CN109644459A

CN109644459A - Carrier wave awakening method and device

Info

Publication number: CN109644459A
Application number: CN201880002717.6A
Authority: CN
Inventors: 牟勤
Original assignee: Beijing Xiaomi Mobile Software Co Ltd
Current assignee: Beijing Xiaomi Mobile Software Co Ltd
Priority date: 2018-11-30
Filing date: 2018-11-30
Publication date: 2019-04-16
Also published as: WO2020107402A1

Abstract

The disclosure provides a kind of carrier wave awakening method and device, the method is used for network-side, the network-side is one main carrier unit PCC of terminal distribution and at least one secondary carrier cell S CC, and the terminal only wakes up the PCC when discontinuous reception DRX awakening phase starts comprehensively, which comprises one or more specified SCC for needing to wake up comprehensively are chosen from least one described SCC；The first information is generated, the first information is for characterizing the specified SCC；The first information is sent to terminal, so that the terminal wakes up the specified SCC according to the first information comprehensively.Therefore, the disclosure optimizes carrier wave wake-up mechanism, and avoids a large amount of invalid monitoring, also reduces power consumption.

Description

Carrier wave awakening method and device

Technical field

This disclosure relates to field of communication technology more particularly to a kind of carrier wave awakening method and device.

Background technique

In communication system of new generation, in order to optimize PDCCH (Physical Downlink Control Channel, object Manage down control channel) monitoring, introduce DRX (Discontinuous Reception discontinuous reception) mechanism.Wherein, DRX (Discontinuous Reception discontinuous reception) refers to that terminal ceases listening for channel in following period of time, thus Achieve the purpose that power saving.

In the related technology, CA (Carrier Aggregation, carrier wave polymerization) or DC (Dual connectivity, Dual link) in, network-side can be configured and be activated multiple CC (Component Carrier, carrier units) for terminal, and all CC All operated using identical DRX, i.e., when terminal in a dormant state when, all CC do not receive data；When terminal enters wake-up When state, all activated CC will be waken up to receive data.

But since all CC in the related technology are operated using identical DRX, this will will cause many invalid prisons It surveys, also wastes a large amount of power.

Summary of the invention

To overcome the problems in correlation technique, the embodiment of the present disclosure provides a kind of carrier wave awakening method and device.

According to the first aspect of the embodiments of the present disclosure, a kind of carrier wave awakening method is provided, the method is used for network-side, institute Stating network-side is one main carrier unit PCC of terminal distribution and at least one secondary carrier cell S CC, and the terminal is discontinuous The PCC is waken up comprehensively when receiving the starting of DRX awakening phase, which comprises

One or more specified SCC for needing to wake up comprehensively are chosen from least one described SCC；

The first information is generated, the first information is for characterizing the specified SCC；

The first information is sent to terminal so that the terminal according to the first information to the specified SCC into Row wakes up comprehensively.

Optionally, comprehensive wake up includes that the terminal opens radio frequency and starting physical downlink control channel PDCCH Monitoring.

It is optionally, described that the first information is sent to terminal, comprising:

It determines in DRX awakening phase starting, the terminal is directed to the corresponding RF of the specified SCC and is in closing shape State and the terminal are directed to the corresponding PDCCH monitoring of the specified SCC and are in close state；

The first information is sent to terminal according to the first specified transmission mode, the first specified transmission mode includes At least one of below:

It generates for carrying the first SCC wake-up signal of the first information, and sends described first on the PCC SCC wake-up signal；

The wake-up PDCCH for carrying the first information is generated, and sends the wake-up PDCCH on the PCC；

Increase the SCC for carrying the first information on PDCCH in the PCC for carrying out data dispatch to wake up Domain, and the PDCCH for being used to carry out data dispatch is sent on the PCC.

Optionally, the described first specified transmission mode further includes specified sending time, and the specified sending time is located at institute It states during PCC is in wake-up states.

Optionally, the first SCC wake-up signal includes ZC sequence, and for for one or more specified SCC.

Optionally, the wake-up PDCCH includes the corresponding wake-up of each SCC that the network-side is the terminal distribution Domain, the wake-up domain are first content, indicate that corresponding SCC needs are waken up；The wake-up domain is the second content, and instruction corresponds to SCC do not need to be waken up.

Optionally, it includes a wake-up domain that the SCC, which wakes up domain, and the wake-up domain is the terminal for the network-side All SCC of distribution；Or multiple wake-up domains, and each wake-up domain corresponds to a SCC.

It determines in DRX awakening phase starting, the terminal is directed to the corresponding RF of the specified SCC and is in opening state State and the terminal are directed to the corresponding PDCCH monitoring of the specified SCC and are in close state；

The first information is sent to terminal according to the second specified transmission mode, the second specified transmission mode includes At least one of below:

Increase the SCC for carrying the first information on PDCCH in the PCC for carrying out data dispatch to wake up Domain, and the PDCCH for being used to carry out data dispatch is sent on the PCC；

The 2nd SCC wake-up signal for carrying the first information is generated, and in the first information for characterization The 2nd SCC wake-up signal is sent on the specified SCC, the different specified SCC has corresponding described second SCC wake-up signal.

Determine in DRX awakening phase starting, the terminal be directed to the specified corresponding RF of SCC be in close state, And the terminal is directed to the corresponding PDCCH monitoring of the specified SCC and is in starting state；

Specify transmission mode that the first information is sent to terminal according to third, the specified transmission mode of the third includes Cross-carrier scheduling mode.

Optionally, the cross-carrier scheduling mode includes sending out on the PCC for the scheduling PDCCH of the specified SCC It send, the first information is the PDCCH that data dispatch is carried out to the specified SCC.

According to the second aspect of an embodiment of the present disclosure, a kind of carrier wave awakening method is provided, the method is used for terminal, network End is one main carrier unit PCC of the terminal distribution and at least one secondary carrier cell S CC, which comprises

In the starting of discontinuous reception DRX awakening phase, the PCC is waken up comprehensively；

Receive the first information that the network-side is sent, the first information for characterize the network-side from it is described to The specified SCC that the one or more chosen in a few SCC needs to wake up comprehensively；

The specified SCC is waken up comprehensively according to the first information.

Optionally, the first information is that the network-side according to the first specified transmission mode is sent to terminal, described First specified transmission mode includes at least one of the following:

The network-side generates the first SCC wake-up signal for carrying the first information, and sends on the PCC The first SCC wake-up signal；

The network-side generates the wake-up PDCCH for carrying the first information, and calls out described in transmission on the PCC Wake up PDCCH；

The network-side increases on the PDCCH in the PCC for carrying out data dispatch for carrying first letter The SCC of breath wakes up domain, and the PDCCH for being used to carry out data dispatch is sent on the PCC；

It is described that the specified SCC is waken up comprehensively according to the first information, comprising:

The RF of the specified SCC is opened according to the first information and starts the PDCCH monitoring for the specified SCC.

Optionally, the first information is that the network-side according to the second specified transmission mode is sent to terminal, described Second specified transmission mode includes at least one of the following:

The network-side generates the 2nd SCC wake-up signal for carrying the first information, and in the first information The 2nd SCC wake-up signal is sent on the specified SCC of characterization, the different specified SCC has respectively corresponding The 2nd SCC wake-up signal；

PDCCH according to first information starting for the specified SCC is monitored.

Optionally, the first information is that the network-side according to third specifies transmission mode to be sent to terminal, described It includes cross-carrier scheduling mode that third, which specifies transmission mode, and the cross-carrier scheduling mode includes the network-side for the finger The scheduling PDCCH for determining SCC is sent on the PCC, and the first information is to carry out data dispatch to the specified SCC PDCCH；

It determines in DRX awakening phase starting, the terminal is directed to the corresponding RF of the specified SCC and is in closing shape It is in the open state that state and the terminal are directed to the corresponding PDCCH monitoring of the specified SCC；

The RF of the specified SCC is opened according to the first information.

According to the third aspect of an embodiment of the present disclosure, a kind of carrier wave Rouser is provided, described device is used for network-side, institute Stating network-side is one main carrier unit PCC of terminal distribution and at least one secondary carrier cell S CC, and the terminal is discontinuous The PCC is waken up comprehensively when receiving the starting of DRX awakening phase, described device includes:

Choose module, be configured as choosing from least one described SCC it is one or more need to wake up comprehensively it is specified SCC；

Generation module is configurable to generate the first information, and the first information is for characterizing the specified SCC；

Sending module is configured as the first information being sent to terminal, so that the terminal is according to first letter Breath wakes up the specified SCC comprehensively.

Optionally, the sending module includes:

First determines submodule, is configured to determine that the terminal is directed to the finger in DRX awakening phase starting Determine the corresponding RF of SCC be in close state and the terminal for the corresponding PDCCH monitoring of the specified SCC in closing shape State；

First sending submodule is configured as that the first information is sent to terminal according to the first specified transmission mode, The first specified transmission mode includes at least one of the following:

Optionally, the sending module includes:

Second determines submodule, is configured to determine that the terminal is directed to the finger in DRX awakening phase starting Determine that the corresponding RF of SCC is in the open state and the terminal is inactive for the corresponding PDCCH monitoring of the specified SCC；

Second sending submodule is configured as that the first information is sent to terminal according to the second specified transmission mode, The second specified transmission mode includes at least one of the following:

Optionally, the sending module includes:

Third determines submodule, is configured to determine that the terminal is directed to the finger in DRX awakening phase starting Determine that the corresponding RF of SCC is in close state and the terminal has been turned on for the corresponding PDCCH monitoring of the specified SCC；

Third sending submodule is configured as specifying transmission mode that the first information is sent to terminal according to third, It includes cross-carrier scheduling mode that the third, which specifies transmission mode,.

According to a fourth aspect of embodiments of the present disclosure, a kind of carrier wave Rouser is provided, described device is used for terminal, network End is one main carrier unit PCC of the terminal distribution and at least one secondary carrier cell S CC, and described device includes:

First wake-up module is configured as carrying out the PCC comprehensive when discontinuous reception DRX awakening phase starts It wakes up；

Receiving module is configured as receiving the first information that the network-side is sent, and the first information is for characterizing The specified SCC that the one or more that the network-side is chosen from least one described SCC needs to wake up comprehensively；

Second wake-up module is configured as waking up the specified SCC comprehensively according to the first information.

Second wake-up module includes:

First state submodule is configured to determine that the terminal is directed to the finger in DRX awakening phase starting Determine the corresponding RF of SCC be in close state and the terminal for the corresponding PDCCH monitoring of the specified SCC in closing shape State；

First wakes up submodule, is configured as opening the RF of the specified SCC according to the first information and starting is directed to The PDCCH of the specified SCC is monitored.

Second wake-up module includes:

Second state submodule is configured to determine that the terminal is directed to the finger in DRX awakening phase starting Determine that the corresponding RF of SCC is in the open state and the terminal for the corresponding PDCCH monitoring of the specified SCC in closing shape State；

Second wakes up submodule, is configured as starting the PDCCH prison for the specified SCC according to the first information It surveys.

Second wake-up module includes:

Third state submodule is configured to determine that the terminal is directed to the finger in DRX awakening phase starting Determine the corresponding RF of SCC be in close state and the terminal for the corresponding PDCCH monitoring of the specified SCC in opening state State；

Third wakes up submodule, is configured as opening the RF of the specified SCC according to the first information.

According to a fifth aspect of the embodiments of the present disclosure, a kind of non-provisional computer-readable recording mediums, the storage are provided Computer program is stored on medium, the computer program is used to execute the carrier wave awakening method that above-mentioned first aspect provides.

According to a sixth aspect of an embodiment of the present disclosure, a kind of non-provisional computer-readable recording mediums, the storage are provided Computer program is stored on medium, the computer program is used to execute the carrier wave awakening method that above-mentioned second aspect provides.

According to the 7th of the embodiment of the present disclosure the aspect, a kind of carrier wave Rouser is provided, described device is used for network-side, institute Stating network-side is one main carrier unit PCC of terminal distribution and at least one secondary carrier cell S CC, and the terminal is discontinuous The PCC is waken up comprehensively when receiving the starting of DRX awakening phase, described device includes:

Processor；

Memory for storage processor executable instruction；

Wherein, the processor is configured to:

According to the eighth aspect of the embodiment of the present disclosure, a kind of carrier wave Rouser is provided, described device is used for terminal, network End is one main carrier unit PCC of the terminal distribution and at least one secondary carrier cell S CC, and described device includes:

Processor；

Memory for storage processor executable instruction；

Wherein, the processor is configured to:

The technical scheme provided by this disclosed embodiment can include the following benefits:

Network-side can be one PCC of terminal distribution and at least one SCC in the embodiment of the present disclosure, can also be from least one One or more specified SCC for needing to wake up comprehensively are chosen in a SCC, and generate the first information, and the first information is for characterizing Specified SCC, and the first information is sent to terminal, such terminal only calls out PCC when DRX awakening phase starts comprehensively It wakes up, if receiving the first information, specified SCC can also be waken up according to the first information comprehensively, called out to optimize carrier wave The mechanism of waking up, and a large amount of invalid monitoring is avoided, also reduce power consumption.

Terminal can only wake up PCC comprehensively when DRX awakening phase starts in the embodiment of the present disclosure, if receiving To the first information, specified SCC can also be waken up comprehensively according to the first information, so that carrier wave wake-up mechanism is optimized, and A large amount of invalid monitoring is avoided, power consumption is also reduced.

It should be understood that above general description and following detailed description be only it is exemplary and explanatory, not The disclosure can be limited.

Detailed description of the invention

The drawings herein are incorporated into the specification and forms part of this specification, and shows and meets implementation of the invention Example, and be used to explain the principle of the present invention together with specification.

Fig. 1 is a kind of flow chart of carrier wave awakening method shown according to an exemplary embodiment；

Fig. 2 is a kind of application scenario diagram of carrier wave awakening method shown according to an exemplary embodiment；

Fig. 3 is the flow chart of another carrier wave awakening method shown according to an exemplary embodiment；

Fig. 4 is the flow chart of another carrier wave awakening method shown according to an exemplary embodiment；

Fig. 5 is the flow chart of another carrier wave awakening method shown according to an exemplary embodiment；

Fig. 6 is a kind of flow chart of carrier wave awakening method shown according to an exemplary embodiment；

Fig. 7 is a kind of block diagram of carrier wave Rouser shown according to an exemplary embodiment；

Fig. 8 is the block diagram of another carrier wave Rouser shown according to an exemplary embodiment；

Fig. 9 is the block diagram of another carrier wave Rouser shown according to an exemplary embodiment；

Figure 10 is the block diagram of another carrier wave Rouser shown according to an exemplary embodiment；

Figure 11 is a kind of block diagram of carrier wave Rouser shown according to an exemplary embodiment；

Figure 12 is the block diagram of another carrier wave Rouser shown according to an exemplary embodiment；

Figure 13 is the block diagram of another carrier wave Rouser shown according to an exemplary embodiment；

Figure 14 is the block diagram of another carrier wave Rouser shown according to an exemplary embodiment；

Figure 15 is a kind of structural schematic diagram of carrier wave Rouser shown according to an exemplary embodiment；

Figure 16 is a kind of structural schematic diagram of carrier wave Rouser shown according to an exemplary embodiment.

Specific embodiment

Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.Following description is related to When attached drawing, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Following exemplary embodiment Described in embodiment do not represent all embodiments consistented with the present invention.On the contrary, they be only with it is such as appended The example of device and method being described in detail in claims, some aspects of the invention are consistent.

It is only to be not intended to be limiting the disclosure merely for for the purpose of describing particular embodiments in the term that the disclosure uses. The "an" of the singular used in disclosure and the accompanying claims book, " described " and "the" are also intended to including majority Form, unless the context clearly indicates other meaning.It is also understood that term "and/or" used herein refers to and wraps It may be combined containing one or more associated any or all of project listed.

It will be appreciated that though various information, but this may be described using term first, second, third, etc. in the disclosure A little information should not necessarily be limited by these terms.These terms are only used to for same type of information being distinguished from each other out.For example, not departing from In the case where disclosure range, the first information can also be referred to as the second information, and similarly, the second information can also be referred to as One information.Depending on context, word as used in this " if " can be construed to " ... when " or " when ... When " or " in response to determination ".

Fig. 1 is a kind of flow chart of carrier wave awakening method shown according to an exemplary embodiment, and Fig. 2 is according to an example Property implement the application scenario diagram of a kind of carrier wave awakening method exemplified；The carrier wave awakening method can be used for network-side, such as: Base station in CA scene；For another example: macro station and small station in DC scene；The network-side is one PCC of terminal distribution (Primary Component Carrier, main carrier unit) and at least one SCC (Secondary Component Carrier, secondary carrier unit), and the terminal only wakes up the PCC when DRX awakening phase starts comprehensively；Such as figure Shown in 1, which may comprise steps of 110-130:

In step 110, one or more specified SCC for needing to wake up comprehensively are chosen from least one SCC.

In the embodiment of the present disclosure, network-side can be one PCC of terminal distribution and at least one SCC.Such as: 1 PCC and 4 A SCC.When waking up the starting of (on duration) stage in DRX, terminal can wake up PCC comprehensively automatically, without network-side Instruction.Also, it is all that network-side is configured in advance that the times such as (on duration) and suspend mode (sleep) are waken up in DRX, All terminals only need to wake up PCC or suspend mode under configured time mode.

When network-side needs terminal to wake up specified SCC comprehensively, such as: when subscriber traffic increase, only wake up comprehensively When PCC is not able to satisfy current traffic, network-side can choose one or more from all SCC for the terminal distribution at this time The specified SCC for needing to wake up comprehensively, and inform that terminal wakes up the specified SCC that these are selected comprehensively.Such as: network-side is terminal point 4 SCC are matched, have been SCC1, SCC2, SCC3, SCC4 respectively.Network-side when needing to specify SCC for terminal, can from SCC1, SCC2, SCC3, SCC4 choose one or more specified SCC for needing to wake up comprehensively, such as: the specified SCC selected includes SCC1 And SCC2.

In one embodiment, comprehensive wake-up may include that (Radio Frequency, is penetrated the terminal (1) unlatching RF Frequently it is monitored) with (2) starting PDCCH.It must satisfy above-mentioned (1) and (2) the two conditions that is, wake up comprehensively.

Such as: terminal wakes up PCC comprehensively, specifically: terminal opens the RF of PCC and starts the PDCCH for being directed to PCC Monitoring.For another example: terminal wakes up specified SCC comprehensively, specifically: terminal opens the RF of specified SCC and starting is directed to and refers to Determine the PDCCH monitoring of SCC.

In the step 120, the first information is generated, the first information is for characterizing specified SCC.

In the embodiment of the present disclosure, the specified SCC for needing to wake up comprehensively can be informed terminal by the first information by network-side.

In step 130, the first information is sent to terminal, so that terminal according to the first information carries out entirely specified SCC Face wakes up.

In the embodiment of the present disclosure, specified SCC is the SCC for needing terminal to be waken up comprehensively that network-side is selected.This is specified For SCC when DRX awakening phase starts, possible (1-1) terminal is in close state for the specified corresponding RF of SCC and terminal needle PDCCH monitoring corresponding to specified SCC is in close state；May also (1-2) terminal be directed to the specified corresponding RF of SCC and be in and open It opens state and terminal is directed to the corresponding PDCCH monitoring of specified SCC and is in close state；(1-3) terminal is also possible to for specified The corresponding RF of SCC is in close state and terminal is directed to and specifies the corresponding PDCCH monitoring of SCC in the open state, for these The first information can be sent to terminal using corresponding transmission method according to different situations by different situations, network-side.

Wherein, the specific implementation of above-mentioned (1-1) this situation is detailed in embodiment illustrated in fig. 3；Above-mentioned (1-2) this feelings The specific implementation of shape is detailed in embodiment illustrated in fig. 4.The specific implementation of above-mentioned (1-3) this situation is in detail as shown in Figure 5 Embodiment.

In application scenarios as shown in Figure 2, including terminal and base station.Base station is 1 PCC and 4 SCC of terminal distribution. Wherein, 4 SCC are SCC1, SCC2, SCC3, SCC4 respectively.Terminal only calls out PCC when DRX awakening phase starts comprehensively It wakes up.When only comprehensively wake up PCC be not able to satisfy business demand when, base station can from SCC1, SCC2, SCC3, SCC4 choose one or Multiple specified SCC for needing to wake up comprehensively, such as: the specified SCC selected includes SCC1 and SCC2, and generates the first information, should The first information is sent to terminal for characterizing SCC1 and SCC2, and by the first information, and such terminal can be according to the first letter Breath wakes up SCC1 and SCC2 comprehensively, i.e., terminal opens the RF of SCC1 and starting is directed to the PDCCH monitoring of SCC1, Yi Jikai The RF and starting for opening SCC2 are monitored for the PDCCH of SCC2.

As seen from the above-described embodiment, network-side can be one PCC of terminal distribution and at least one SCC, can also to One or more specified SCC for needing to wake up comprehensively are chosen in a few SCC, and generate the first information, which is used for Specified SCC is characterized, and the first information is sent to terminal, such terminal only carries out PCC when DRX awakening phase starts complete Face wakes up, if receiving the first information, can also be waken up comprehensively to specified SCC according to the first information, to optimize load Wave wake-up mechanism, and a large amount of invalid monitoring is avoided, also reduce power consumption.

Fig. 3 is the flow chart of another carrier wave awakening method shown according to an exemplary embodiment, the carrier wave wake-up side Method can be used for network-side, such as: the base station in CA scene；For another example: macro station and small station in DC scene；And it establishes in Fig. 1 On the basis of shown method, when executing step 130, as shown in figure 3, may comprise steps of 310-320:

In the step 310, determine that, in the starting of DRX awakening phase, terminal is in for the specified corresponding RF of SCC and closes shape State and terminal are directed to the corresponding PDCCH monitoring of specified SCC and are in close state.

In step 320, the first information is sent to terminal according to the first specified transmission mode.Wherein, the first specified biography Defeated mode can include but is not limited at least one of following:

(2-1) generates the first SCC wake-up signal for carrying the first information, and on the PCC described in transmission First SCC wake-up signal；

(2-2) is generated for carrying the wake-up PDCCH of the first information, and the wake-up is sent on the PCC PDCCH；

Increase on the PDCCH of (2-3) in the PCC for carrying out data dispatch for carrying the first information SCC wakes up domain, and the PDCCH for being used to carry out data dispatch is sent on the PCC.

In one embodiment, the first specified transmission mode in above-mentioned steps 320 can also include specified sending time, institute Specified sending time is stated to be located at during the PCC is in wake-up states.That is, waking up shape since terminal is in PCC State is received and sent messages, and is not received and sent messages in a dormant state in PCC, so, network-side can be in when sending the first information in PCC It is sent in a period of wake-up states.

In one embodiment, the first SCC wake-up signal in above-mentioned (2-1) may include ZC (Zadoff-Chu) sequence, And for for one or more specified SCC.That is, the first SCC wake-up signal is to be different from down control channel A kind of signal, network-side can send in a period of PCC is in wake-up states；Correspondingly, terminal can also be in PCC First SCC wake-up signal is monitored in a period of the wake-up states.If network-side needs to wake up specified SCC comprehensively, The network-side will send the first SCC wake-up signal；If network-side does not need to wake up the SCC comprehensively, which would not Send the first SCC wake-up signal.

In one embodiment, the wake-up PDCCH in above-mentioned (2-2) may include that the network-side is the terminal distribution The corresponding wake-up domain each SCC, the wake-up domain are first content, indicate that corresponding SCC needs are waken up；The wake-up domain is Second content indicates that corresponding SCC does not need to be waken up.It is different from carrying out data tune on PCC that is, waking up PDCCH The PDCCH of degree, also, the wake-up domain for each SCC is contained in wake-up PDCCH.For example, when the position in each domain (bit) when being set to 1, indicate that the corresponding SCC in this domain will be waken up.In addition, wake-up PDCCH can be in PCC wakes up shape It is sent in a period of state.It needs to send this if there is any one SCC to need to wake up at this time comprehensively and wakes up PDCCH；If not yet There is any SCC to need to wake up comprehensively, does not then send this and wake up PDCCH.

In one embodiment, it may include a wake-up domain that the SCC in above-mentioned (2-3), which wakes up domain, and the wake-up domain is directed to The network-side is all SCC of the terminal distribution；Or multiple wake-up domains, and each wake-up domain corresponds to a SCC.Also It is to say, if each wake-up domain corresponds to a SCC, if necessary to wake up SCC comprehensively, then corresponding wake-up domain can be set to spy Definite value.

As seen from the above-described embodiment, determining that, in the starting of DRX awakening phase, terminal is directed at the specified corresponding RF of SCC In closed state and terminal is for specifying the corresponding PDCCH monitoring of SCC to be in close state, can be according to the first specified transmission The first information is sent to terminal by mode, to improve the accuracy of first information transmission.

Fig. 4 is the flow chart of another carrier wave awakening method shown according to an exemplary embodiment, the carrier wave wake-up side Method can be used for network-side, such as: the base station in CA scene；For another example: macro station and small station in DC scene；And it establishes in Fig. 1 On the basis of shown method, when executing step 130, as shown in figure 4, may comprise steps of 410-420:

In step 410, determine that, in the starting of DRX awakening phase, terminal is directed to the specified corresponding RF of SCC and is in opening state State and terminal are directed to the corresponding PDCCH monitoring of specified SCC and are in close state.

At step 420, the first information is sent to terminal according to the second specified transmission mode.Wherein, the second specified biography Defeated mode can include but is not limited at least one of following:

(3-1) generates the first SCC wake-up signal for carrying the first information, and on the PCC described in transmission First SCC wake-up signal；

(3-2) is generated for carrying the wake-up PDCCH of the first information, and the wake-up is sent on the PCC PDCCH；

Increase on the PDCCH of (3-3) in the PCC for carrying out data dispatch for carrying the first information SCC wakes up domain, and the PDCCH for being used to carry out data dispatch is sent on the PCC；

(3-4) generates the 2nd SCC wake-up signal for carrying the first information, and is used for table in the first information The 2nd SCC wake-up signal is sent on the specified SCC of sign, the different specified SCC has corresponding described 2nd SCC wake-up signal.

In one embodiment, the second specified transmission mode in above-mentioned steps 420 can also include specified sending time, institute Specified sending time is stated to be located at during the PCC is in wake-up states.That is, waking up shape since terminal is in PCC State is received and sent messages, and is not received and sent messages in a dormant state in PCC, so, network-side can be in when sending the first information in PCC It is sent in a period of wake-up states.

In one embodiment, the first SCC wake-up signal in above-mentioned (3-1) may include ZC (Zadoff-Chu) sequence, And for for one or more specified SCC.That is, the first SCC wake-up signal is to be different from down control channel A kind of signal, network-side can send in a period of PCC is in wake-up states；Correspondingly, terminal can also be in PCC First SCC wake-up signal is monitored in a period of the wake-up states.If network-side needs to wake up specified SCC comprehensively, The network-side will send the first SCC wake-up signal；If network-side does not need to wake up the SCC comprehensively, which would not Send the first SCC wake-up signal.

In one embodiment, the wake-up PDCCH in above-mentioned (3-2) may include that the network-side is the terminal distribution The corresponding wake-up domain each SCC, the wake-up domain are first content, indicate that corresponding SCC needs are waken up；The wake-up domain is Second content indicates that corresponding SCC does not need to be waken up.It is different from carrying out data tune on PCC that is, waking up PDCCH The PDCCH of degree, also, the wake-up domain for each SCC is contained in wake-up PDCCH.For example, when the position in each domain (bit) when being set to 1, indicate that the corresponding SCC in this domain will be waken up.In addition, wake-up PDCCH can be in PCC wakes up shape It is sent in a period of state.It needs to send this if there is any one SCC to need to wake up at this time comprehensively and wakes up PDCCH；If not yet There is any SCC to need to wake up comprehensively, does not then send this and wake up PDCCH.

In one embodiment, it may include a wake-up domain that the SCC in above-mentioned (3-3), which wakes up domain, and the wake-up domain is directed to The network-side is all SCC of the terminal distribution；Or multiple wake-up domains, and each wake-up domain corresponds to a SCC.Also It is to say, if each wake-up domain corresponds to a SCC, if necessary to wake up SCC comprehensively, then corresponding wake-up domain can be set to spy Definite value.

In one embodiment, the 2nd SCC wake-up signal in above-mentioned (3-4) be it is corresponding with specified SCC, it is different SCC corresponds to a 2nd SCC wake-up signal.Wherein, the 2nd SCC wake-up signal is be different from down control channel one Kind signal, can be ZC sequence or RS (Reference Signal, reference signal), for example, TRS (Tracking Reference Signal, track reference signal), CSI-RS (Channel-State Information Reference Signal, channel state information reference signals) etc..Also, since the specified corresponding RF of SCC is in the open state, so network End can send the 2nd SCC wake-up signal on specified SCC；Correspondingly, terminal can also be on specified SCC to second SCC wake-up signal is monitored.In addition, since each SCC corresponds to a 2nd SCC wake-up signal, so if network-side When needing to wake up some SCC comprehensively, which can send the corresponding 2nd SCC wake-up signal of the SCC；If network-side is not When needing to wake up the SCC comprehensively, which does not just have to send the corresponding 2nd SCC wake-up signal of the SCC.

As seen from the above-described embodiment, determining that, in the starting of DRX awakening phase, terminal is directed at the specified corresponding RF of SCC In open state and terminal is for specifying the corresponding PDCCH monitoring of SCC to be in close state, can be according to the second specified transmission The first information is sent to terminal by mode, to enrich the transmission mode of the first information, also improves the reliable of carrier wave wake-up Property.

Fig. 5 is the flow chart of another carrier wave awakening method shown according to an exemplary embodiment, the carrier wave wake-up side Method can be used for network-side, such as: the base station in CA scene；For another example: macro station and small station in DC scene；And it establishes in Fig. 1 On the basis of shown method, when executing step 130, as shown in figure 5, may comprise steps of 510-520:

In step 510, determine that, in the starting of DRX awakening phase, terminal is in for the specified corresponding RF of SCC and closes shape State and terminal are directed to the corresponding PDCCH monitoring of specified SCC and are in starting state.

In step 520, specify transmission mode that the first information is sent to terminal according to third.Wherein, third is specified passes Defeated mode may include cross-carrier scheduling mode.

In one embodiment, the cross-carrier scheduling mode in above-mentioned steps 520 may include the tune for the specified SCC Degree PDCCH is sent on the PCC, and the first information is the PDCCH that data dispatch is carried out to the specified SCC.Also It is to say, if desired wakes up comprehensively on some specified SCC, can be sent on PCC using cross-carrier scheduling mode specified for this The scheduling PDCCH of SCC.

Also, before specified SCC wake-up, the mode that cross-carrier scheduling can be used wakes up specified SCC, needs at this time certain Time remove to open the RF of the specified SCC, therefore in this case, specify PDCCH corresponding to SCC and scheduled data Between minimum scheduling delay biggish value, such as 10 milliseconds (ms) can be set.And after specified SCC is waken up, in order to more Minimum scheduling delay between PDCCH and scheduled data can be switched to lesser value, example at this time by high dispatching efficiency Such as 1 millisecond (ms).In addition, scheduling mode can also be automatically switched after specified SCC wakes up, for example, from original cross-carrier tune Degree is switched to same carrier wave scheduling.

As seen from the above-described embodiment, determining that, in the starting of DRX awakening phase, terminal is directed at the specified corresponding RF of SCC In closed state and terminal is for specifying the corresponding PDCCH monitoring of SCC to be in starting state, can transmit according to third is specified The first information is sent to terminal by mode, to ensure that the safe transmission of the first information, also improves the practical of carrier wave wake-up Property.

Fig. 6 is a kind of flow chart of carrier wave awakening method shown according to an exemplary embodiment, the carrier wave awakening method It can be used for terminal, such as: the terminal in CA scene；For another example: the terminal in DC scene；Network-side is the terminal distribution one A PCC and at least one SCC；As shown in fig. 6, the carrier wave awakening method may comprise steps of 610-630:

In step 610, when DRX awakening phase starts, only PCC is waken up comprehensively.

In the embodiment of the present disclosure, network-side can be one PCC of terminal distribution and at least one SCC.Such as: 1 PCC and 4 A SCC.When waking up the starting of (on duration) stage in DRX, terminal can wake up PCC comprehensively automatically.

In one embodiment, comprehensive wake-up in above-mentioned steps 610 may include that the terminal opens RF and starting PDCCH Monitoring.Such as: terminal wakes up PCC comprehensively, specifically: terminal opens the RF of PCC and starting is supervised for the PDCCH of PCC It surveys.

In step 620, the first information of network-side transmission is received, the first information is for characterizing network-side from least The specified SCC that the one or more chosen in one SCC needs to wake up comprehensively.

In act 630, specified SCC is waken up comprehensively according to the first information.

In the embodiment of the present disclosure, specified SCC is the SCC for needing terminal to be waken up comprehensively that network-side is selected.

The specified SCC is possibly including, but not limited to following three kinds of situations when DRX awakening phase starts:

Situation 1: terminal is in close state for the specified corresponding RF of SCC and terminal is directed to and specifies SCC corresponding PDCCH monitoring is in close state；

Situation 2: terminal is in the open state for the specified corresponding RF of SCC and terminal is directed to and specifies SCC corresponding PDCCH monitoring is in close state；

Situation 3: terminal is in close state for the specified corresponding RF of SCC and terminal is directed to and specifies SCC corresponding PDCCH monitoring is in the open state.

Since the first information can be sent to terminal using corresponding transmission method according to above-mentioned different situations by network-side.With This is corresponding, after terminal receives the first information, can also be waken up comprehensively according to different situations to specified SCC.

In one embodiment, for said circumstances 1, the first information is that the network-side is sent out according to the first specified transmission mode It send to terminal, the first specified transmission mode can include but is not limited at least one of following:

(4-1) described network-side generates the first SCC wake-up signal for carrying the first information, and in the PCC It is upper to send the first SCC wake-up signal；

(4-2) described network-side generates the wake-up PDCCH for carrying the first information, and sends on the PCC The wake-up PDCCH；

(4-3) described network-side is in the PCC for increase on the PDCCH of data dispatch for carrying described the The SCC of one information wakes up domain, and the PDCCH for being used to carry out data dispatch is sent on the PCC.

The content of above-mentioned (4-1) is identical as the content of above-mentioned (2-1), the content of the content of above-mentioned (4-2) and above-mentioned (2-2) Identical, the content of above-mentioned (4-3) is identical as the content of above-mentioned (2-3), repeats no more herein.

Correspondingly, terminal may include: when executing step 630

(5-1) is determined in DRX awakening phase starting, and the terminal is directed to the corresponding RF of the specified SCC and is in Closed state and the terminal are directed to the corresponding PDCCH monitoring of the specified SCC and are in close state；

(5-2) opens the RF of the specified SCC according to the first information and starts the PDCCH for the specified SCC Monitoring.

In one embodiment, for said circumstances 2, the first information is the network-side according to the second specified transmission side Formula is sent to terminal, and the second specified transmission mode can include but is not limited at least one of following:

(6-1) described network-side generates the first SCC wake-up signal for carrying the first information, and in the PCC It is upper to send the first SCC wake-up signal；

(6-2) described network-side generates the wake-up PDCCH for carrying the first information, and sends on the PCC The wake-up PDCCH；

(6-3) described network-side is in the PCC for increase on the PDCCH of data dispatch for carrying described the The SCC of one information wakes up domain, and the PDCCH for being used to carry out data dispatch is sent on the PCC；

(6-4) described network-side generates the 2nd SCC wake-up signal for carrying the first information, and described first Information sends the 2nd SCC wake-up signal on the specified SCC for characterization, the different specified SCC has respective The corresponding 2nd SCC wake-up signal；

The content of above-mentioned (6-1) is identical as the content of above-mentioned (3-1), the content of the content of above-mentioned (6-2) and above-mentioned (3-2) Identical, the content of above-mentioned (6-3) is identical as the content of above-mentioned (3-3), the content phase of the content of above-mentioned (6-4) and above-mentioned (3-4) Together, it repeats no more herein.

Correspondingly, terminal may include: when executing step 630

(7-1) is determined in DRX awakening phase starting, and the terminal is directed to the corresponding RF of the specified SCC and is in Open state and the terminal are directed to the corresponding PDCCH monitoring of the specified SCC and are in close state；

The PDCCH of (7-2) according to first information starting for the specified SCC is monitored.

In one embodiment, for said circumstances 3, the first information is the network-side according to the specified transmission side of third Formula is sent to terminal, and it includes cross-carrier scheduling mode that the third, which specifies transmission mode, and the cross-carrier scheduling mode includes The network-side is sent on the PCC for the scheduling PDCCH of the specified SCC, and the first information is to the finger Determine the PDCCH that SCC carries out data dispatch；

Correspondingly, terminal may include: when executing step 630

(8-1) is determined in DRX awakening phase starting, and the terminal is directed to the corresponding RF of the specified SCC and is in It is in the open state that closed state and the terminal are directed to the corresponding PDCCH monitoring of the specified SCC；

(8-2) opens the RF of the specified SCC according to the first information.

As seen from the above-described embodiment, when DRX awakening phase starts, only PCC can be waken up comprehensively, if receiving The first information can also according to the first information wake up specified SCC comprehensively, to optimize carrier wave wake-up mechanism, and be kept away Exempt from a large amount of invalid monitoring, also reduces power consumption.Especially, it is determining in DRX awakening phase starting, the terminal It is in close state for the corresponding RF of the specified SCC and the terminal is for the corresponding PDCCH monitoring of the specified SCC It is in close state, the RF that the specified SCC can be opened according to the first information and starting are for the specified SCC's PDCCH monitoring；And determining in DRX awakening phase starting, the terminal is directed to the corresponding RF of the specified SCC The in the open state and described terminal is directed to the corresponding PDCCH monitoring of the specified SCC and is in close state；And in determination In DRX awakening phase starting, the terminal is in close state for the corresponding RF of the specified SCC and the end End is in the open state for the corresponding PDCCH monitoring of the specified SCC, can be opened according to the first information described specified The RF of SCC, to improve the accuracy of carrier wave wake-up.

Corresponding with the embodiment of said carrier awakening method, the disclosure additionally provides the embodiment of carrier wave Rouser.

Fig. 7 is a kind of block diagram of carrier wave Rouser shown according to an exemplary embodiment, which can be used for net Network end, such as: the base station in CA scene；For another example: macro station and (Primary Component Carrier, master in DC scene Carrier units) and at least one SCC, and the terminal only wakes up the PCC when DRX awakening phase starts comprehensively； And for executing carrier wave awakening method shown in FIG. 1, as shown in fig. 7, the carrier wave Rouser may include:

Module 71 is chosen, is configured as choosing one or more fingers for needing to wake up comprehensively from least one described SCC Determine SCC；

Generation module 72 is configurable to generate the first information, and the first information is for characterizing the specified SCC；

Sending module 73 is configured as the first information being sent to terminal, so that the terminal is according to described first Information wakes up the specified SCC comprehensively.

In one embodiment, it establishes on the basis of Fig. 7 shown device, comprehensive wake up includes that the terminal opens radio frequency RF and starting PDCCH monitoring.

In one embodiment, it establishes on the basis of Fig. 7 shown device, as shown in figure 8, the sending module 73 can wrap It includes:

First determines submodule 81, is configured to determine that the terminal is for described in DRX awakening phase starting The specified corresponding RF of SCC is in close state and the terminal is directed to the corresponding PDCCH monitoring of the specified SCC in closing State；

First sending submodule 82 is configured as that the first information is sent to end according to the first specified transmission mode End, the first specified transmission mode include at least one of the following:

In one embodiment, it establishes on the basis of Fig. 8 shown device, the first specified transmission mode further includes specified hair Send the time, the specified sending time is located at during the PCC is in wake-up states.

In one embodiment, it establishes on the basis of Fig. 8 shown device, the first SCC wake-up signal includes ZC sequence, and is used for For one or more specified SCC.

In one embodiment, it establishes on the basis of Fig. 8 shown device, the wake-up PDCCH includes the network-side for institute The corresponding wake-up domain each SCC of terminal distribution is stated, the wake-up domain is first content, indicates that corresponding SCC needs are waken up； The wake-up domain is the second content, indicates that corresponding SCC does not need to be waken up.

In one embodiment, it establishes on the basis of Fig. 8 shown device, it includes a wake-up domain that the SCC, which wakes up domain, and should Wake up all SCCs of the domain for the network-side for the terminal distribution；Or multiple wake-up domains, and each wake-up domain corresponds to one A SCC.

In one embodiment, it establishes on the basis of Fig. 7 shown device, as shown in figure 9, the sending module 73 can wrap It includes:

Second determines submodule 91, is configured to determine that the terminal is for described in DRX awakening phase starting The specified corresponding RF of SCC is in the open state and the terminal is inactive for the corresponding PDCCH monitoring of the specified SCC；

Second sending submodule 92 is configured as that the first information is sent to end according to the second specified transmission mode End, the second specified transmission mode include at least one of the following:

In one embodiment, it establishes on the basis of Fig. 7 shown device, as shown in Figure 10, the sending module 73 can wrap It includes:

Third determines submodule 101, is configured to determine that the terminal is directed to institute in DRX awakening phase starting State that the corresponding RF of specified SCC is in close state and the terminal has been turned on for the corresponding PDCCH monitoring of the specified SCC；

Third sending submodule 102 is configured as specifying transmission mode that the first information is sent to end according to third End, it includes cross-carrier scheduling mode that the third, which specifies transmission mode,.

In one embodiment, it establishes on the basis of Figure 10 shown device, the cross-carrier scheduling mode includes for described The scheduling PDCCH of specified SCC is sent on the PCC, and the first information is to carry out data dispatch to the specified SCC PDCCH。

Figure 11 is a kind of block diagram of carrier wave Rouser shown according to an exemplary embodiment, which can To be used for terminal, such as: the terminal in CA scene；For another example: the terminal in DC scene；Network-side is the terminal distribution one PCC and at least one SCC；And for executing carrier wave awakening method shown in fig. 6, as shown in figure 11, which can To include:

First wake-up module 111 is configured as only carrying out the PCC when discontinuous reception DRX awakening phase starts It wakes up comprehensively；

Receiving module 112 is configured as receiving the first information that the network-side is sent, and the first information is used for table Levy the specified SCC that the one or more that the network-side is chosen from least one described SCC needs to wake up comprehensively；

Second wake-up module 113 is configured as waking up the specified SCC comprehensively according to the first information.

As seen from the above-described embodiment, when DRX awakening phase starts, only PCC can be waken up comprehensively, if receiving The first information can also according to the first information wake up specified SCC comprehensively, to optimize carrier wave wake-up mechanism, and be kept away Exempt from a large amount of invalid monitoring, also reduces power consumption.

In one embodiment, it establishes on the basis of Figure 11 shown device, comprehensive wake up includes that terminal unlatching is penetrated Frequency RF and starting physical downlink control channel PDCCH monitoring.

In one embodiment, it establishes on the basis of Figure 11 shown device, the first information is the network-side according to One specified transmission mode is sent to terminal, and the first specified transmission mode includes at least one of the following:

As shown in figure 12, second wake-up module 113 may include:

First state submodule 121 is configured to determine that the terminal is directed to institute in DRX awakening phase starting State the corresponding RF of specified SCC be in close state and the terminal for the corresponding PDCCH monitoring of the specified SCC in closing Closed state；

First wakes up submodule 122, is configured as opening the RF of the specified SCC and starting needle according to the first information PDCCH monitoring to the specified SCC.

In one embodiment, it establishes on the basis of Figure 11 shown device, the first information is the network-side according to Two specified transmission modes are sent to terminal, and the second specified transmission mode includes at least one of the following:

As shown in figure 13, second wake-up module 113 may include:

Second state submodule 131 is configured to determine that the terminal is directed to institute in DRX awakening phase starting State that the corresponding RF of specified SCC is in the open state and the terminal for the corresponding PDCCH monitoring of the specified SCC in closing Closed state；

Second wakes up submodule 132, is configured as starting the PDCCH for being directed to the specified SCC according to the first information Monitoring.

In one embodiment, it establishes on the basis of Figure 11 shown device, the first information is the network-side according to Three specified transmission modes are sent to terminal, and it includes cross-carrier scheduling mode that the third, which specifies transmission mode, described cross-carrier Scheduling mode includes that the network-side is sent on the PCC for the scheduling PDCCH of the specified SCC, the first information The PDCCH of data dispatch is as carried out to the specified SCC；As shown in figure 14, second wake-up module 113 may include: Second wake-up module includes:

Third state submodule 141 is configured to determine that the terminal is directed to institute in DRX awakening phase starting State the corresponding RF of specified SCC be in close state and the terminal for the corresponding PDCCH monitoring of the specified SCC in opening Open state；

Third wakes up submodule 142, is configured as opening the RF of the specified SCC according to the first information.

As seen from the above-described embodiment, determining that, in DRX awakening phase starting, the terminal is for described specified The corresponding RF of SCC is in close state and the terminal is directed to the corresponding PDCCH monitoring of the specified SCC and is in close state, The RF and starting that the specified SCC can be opened according to the first information are monitored for the PDCCH of the specified SCC；And Determining in DRX awakening phase starting, the terminal it is in the open state for the corresponding RF of the specified SCC and The terminal is directed to the corresponding PDCCH monitoring of the specified SCC and is in close state；And rank is waken up in the DRX determining When Duan Qidong, the terminal is in close state for the corresponding RF of the specified SCC and the terminal is for described specified The corresponding PDCCH monitoring of SCC is in the open state, the RF of the specified SCC can be opened according to the first information, to mention The accuracy that high carrier wave wakes up.

For device embodiment, since it corresponds essentially to embodiment of the method, so related place is referring to method reality Apply the part explanation of example.The apparatus embodiments described above are merely exemplary, wherein above-mentioned be used as separation unit The unit of explanation may or may not be physically separated, and component shown as a unit can be or can also be with It is not physical unit, it can it is in one place, or may be distributed over multiple network units.It can be according to actual The purpose for needing to select some or all of the modules therein to realize disclosure scheme.Those of ordinary skill in the art are not paying Out in the case where creative work, it can understand and implement.

The disclosure additionally provides a kind of non-provisional computer-readable recording mediums, is stored with computer on the storage medium Program, the computer program are used to execute any carrier wave awakening method of above-mentioned Fig. 1 to Fig. 5.

The disclosure additionally provides a kind of non-provisional computer-readable recording mediums, is stored with computer on the storage medium Program, the computer program is for executing carrier wave awakening method described in above-mentioned Fig. 6.

The disclosure additionally provides a kind of carrier wave Rouser, and described device is used for network-side, and the network-side is terminal point With a PCC and at least one SCC, and the terminal only wakes up the PCC when DRX awakening phase starts comprehensively, Described device includes:

Processor；

Memory for storage processor executable instruction；

Wherein, the processor is configured to:

As shown in figure 15, Figure 15 is a kind of structural representation of carrier wave Rouser shown according to an exemplary embodiment Figure.Device 1500 may be provided as a base station.Referring to Fig.1 5, device 1500 includes processing component 1522, wireless transmission/reception Component 1524, antenna module 1526 and the distinctive signal processing of wireless interface, processing component 1522 can further comprise One or more processors.

One of processor in processing component 1522 can be configured as executing any of the above-described carrier wave Awakening method.

The disclosure additionally provides a kind of carrier wave Rouser, and described device is used for terminal, and network-side is the terminal distribution One PCC and at least one SCC, described device include:

Processor；

Memory for storage processor executable instruction；

Wherein, the processor is configured to:

In the starting of DRX awakening phase, only the PCC is waken up comprehensively；

Figure 16 is a kind of structural schematic diagram of carrier wave Rouser shown according to an exemplary embodiment.Such as Figure 16 institute Show, a kind of carrier wave Rouser 1600 shown according to an exemplary embodiment, which can be computer, mobile electricity Words, digital broadcasting terminal, messaging device, game console, tablet device, Medical Devices, body-building equipment, individual digital help The terminals such as reason.

Referring to Fig.1 6, device 1600 may include following one or more components: processing component 1601, memory 1602, Power supply module 1603, multimedia component 1604, audio component 1605, the interface 1606 of input/output (I/O), sensor module 1607 and communication component 1608.

The integrated operation of the usual control device 1600 of processing component 1601, such as with display, telephone call, data communication, Camera operation and record operate associated operation.Processing component 1601 may include one or more processors 1609 to execute Instruction, to perform all or part of the steps of the methods described above.In addition, processing component 1601 may include one or more moulds Block, convenient for the interaction between processing component 1601 and other components.For example, processing component 1601 may include multi-media module, To facilitate the interaction between multimedia component 1604 and processing component 1601.

Memory 1602 is configured as storing various types of data to support the operation in device 1600.These data Example includes the instruction of any application or method for operating on device 1600, contact data, telephone book data, Message, picture, video etc..Memory 1602 can by any kind of volatibility or non-volatile memory device or they Combination is realized, such as static random access memory (SRAM), electrically erasable programmable read-only memory (EEPROM), it is erasable can Program read-only memory (EPROM), programmable read only memory (PROM), read-only memory (ROM), magnetic memory, flash memory Reservoir, disk or CD.

Power supply module 1603 provides electric power for the various assemblies of device 1600.Power supply module 1603 may include power management System, one or more power supplys and other generates, managees, and distributes the associated component of electric power with for device 1600.

Multimedia component 1604 includes the screen of one output interface of offer between described device 1600 and user.? In some embodiments, screen may include liquid crystal display (LCD) and touch panel (TP).If screen includes touch panel, Screen may be implemented as touch screen, to receive input signal from the user.Touch panel includes that one or more touch passes Sensor is to sense the gesture on touch, slide, and touch panel.The touch sensor can not only sense touch or sliding is dynamic The boundary of work, but also detect duration and pressure associated with the touch or slide operation.In some embodiments, more Media component 1604 includes a front camera and/or rear camera.When device 1600 is in operation mode, as shot mould When formula or video mode, front camera and/or rear camera can receive external multi-medium data.Each preposition camera shooting Head and rear camera can be a fixed optical lens system or have focusing and optical zoom capabilities.

Audio component 1605 is configured as output and/or input audio signal.For example, audio component 1605 includes a wheat Gram wind (MIC), when device 1600 is in operation mode, when such as call mode, recording mode, and voice recognition mode, microphone quilt It is configured to receive external audio signal.The received audio signal can be further stored in memory 1602 or via communication Component 1608 is sent.In some embodiments, audio component 1605 further includes a loudspeaker, is used for output audio signal.

I/O interface 1606 provides interface, above-mentioned peripheral interface module between processing component 1601 and peripheral interface module It can be keyboard, click wheel, button etc..These buttons may include, but are not limited to: home button, volume button, start button and Locking press button.

Sensor module 1607 includes one or more sensors, and the state for providing various aspects for device 1600 is commented Estimate.For example, sensor module 1607 can detecte the state that opens/closes of device 1600, the relative positioning of component, such as institute The display and keypad that component is device 1600 are stated, sensor module 1607 can be with detection device 1600 or device 1,600 1 The position change of a component, the existence or non-existence that user contacts with device 1600,1600 orientation of device or acceleration/deceleration and dress Set 1600 temperature change.Sensor module 1607 may include proximity sensor, be configured in not any physics It is detected the presence of nearby objects when contact.Sensor module 1607 can also include optical sensor, as CMOS or ccd image are sensed Device, for being used in imaging applications.In some embodiments, which can also include acceleration sensing Device, gyro sensor, Magnetic Sensor, pressure sensor or temperature sensor.

Communication component 1608 is configured to facilitate the communication of wired or wireless way between device 1600 and other equipment.Dress The wireless network based on communication standard, such as WiFi can be accessed by setting 1600,2G or 3G or their combination.It is exemplary at one In embodiment, communication component 1608 receives broadcast singal or broadcast correlation from external broadcasting management system via broadcast channel Information.In one exemplary embodiment, the communication component 1608 further includes near-field communication (NFC) module, to promote short distance Communication.For example, radio frequency identification (RFID) technology, Infrared Data Association (IrDA) technology, ultra wide band can be based in NFC module (UWB) technology, bluetooth (BT) technology and other technologies are realized.

In the exemplary embodiment, device 1600 can be by one or more application specific integrated circuit (ASIC), number Signal processor (DSP), digital signal processing appts (DSPD), programmable logic device (PLD), field programmable gate array (FPGA), controller, microcontroller, microprocessor or other electron component are realized, for executing the above method.

In the exemplary embodiment, a kind of non-transitorycomputer readable storage medium including instruction, example are additionally provided It such as include the memory 1602 of instruction, above-metioned instruction can be executed by the processor 1609 of device 1600 to complete the above method.Example Such as, the non-transitorycomputer readable storage medium can be ROM, random access memory (RAM), CD-ROM, tape, soft Disk and optical data storage devices etc..

Wherein, when the instruction in the storage medium is executed by the processor, so that device 1600 is able to carry out State any carrier wave awakening method.

Those skilled in the art will readily occur to its of the disclosure after considering specification and practicing disclosure disclosed herein Its embodiment.This application is intended to cover any variations, uses, or adaptations of the disclosure, these modifications, purposes or Person's adaptive change follows the general principles of this disclosure and including the undocumented common knowledge in the art of the disclosure Or conventional techniques.The description and examples are only to be considered as illustrative, and the true scope and spirit of the disclosure are by following Claim is pointed out.

It should be understood that the present disclosure is not limited to the precise structures that have been described above and shown in the drawings, and And various modifications and changes may be made without departing from the scope thereof.The scope of the present disclosure is only limited by the accompanying claims.

Claims

1. a kind of carrier wave awakening method, which is characterized in that the method is used for network-side, and the network-side is terminal distribution one Main carrier unit PCC and at least one secondary carrier cell S CC, and the terminal is when discontinuous reception DRX awakening phase starts The PCC is waken up comprehensively, which comprises

The first information is sent to terminal, so that the terminal carries out entirely the specified SCC according to the first information Face wakes up.

2. the method according to claim 1, wherein it is described it is comprehensive wake up include the terminal open radio frequency and Start physical downlink control channel PDCCH monitoring.

3. the method according to claim 1, wherein described be sent to terminal for the first information, comprising:

It determines in DRX awakening phase starting, the terminal is in close state for the corresponding RF of the specified SCC, And the terminal is directed to the corresponding PDCCH monitoring of the specified SCC and is in close state；

The first information is sent to terminal according to the first specified transmission mode, the first specified transmission mode includes following At least one of:

The first SCC wake-up signal for carrying the first information is generated, and sends the first SCC on the PCC and calls out Awake signal；

Increase the SCC for carrying the first information on PDCCH in the PCC for carrying out data dispatch and wake up domain, And it is sent on the PCC described for carrying out the PDCCH of data dispatch.

4. according to the method described in claim 3, it is characterized in that, when the first specified transmission mode further includes specified sends Between, the specified sending time is located at during the PCC is in wake-up states.

5. according to the method described in claim 3, it is characterized in that, the first SCC wake-up signal includes ZC sequence, and being used for For one or more specified SCC.

6. according to the method described in claim 3, it is characterized in that, it is the end that the wake-up PDCCH, which includes the network-side, The corresponding wake-up domain each SCC of distribution is held, the wake-up domain is first content, indicates that corresponding SCC needs are waken up；It is described Wake-up domain is the second content, indicates that corresponding SCC does not need to be waken up.

7. according to the method described in claim 3, it is characterized in that, the SCC, which wakes up domain, includes a wake-up domain, and the wake-up Domain is all SCC of the terminal distribution for the network-side；Or multiple wake-up domains, and each wake-up domain corresponds to one SCC。

8. the method according to claim 1, wherein described be sent to terminal for the first information, comprising:

It determines in DRX awakening phase starting, the terminal is in the open state for the corresponding RF of the specified SCC, And the terminal is directed to the corresponding PDCCH monitoring of the specified SCC and is in close state；

The first information is sent to terminal according to the second specified transmission mode, the second specified transmission mode includes following At least one of:

Increase the SCC for carrying the first information on PDCCH in the PCC for carrying out data dispatch and wake up domain, And it is sent on the PCC described for carrying out the PDCCH of data dispatch；

The 2nd SCC wake-up signal for carrying the first information is generated, and in the first information for described in characterization The 2nd SCC wake-up signal is sent on specified SCC, there is the different specified SCC corresponding 2nd SCC to call out Awake signal.

9. the method according to claim 1, wherein described be sent to terminal for the first information, comprising:

Determine that, in DRX awakening phase starting, the terminal is in close state for the specified corresponding RF of SCC and institute It states terminal and is directed to the corresponding PDCCH monitoring of the specified SCC in starting state；

Specify transmission mode that the first information is sent to terminal according to third, it includes across load that the third, which specifies transmission mode, Wave scheduling mode.

10. according to the method described in claim 9, it is characterized in that, the cross-carrier scheduling mode includes for described specified The scheduling PDCCH of SCC is sent on the PCC, and the first information is to carry out data dispatch to the specified SCC PDCCH。

11. a kind of carrier wave awakening method, which is characterized in that the method is used for terminal, and network-side is the terminal distribution one Main carrier unit PCC and at least one secondary carrier cell S CC, which comprises

The first information that the network-side is sent is received, the first information is for characterizing the network-side from described at least one The specified SCC that the one or more chosen in a SCC needs to wake up comprehensively；

12. according to the method for claim 11, which is characterized in that comprehensive wake up includes that the terminal opens radio frequency With starting physical downlink control channel PDCCH monitoring.

13. according to the method for claim 11, which is characterized in that the first information is that the network-side refers to according to first Determine transmission mode and be sent to terminal, the first specified transmission mode includes at least one of the following:

The network-side generates the first SCC wake-up signal for carrying the first information, and on the PCC described in transmission First SCC wake-up signal；

The network-side is generated for carrying the wake-up PDCCH of the first information, and the wake-up is sent on the PCC PDCCH；

The network-side increases on the PDCCH in the PCC for carrying out data dispatch for carrying the first information SCC wakes up domain, and the PDCCH for being used to carry out data dispatch is sent on the PCC；

14. according to the method for claim 11, which is characterized in that the first information is that the network-side refers to according to second Determine transmission mode and be sent to terminal, the second specified transmission mode includes at least one of the following:

The network-side generates the 2nd SCC wake-up signal for carrying the first information, and is used in the first information The 2nd SCC wake-up signal is sent on the specified SCC of characterization, the different specified SCC has corresponding institute State the 2nd SCC wake-up signal；

15. according to the method for claim 11, which is characterized in that the first information is that the network-side refers to according to third Determine transmission mode and be sent to terminal, it includes cross-carrier scheduling mode that the third, which specifies transmission mode, the cross-carrier scheduling Mode includes that the network-side is sent on the PCC for the scheduling PDCCH of the specified SCC, and the first information is The PDCCH of data dispatch is carried out to the specified SCC；

It determines in DRX awakening phase starting, the terminal is in close state for the corresponding RF of the specified SCC, And the terminal is in the open state for the corresponding PDCCH monitoring of the specified SCC；

The RF of the specified SCC is opened according to the first information.

16. a kind of carrier wave Rouser, which is characterized in that described device is used for network-side, and the network-side is terminal distribution one A main carrier unit PCC and at least one secondary carrier cell S CC, and the terminal starts in discontinuous reception DRX awakening phase When the PCC is waken up comprehensively, described device includes:

Module is chosen, is configured as choosing one or more specified SCC for needing to wake up comprehensively from least one described SCC；

Sending module is configured as the first information being sent to terminal, so that the terminal is according to the first information pair The specified SCC is waken up comprehensively.

17. device according to claim 16, which is characterized in that comprehensive wake up includes that the terminal opens radio frequency With starting physical downlink control channel PDCCH monitoring.

18. device according to claim 16, which is characterized in that the sending module includes:

First determines submodule, is configured to determine that, in DRX awakening phase starting, the terminal is for described specified The corresponding RF of SCC is in close state and the terminal is directed to the corresponding PDCCH monitoring of the specified SCC and is in close state；

First sending submodule is configured as that the first information is sent to terminal according to the first specified transmission mode, described First specified transmission mode includes at least one of the following:

19. device according to claim 18, which is characterized in that the first specified transmission mode further includes specified transmission Time, the specified sending time are located at during the PCC is in wake-up states.

20. device according to claim 18, which is characterized in that the first SCC wake-up signal includes ZC sequence, and is used In for one or more specified SCC.

21. device according to claim 18, which is characterized in that it is described that the wake-up PDCCH, which includes the network-side, The corresponding wake-up domain each SCC of terminal distribution, the wake-up domain are first content, indicate that corresponding SCC needs are waken up；Institute Stating and waking up domain is the second content, indicates that corresponding SCC does not need to be waken up.

22. device according to claim 18, which is characterized in that it includes a wake-up domain that the SCC, which wakes up domain, and this is called out Wake up all SCCs of the domain for the network-side for the terminal distribution；Or multiple wake-up domains, and each wake-up domain corresponds to one SCC。

23. device according to claim 16, which is characterized in that the sending module includes:

Second determines submodule, is configured to determine that, in DRX awakening phase starting, the terminal is for described specified The corresponding RF of SCC is in the open state and the terminal is inactive for the corresponding PDCCH monitoring of the specified SCC；

Second sending submodule is configured as that the first information is sent to terminal according to the second specified transmission mode, described Second specified transmission mode includes at least one of the following:

24. device according to claim 16, which is characterized in that the sending module includes:

Third determines submodule, is configured to determine that, in DRX awakening phase starting, the terminal is for described specified The corresponding RF of SCC is in close state and the terminal is directed to the corresponding PDCCH monitoring of the specified SCC and has been turned on；

Third sending submodule is configured as specifying transmission mode that the first information is sent to terminal according to third, described It includes cross-carrier scheduling mode that third, which specifies transmission mode,.

25. device according to claim 24, which is characterized in that the cross-carrier scheduling mode includes for described specified The scheduling PDCCH of SCC is sent on the PCC, and the first information is to carry out data dispatch to the specified SCC PDCCH。

26. a kind of carrier wave Rouser, which is characterized in that described device is used for terminal, and network-side is the terminal distribution one Main carrier unit PCC and at least one secondary carrier cell S CC, described device include:

First wake-up module is configured as waking up the PCC comprehensively when discontinuous reception DRX awakening phase starts；

Receiving module is configured as receiving the first information that the network-side is sent, and the first information is described for characterizing The specified SCC that the one or more that network-side is chosen from least one described SCC needs to wake up comprehensively；

27. device according to claim 26, which is characterized in that comprehensive wake up includes that the terminal opens radio frequency With starting physical downlink control channel PDCCH monitoring.

28. device according to claim 26, which is characterized in that the first information is that the network-side refers to according to first Determine transmission mode and be sent to terminal, the first specified transmission mode includes at least one of the following:

Second wake-up module includes:

First state submodule is configured to determine that, in DRX awakening phase starting, the terminal is for described specified The corresponding RF of SCC is in close state and the terminal is directed to the corresponding PDCCH monitoring of the specified SCC and is in close state；

First wakes up submodule, is configured as opening the RF of the specified SCC and starting according to the first information for described The PDCCH monitoring of specified SCC.

29. device according to claim 26, which is characterized in that the first information is that the network-side refers to according to second Determine transmission mode and be sent to terminal, the second specified transmission mode includes at least one of the following:

Second wake-up module includes:

Second state submodule is configured to determine that, in DRX awakening phase starting, the terminal is for described specified The corresponding RF of SCC is in the open state and the terminal is in close state for the corresponding PDCCH monitoring of the specified SCC；

Second wakes up submodule, is configured as starting the PDCCH monitoring for the specified SCC according to the first information.

30. device according to claim 26, which is characterized in that the first information is that the network-side refers to according to third Determine transmission mode and be sent to terminal, it includes cross-carrier scheduling mode that the third, which specifies transmission mode, the cross-carrier scheduling Mode includes that the network-side is sent on the PCC for the scheduling PDCCH of the specified SCC, and the first information is The PDCCH of data dispatch is carried out to the specified SCC；

Second wake-up module includes:

Third state submodule is configured to determine that, in DRX awakening phase starting, the terminal is for described specified The corresponding RF of SCC is in close state and the terminal is in the open state for the corresponding PDCCH monitoring of the specified SCC；

31. a kind of non-provisional computer-readable recording mediums, it is stored with computer instruction on the storage medium, feature exists In the computer program is used to execute any carrier wave awakening method of the claims 1-10.

32. a kind of non-provisional computer-readable recording mediums, it is stored with computer instruction on the storage medium, feature exists In the computer program is used to execute any carrier wave awakening method of the claims 11-15.

33. a kind of carrier wave Rouser, which is characterized in that described device is used for network-side, and the network-side is terminal distribution one A main carrier unit PCC and at least one secondary carrier cell S CC, and the terminal starts in discontinuous reception DRX awakening phase When the PCC is waken up comprehensively, described device includes:

Processor；

Memory for storage processor executable instruction；

Wherein, the processor is configured to:

34. a kind of carrier wave Rouser, which is characterized in that described device is used for terminal, and network-side is the terminal distribution one Main carrier unit PCC and at least one secondary carrier cell S CC, described device include:

Processor；

Memory for storage processor executable instruction；

Wherein, the processor is configured to: