal selection The instruction information of wave beam failure occurs for a effective wave beam;M is the integer more than or equal to 1;
Configuration module, for configure second control resource set in Physical Downlink Control Channel and it is described at least one it is to be switched under The corresponding downlink reference signal of row launching beam is the quasi- co-located QCL in space;
First monitoring modular, for being connect in the second control resource set using downlink corresponding with the downlink reference signal Receive the monitoring that wave beam carries out Physical Downlink Control Channel.
17. device according to claim 16, which is characterized in that first monitoring modular includes:
Submodule is monitored, after receiving the wave beam failure recovery response that network issues, is made in the second control resource set The monitoring of Physical Downlink Control Channel is carried out with downlink reception wave beam corresponding with the downlink reference signal.
18. device according to claim 16 or 17, which is characterized in that described device further include:
First control resource set configure receiving module, for receive network side transmission it is described first control resource set configuration and The configuration of the second control resource set;And/or
Second control resource set configures receiving module, the configuration of a default control resource set for receiving network side transmission, Wherein, the default control resource set is used as the first control resource set and the second control resource set;
Wherein, the first control resource set is the set of the M corresponding physical downlink control channel resources of effective wave beam;It is described Second control resource set is the set for the physical downlink control channel resource restored for wave beam.
19. device according to claim 18, which is characterized in that the first control resource set configures receiving module packet It includes:
First submodule, the first control resource set sent for receiving network side by semi-static signaling or dynamic signaling Configuration and it is described second control resource set configuration;And/or
The second control resource set configures receiving module and includes:
Second submodule, the default control resource sent for receiving network side by semi-static signaling or dynamic signaling Collection.
20. device according to claim 16 or 17, which is characterized in that described device further include:
Relation acquisition module, for obtaining, preconfigured to be switched downlink wave beam is corresponding with downlink reference signal to be closed System;
Reference signal determining module, for according to the corresponding relationship, determining and at least one described to be switched downlink wave The corresponding downlink reference signal of beam.
21. device according to claim 16 or 17, which is characterized in that the configuration module includes:
Submodule is configured, under the corresponding downlink reference signal of at least one to be switched downlink wave beam described in receiving Row receives wave beam and is configured to receive the downlink reception wave beam of the Physical Downlink Control Channel in the second control resource set.
22. device according to claim 16 or 17, which is characterized in that described device further include:
Stopping modular monitors the first physical down control letter for stopping in the first control resource set in predetermined time Road.
23. device according to claim 22, which is characterized in that the predetermined time are as follows:
After terminal determines that wave beam failure occurs for the M effective wave beams;Alternatively,
After terminal sends the wave beam failure recovery request to network;Alternatively,
Terminal is sent after the wave beam failure recovery requests and receive the wave beam failure recovery response that network issues to network.
24. device according to claim 22, which is characterized in that first Physical Downlink Control Channel includes: public Physical Downlink Control Channel and/or dedicated Physical Downlink Control Channel;
Alternatively, first Physical Downlink Control Channel include: carry uplink Grant information Physical Downlink Control Channel and/or Carry the Physical Downlink Control Channel of downlink Grant information.
25. device according to claim 16 or 17, which is characterized in that described device further include:
Second monitoring modular, for continuing to monitor the second Physical Downlink Control Channel in the first control resource set.
26. device according to claim 25, which is characterized in that second Physical Downlink Control Channel includes: public Physical Downlink Control Channel and/or dedicated Physical Downlink Control Channel;
Alternatively, second Physical Downlink Control Channel include: carry uplink Grant information Physical Downlink Control Channel and/or Carry the Physical Downlink Control Channel of downlink Grant information.
27. a kind of terminal, including memory, processor and it is stored on the memory and can runs on the processor Computer program;It is characterized in that, the processor performs the steps of when executing described program
Physical Downlink Control Channel is monitored in the first control resource set, if detecting M for being used for transmission down control channel Wave beam failure occurs for effective wave beam, sends the request of wave beam failure recovery to network;Include in the wave beam failure recovery request: Wave occurs for the instruction information of at least one to be switched downlink wave beam of terminal selection and the instruction M effectively wave beam The instruction information of beam failure;M is the integer more than or equal to 1;
Physical Downlink Control Channel and at least one described to be switched downlink wave beam pair in configuration the second control resource set The downlink reference signal answered is the quasi- co-located QCL in space;
Use downlink reception wave beam corresponding with the downlink reference signal carries out under physics in the second control resource set The monitoring of row control channel.
28. a kind of computer readable storage medium, is stored thereon with computer program, which is characterized in that the program is by processor It is performed the steps of when execution
Physical Downlink Control Channel is monitored in the first control resource set, if detecting M for being used for transmission down control channel Wave beam failure occurs for effective wave beam, sends the request of wave beam failure recovery to network;Include in the wave beam failure recovery request: Wave occurs for the instruction information of at least one to be switched downlink wave beam of terminal selection and the instruction M effectively wave beam The instruction information of beam failure;M is the integer more than or equal to 1;
Physical Downlink Control Channel and at least one described to be switched downlink wave beam pair in configuration the second control resource set The downlink reference signal answered is the quasi- co-located QCL in space;
Use downlink reception wave beam corresponding with the downlink reference signal carries out under physics in the second control resource set The monitoring of row control channel.
29. a kind of recovery device of wave beam failure characterized by comprising
Request receiving module, for receiving the wave beam failure recovery request of terminal transmission;It is wrapped in the wave beam failure recovery request Contain: the instruction information of at least one to be switched downlink wave beam of terminal selection and instruction are used for transmission down control channel M effectively wave beams the instruction information of wave beam unsuccessfully occurs;M is the integer more than or equal to 1;
Beam selection module is selected from the to be switched downlink wave beam for being requested according to the wave beam failure recovery At least one downlink wave beam is as target downlink launching beam;
Transmission module, for using the target downlink launching beam of selection to control the downlink control of resource set transmitting physical second Channel processed.
30. device according to claim 29, which is characterized in that described device further include:
Sending module is responded, for issuing the response of wave beam failure recovery to terminal.
31. the device according to claim 29 or 30, which is characterized in that described device further include:
First configuration module, for sending the configuration of the first control resource set and the configuration of the second control resource set to terminal;With/ Or,
Second configuration module, for sending the configuration of a default control resource set to terminal;Wherein, the default control resource Collection is used as the first control resource set and the second control resource set;
Wherein, the first control resource set is the set of the M corresponding physical downlink control channel resources of effective wave beam;It is described Second control resource set is the set for the physical downlink control channel resource restored for wave beam.
32. device according to claim 31, which is characterized in that first configuration module includes:
First configuration submodule, for sending the configuration of the first control resource set to terminal by semi-static signaling or dynamic signaling With the configuration of the second control resource set;And/or
Second configuration module includes:
Second configuration submodule, for sending the default control resource set to terminal by semi-static signaling or dynamic signaling.
33. a kind of network equipment, including memory, processor and it is stored on the memory and can transports on the processor Capable computer program;It is characterized in that, the processor performs the steps of when executing described program
Receive the wave beam failure recovery request that terminal is sent;Include in the wave beam failure recovery request: terminal selects at least The M effectively wave beams that the instruction information of one to be switched downlink wave beam and instruction are used for transmission down control channel are sent out The instruction information of raw wave beam failure;M is the integer more than or equal to 1;
It is requested according to the wave beam failure recovery, selects at least one downlink wave from the to be switched downlink wave beam Shu Zuowei target downlink launching beam;
Resource set transmitting physical downlink channel control is controlled second using the target downlink launching beam of selection.
34. a kind of computer readable storage medium, is stored thereon with computer program, which is characterized in that the program is by processor It is performed the steps of when execution
Receive the wave beam failure recovery request that terminal is sent;Include in the wave beam failure recovery request: terminal selects at least The M effectively wave beams that the instruction information of one to be switched downlink wave beam and instruction are used for transmission down control channel are sent out The instruction information of raw wave beam failure;M is the integer more than or equal to 1;
It is requested according to the wave beam failure recovery, selects at least one downlink wave from the to be switched downlink wave beam Shu Zuowei target downlink launching beam;
Resource set transmitting physical downlink channel control is controlled second using the target downlink launching beam of selection.
CN201710682088.3A 2017-08-10 2017-08-10 Restoration methods, device, terminal and the network equipment of wave beam failure CN109391405A (en)

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