CN103368763B - The control method monitored and equipment - Google Patents

Abstract

The invention discloses a kind of control method and equipment of monitoring, the method comprises: local terminal obtains the second timer generated according to the first timer of timing information instruction, timing information is included in the first message sent by distant terminal equipment, and first timer is forbidden sending data to local terminal for controlling distant terminal equipment in the first timing cycle; Local terminal starts second timer and enters resting state; Local terminal, when the second timing cycle of second timer reaches, terminates resting state and monitors PDCCH.In the present invention, local terminal can wake up targetedly according to second timer, to receive the data that distant terminal equipment sends, because local terminal is without the need to carrying out channel-monitoring blindly, therefore, while meeting data transportation requirements, the power consumption of local terminal is reduced.

Description

The control method monitored and equipment

Technical field

The present invention relates to network communication technology field, particularly relate to control method and the equipment of monitoring.

Background technology

In a communications system, DRX (DiscontinuousReception, discontinuous reception) can be divided into IDLE (idle condition) DRX and ACTIVE (connection status) DRX.UE (UserEquipment, subscriber equipment), when IDLEDRX, is in resting state usually, but can paging cycle be set, at each paging cycle due in monitoring seek channel, if listen to paging, then access network communicates, otherwise keeps resting state; UE is when ACTIVEDRX, connected to the network, but still dormancy can be realized according to the cycle pre-set, different according to cycle length, LONGDRX (long DRX) and SHORTDRX (short DRX) can be divided into, monitor PDCCH (PhysicalDownlinkControlChannel at cycle due in, Physical Downlink Control Channel), if listened to schedule information, then complete communication according to this schedule information, otherwise continued to enter dormancy.

Internet of things is by disposing the various equipment with certain perception, calculating, execution and communication capacity, obtains the information of physical world, by real-time performance information transmission, associated treatment, thus realizes people and thing, network interconnected between thing and thing.Along with the development of internet of things, above-mentioned communication system and wherein by arranging the mode that DRX cycle carries out monitoring, has also progressively been applied in the middle of internet of things.It is few that internet of things has business, can tolerant of delay and the feature to sensitive power consumption, but according to DRX listening mode existing in said system, data receiver equipment (also referred to as local terminal) can only wake up according to DRX cycle, owing to not knowing that data sending terminal equipment (also referred to as distant terminal equipment) sends the time of data, therefore snoop procedure does not have specific aim, improves the power consumption of data receiver equipment.

Summary of the invention

Embodiments provide a kind of control method and equipment of monitoring, blindly, easily increase the problem of equipment power dissipation to solve snoop procedure when existing equipment is monitored according to DRX cycle.

In order to solve the problems of the technologies described above, the embodiment of the invention discloses following technical scheme:

A control method for monitoring, described method comprises:

Local terminal obtains the second timer generated according to the first timer of timing information instruction, described timing information is included in the first message sent by distant terminal equipment, and described first timer is forbidden sending data to described local terminal for controlling described distant terminal equipment in the first timing cycle;

Local terminal starts described second timer and enters resting state;

Local terminal, when the second timing cycle of described second timer reaches, terminates described resting state and monitors physical downlink control channel PDCCH.

A control appliance for monitoring, the control appliance of described monitoring, as the local terminal in local network, comprising:

Acquiring unit, for obtaining the second timer generated according to the first timer of timing information instruction, described timing information is included in the first message sent by distant terminal equipment, and described first timer is forbidden sending data to described local terminal for controlling described distant terminal equipment in the first timing cycle;

Start unit, for starting described second timer and entering resting state;

Monitoring unit, for when the second timing cycle of described second timer reaches, terminates described resting state and monitors physical downlink control channel PDCCH.

As can be seen from the above-described embodiment, after in the embodiment of the present invention, local terminal obtains the second timer generated according to the first timer of timing information instruction, start second timer and enter resting state, when the second timing cycle of second timer reaches, monitor PDCCH, wherein first timer is forbidden sending data to local terminal for controlling distant terminal equipment in the first timing cycle.The first timer that local terminal in the embodiment of the present invention can send according to distant terminal equipment obtains the second timer of local terminal, local terminal can be waken up targetedly according to second timer, to receive the data that distant terminal equipment sends, because local terminal is without the need to carrying out channel-monitoring blindly, therefore, while meeting data transportation requirements, the power consumption of local terminal is reduced.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, for those of ordinary skills, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the first embodiment flow chart of the control method that the present invention monitors;

Fig. 2 is the second embodiment flow chart of the control method that the present invention monitors;

Fig. 3 is the 3rd embodiment flow chart of the control method that the present invention monitors

Fig. 4 is the 4th embodiment flow chart of the control method that the present invention monitors;

Fig. 5 is the 5th embodiment flow chart of the control method that the present invention monitors;

Fig. 6 is the first embodiment block diagram of the control appliance that the present invention monitors;

Fig. 7 is the second embodiment block diagram of the control appliance that the present invention monitors;

Fig. 8 is the 3rd embodiment block diagram of the control appliance that the present invention monitors.

Embodiment

The following embodiment of the present invention provides a kind of control method and equipment of monitoring.

Technical scheme in the embodiment of the present invention is understood better in order to make those skilled in the art person, and enable the above-mentioned purpose of the embodiment of the present invention, feature and advantage become apparent more, below in conjunction with accompanying drawing, technical scheme in the embodiment of the present invention is described in further detail.

See Fig. 1, the first embodiment flow chart for the control method that the present invention monitors:

Step 101: local terminal obtains the second timer generated according to the first timer of timing information instruction, wherein timing information is included in the first message sent by distant terminal equipment, and first timer is forbidden sending data to local terminal for controlling distant terminal equipment in the first timing cycle.

Local terminal obtains the second timer generated according to first timer can specifically in the following way: local terminal can receive the first message comprising timing information sent by distant terminal equipment, the first timing cycle generation second timer of the first timer that local terminal indicate according to timing information.Wherein, local terminal can receive first message that comprises timing information of distant terminal equipment by the local network transparent transmission at local terminal place; Or local terminal also can receive the first message comprising timing information that distant terminal equipment is forwarded by the local network device in the local network at local terminal place, local network device in the local network at local terminal place receive distant terminal equipment send comprise the first message of timing information after, this network equipment may process this first message and be forwarded to local terminal again, and the first message that namely local terminal receives can not be the first message of the original transmission of distant terminal equipment.

Local terminal obtains the second timer generated according to first timer also can specifically in the following way: local terminal receives the timing information of the second timer sent by the local network device in the local network of local terminal place, this second timer is by local network device after receiving the first message sent by distant terminal equipment, and the first timer according to the timing information instruction comprised in the first message generates.Wherein, local network device can receive first message that comprises timing information of distant terminal equipment by local network transparent transmission; Or local network device also can receive the first message comprising timing information that distant terminal equipment is forwarded by local terminal, local terminal receive distant terminal equipment send comprise the first message of timing information after, this local terminal may process the local network device in the local network being forwarded to local terminal place again to this first message, the first message that namely local network device receives can not be the first message of the original transmission of distant terminal equipment.

Step 102: local terminal starts second timer and enters resting state.

Concrete, local terminal when getting second timer, can start second timer at once; Or, when local terminal also can get second timer, after default millisecond, start second timer; Or, when local terminal also can get second timer, after the PDCCH subframe of predetermined number, start second timer; Or, when local terminal also can get second timer, after completing predeterminable event, start second timer.

Step 103: local terminal, when the second timing cycle of described second timer reaches, terminates resting state and monitors PDCCH.

As seen from the above-described embodiment, due to the second timer of the first timer acquisition local terminal that local terminal can send according to distant terminal equipment, local terminal can be waken up targetedly according to second timer, to receive the data that distant terminal equipment sends, because local terminal is without the need to carrying out channel-monitoring blindly, therefore, while meeting data transportation requirements, the power consumption of local terminal is reduced.When generating second timer, the second timing cycle of second timer can be set to be less than the first timing cycle equaling first timer.When the second timing cycle is less than the first timing cycle, before the first timing cycle reaches, the second timing cycle FEFO, local terminal can be monitored PDCCH by pre-cooling.

Be described below in conjunction with the control method embodiment of application example flow process to monitoring of the present invention, wherein communicating pair is called local terminal and distant terminal equipment, wherein, the network at local terminal place is local network, local network comprises local network device, the network at distant terminal equipment place is correspondent network, and correspondent network comprises peer network device; Above-mentioned peer network device and the local terminal network equipment can be specially MME (MobileManagementEquipment, mobile management entity) or eNB (EvolutedNodeB, evolution base station).Wherein, first timer is called timer drxNoTransmissionTimer, and second timer is called timer drxNoMonitorTimer.

See Fig. 2, for the second embodiment flow chart of the control method that the present invention monitors, in this embodiment, distant terminal equipment sends to local terminal timer drxNoTransmissionTimer, local terminal sends to local network device timer drxNoTransmissionTimer, generates timer drxNoMonitorTimer by local network device according to timer drxNoTransmissionTimer:

Step 201: distant terminal device definition timer drxNoTransmissionTimer, within the time cycle that timer drxNoTransmissionTimer defines, distant terminal equipment can not send data to local terminal.

Step 202: timer drxNoTransmissionTimer is transparent to local terminal through correspondent network and local network by distant terminal equipment.

In the present embodiment, transparent transmission refers to that timer drxNoTransmissionTimer is directly transferred to local terminal without local network device decoding, this is because the not responsible application layer data of some network equipment possibility, therefore when timer drxNoTransmissionTimer be included in transmit in application layer messages time, then these network equipments can not be decoded to application layer messages, and only this application layer messages are forwarded to local terminal.The message that local network device forwards then can comprise local network device information newly-increased in former message.

Step 203: timer drxNoTransmissionTimer is transmitted to local network device by local terminal.

Local network device comprises MME, or eNB.Wherein, when being applied to the IDLEDRX of local terminal, timer drxNoTransmissionTimer is sent to MME, when being applied to the ACTIVEDRX of local terminal, timer drxNoTransmissionTimer is sent to eNB.

Step 204: local network device generates timer drxNoMonitorTimer according to timer drxNoTransmissionTimer.

In the present embodiment, when local terminal is in resting state, the data that distant terminal equipment sends all will be stored by local network device, when waiting for that local terminal wakes up, then by local network device, the data of storage be sent to local terminal.If timing after the network from the data of distant terminal equipment transmission to local terminal place, to local terminal is waken up, so this time is longer, the required distant terminal equipment stored of network at local terminal place is more to the data of local terminal, requires also larger to its memory space.Therefore, in the present embodiment, a kind of method according to drxNoTransmissionTime generation drxNoMonitorTimer can be provided as follows: local network device can according to the storage capacity S of oneself, a timer adjusted value T is set, wherein T=f (S), T minimum value is 0, and current local network device residue storage capacity S is less, then T is larger; Otherwise current local network device residue storage capacity S is larger, then T is less, can obtain thus, drxNoMonitorTimer=drxNoTransmissionTimer-T.

Within the time cycle that timer drxNoMonitorTimer defines, local network device can not send paging or PDCCH scheduling to local terminal; If there are the data of local terminal to need to send, then buffer memory carried out to these data, again these data are sent to local terminal when the time cycle of timer drxNoMonitorTimer arrives.

Step 205: timer drxNoMonitorTimer is sent to local terminal by local network device.

Step 206: after local terminal receives timer drxNoMonitorTimer, sends to local network device and confirms.

It should be noted that, this step 206 is the optional step of the present embodiment.

Step 207: local network device starts timer drxNoMonitorTimer, and paging or PDCCH scheduling is not sent to local terminal within the time cycle that timer drxNoMonitorTimer defines.

Local network device can start this timer in the suitable time.In this step, the suitable time can be adopted and be determined in two ways, one is time triggering mode, namely can be set in after generating timer drxNoMonitorTimer, start timer immediately, or after default millisecond, start timer, or after generating timer drxNoMonitorTimer preset a PDCCH subframe after start timer; Another kind is event triggered fashion, namely can start timer after completing predeterminable event, such as, start timer by after the transfer of data in current cache.

Step 208: local terminal starts timer drxNoMonitorTimer and enters resting state.

Local terminal after receiving timer drxNoMonitorTimer, can start timer drxNoMonitorTimer in the suitable time, and enters resting state.

In this step, the suitable time also can be adopted and be determined in two ways, one is time triggering mode, namely can be set in after receiving timer drxNoMonitorTimer, start timer immediately, or after default millisecond, start timer, or after receiving timer drxNoMonitorTimer preset a PDCCH subframe after start timer; Another kind is event triggered fashion, namely can start timer after completing predeterminable event.Predeterminable event can be one or more tasks of needing local terminal to perform.

Step 209: local terminal, when the time cycle of timer drxNoMonitorTimer arrives, wakes up and monitoring seek channel or PDCCH channel from resting state.

See Fig. 3, for the 3rd embodiment flow chart of the control method that the present invention monitors, in this embodiment, distant terminal equipment sends to local terminal timer drxNoTransmissionTimer, and local terminal generates timer drxNoMonitorTimer according to timer drxNoTransmissionTimer:

Step 301: distant terminal device definition timer drxNoTransmissionTimer, within the time cycle that timer drxNoTransmissionTimer defines, distant terminal equipment can not send data to local terminal.

Step 302: timer drxNoTransmissionTimer is transparent to local terminal through correspondent network and local network by distant terminal equipment.

In the present embodiment, transparent transmission refers to that timer drxNoTransmissionTimer is directly transferred to local terminal without local network device decoding, this is because the not responsible application layer data of some network equipment possibility, therefore when timer drxNoTransmissionTimer be included in transmit in application layer messages time, then these network equipments can not be decoded to application layer messages, and only this application layer messages are forwarded to local terminal.The message that local network device forwards then can comprise local network device information newly-increased in former message.

Step 303: local terminal generates timer drxNoMonitorTimer according to timer drxNoTransmissionTimer.

In the present embodiment, within the time cycle of timer drxNoMonitorTimer, local terminal can not monitoring seek channel or PDCCH channel.

Step 304: local terminal sends to local network device timer drxNoMonitorTimer.

Wherein, local network device comprises MME, or eNB.When being applied to the IDLEDRX of local terminal, timer drxNoTransmissionTimer is sent to MME, when being applied to the ACTIVEDRX of local terminal, timer drxNoTransmissionTimer is sent to eNB.

Step 305: local network device, after receiving timer drxNoMonitorTimer, sends to local terminal and confirms.

It should be noted that, this step 305 is the optional step of the present embodiment.

Step 306: local terminal starts timer drxNoTransmissionTimer and enters resting state.

Wherein, local terminal can start timer drxNoTransmissionTimer in the suitable time, and enters resting state.

In the present embodiment, the suitable time can be adopted and be determined in two ways, one is time triggering mode, namely can be set in after generating timer drxNoMonitorTimer, start timer immediately, or after default millisecond, start timer, or after generating timer drxNoMonitorTimer preset a PDCCH subframe after start timer; Another kind is event triggered fashion, namely can start timer after completing predeterminable event.Predeterminable event can be one or more tasks of needing local terminal to perform.

Step 307: local network device starts timer drxNoMonitorTimer, and paging or PDCCH scheduling is not sent to local terminal within the time cycle that timer drxNoMonitorTimer defines.

Wherein, local network device can start timer drxNoMonitorTimer in the suitable time.

In this step, the suitable time can be adopted and be determined in two ways, one is time triggering mode, namely can be set in after receiving timer drxNoMonitorTimer, start this timer immediately, or after default millisecond, start timer, or after receiving timer drxNoMonitorTimer preset a PDCCH subframe after start timer; Another kind is event triggered fashion, namely can start timer after completing predeterminable event, such as, start timer by after the transfer of data in current cache.

Before the time cycle of timer drxNoMonitorTimer arrives, local network device can not send paging or PDCCH scheduling to local terminal; If there are the data of local terminal to need to send, then buffer memory carried out to these data, again these data are sent to local terminal when the time cycle of timer drxNoMonitorTimer arrives.

Step 308: local terminal, when the time cycle of timer drxNoMonitorTimer arrives, wakes up and monitoring seek channel or PDCCH channel from resting state.

See Fig. 4, for the 4th embodiment flow chart of the control method that the present invention monitors, in this embodiment, distant terminal equipment sends to local network device timer drxNoTransmissionTimer, local network device sends to local terminal timer drxNoTransmissionTimer, generates timer drxNoMonitorTimer by local terminal according to timer drxNoTransmissionTimer:

Step 401: distant terminal device definition timer drxNoTransmissionTimer, within the time cycle that timer drxNoTransmissionTimer defines, distant terminal equipment can not send data to local terminal.

Step 402: timer drxNoTransmissionTimer is sent to local network device through correspondent network by distant terminal equipment.

Step 403: local network device is transmitted to local terminal timer drxNoTransmissionTimer.

Step 404: local terminal generates timer drxNoMonitorTimer according to timer drxNoTransmissionTimer.

In the present embodiment, within the time cycle of timer drxNoMonitorTimer, local terminal can not monitoring seek channel or PDCCH channel.

Step 405: local terminal sends to local network device timer drxNoMonitorTimer.

Wherein, local network device comprises MME, or eNB.When being applied to the IDLEDRX of local terminal, timer drxNoTransmissionTimer is sent to MME, when being applied to the ACTIVEDRX of local terminal, timer drxNoTransmissionTimer is sent to eNB.

Step 406: send to local terminal after local network device receives timer drxNoMonitorTimer and confirm.

It should be noted that, this step 406 is the optional step of the present embodiment.

Step 407: local terminal starts timer drxNoMonitorTimer and enters resting state.

Wherein, local terminal can start timer drxNoTransmissionTimer in the suitable time, and enters resting state.

In the present embodiment, the suitable time can be adopted and be determined in two ways, one is time triggering mode, namely can be set in after generating timer drxNoMonitorTimer, start this timer immediately, or after default millisecond, start timer, or after generating timer drxNoMonitorTimer preset a PDCCH subframe after start timer; Another kind is event triggered fashion, namely can start timer after completing predeterminable event.Predeterminable event can be one or more tasks of needing local terminal to perform.

Step 408: local network device starts timer drxNoMonitorTimer, and paging or PDCCH scheduling is not sent to local terminal within the time cycle that timer drxNoMonitorTimer defines.

Wherein, local network device can start timer drxNoMonitorTimer in the suitable time, and enters resting state.

In this step, the suitable time can be adopted and be determined in two ways, one is time triggering mode, namely can be set in after receiving timer drxNoMonitorTimer, start this timer immediately, or after default millisecond, start timer, or after receiving timer drxNoMonitorTimer preset a PDCCH subframe after start timer; Another kind is event triggered fashion, namely can start timer after completing predeterminable event, such as, start timer by after the transfer of data in current cache.Predeterminable event can be one or more tasks of needing local terminal to perform.

Step 409: local terminal, when the time cycle of timer drxNoMonitorTimer arrives, wakes monitoring seek channel or PDCCH channel up from resting state.

See Fig. 5, for the 5th embodiment flow chart of the control method that the present invention monitors, in this embodiment, distant terminal equipment sends to local network device timer drxNoTransmissionTimer, generates timer drxNoMonitorTimer by local network device according to timer drxNoTransmissionTimer:

Step 501: distant terminal device definition timer drxNoTransmissionTimer, within the time cycle that timer drxNoTransmissionTimer defines, distant terminal equipment can not send data to local terminal.

Step 502: timer drxNoTransmissionTimer is sent to local network device through correspondent network by distant terminal equipment.

Step 503: local network device generates timer drxNoMonitorTimer according to timer drxNoTransmissionTimer.

In the present embodiment, a kind of generation method that can provide drxNoMonitorTimer is as follows: local network device can according to the storage capacity S of oneself, a timer adjusted value T is set, wherein T=f (S), T minimum value is 0, current local network device residue storage capacity S is less, then T is larger; Otherwise current local network device residue storage capacity S is larger, then T is less.Can obtain thus, drxNoMonitorTimer=drxNoTransmissionTimer-T.

Within the time cycle that timer drxNoMonitorTimer defines, local network device can not send paging or PDCCH scheduling to local terminal; If there are the data of local terminal to need to send, then buffer memory carried out to these data, again these data are sent to local terminal when the time cycle of timer drxNoMonitorTimer arrives.

Step 504: timer drxNoMonitorTimer is sent to local terminal by local network device.

Step 505: send to local network device after local terminal receives timer drxNoMonitorTimer and confirm.

It should be noted that, this step 505 is the optional step of the present embodiment.

Step 506: local network device starts timer drxNoMonitorTimer, and paging or PDCCH scheduling is not sent to local terminal within the time cycle of timer definition.

Local network device can start this timer in the suitable time, and enters resting state.

In this step, the suitable time can be adopted and be determined in two ways, one is time triggering mode, namely can be set in after generating timer drxNoMonitorTimer, start this timer immediately, or after default millisecond, start timer, or after generating timer drxNoMonitorTimer preset a PDCCH subframe after start timer; Another kind is event triggered fashion, namely can start timer after completing predeterminable event, such as, start timer by after the transfer of data in current cache.Predeterminable event can be one or more tasks of needing local terminal to perform.

Step 507: local terminal starts timer drxNoMonitorTimer and enters resting state.

Local terminal can start timer drxNoMonitorTimer the suitable time after receiving timer drxNoMonitorTimer, and enters resting state.

In this step, the suitable time also can be adopted and be determined in two ways, one is time triggering mode, namely can be set in after receiving timer drxNoMonitorTimer, start this timer immediately, or after default millisecond, start timer, or after receiving timer drxNoMonitorTimer preset a PDCCH subframe after start timer; Another kind is event triggered fashion, namely can start timer after completing predeterminable event.Predeterminable event can be one or more tasks of needing local terminal to perform.

Step 508: local terminal, when the time cycle of timer drxNoMonitorTimer arrives, wakes monitoring seek channel or PDCCH channel up from resting state.

Visible according to above-described embodiment, because opposite equip. sends first timer to local terminal, this first timer is forbidden sending data to local terminal for controlling distant terminal equipment in the first timing cycle, local terminal can obtain the second timer of local terminal according to first timer, local terminal can be waken up targetedly according to second timer, to receive the data that distant terminal equipment sends, because local terminal is without the need to carrying out channel-monitoring blindly, therefore while meeting data transportation requirements, reduce the power consumption of local terminal.

Corresponding with the embodiment of the control method that the present invention monitors, present invention also offers the embodiment of the control appliance of monitoring.The control appliance of the monitoring in the embodiment of the present invention is as the local terminal in local network, and this local terminal can be UE.

See Fig. 6, the first embodiment block diagram for the control appliance that the present invention monitors:

This terminal comprises: acquiring unit 610, start unit 620 and monitoring unit 630.

Wherein, acquiring unit 610, for obtaining the second timer generated according to the first timer of timing information instruction, described timing information is included in the first message sent by distant terminal equipment, and described first timer is forbidden sending data to described local terminal for controlling described distant terminal equipment in the first timing cycle.

Start unit 620, for starting described second timer and entering resting state.This start unit 620 can comprise at least one following unit (not shown in Fig. 6): the first promoter unit, when getting described second timer for described acquiring unit 610, starts described second timer at once; Second promoter unit, when getting described second timer for described acquiring unit 610, starts described second timer after default millisecond; 3rd promoter unit, when getting described second timer for described acquiring unit 610, starts described second timer after the sub-short embroidered cape of the PDCCH of predetermined number; 4th promoter unit, when getting described second timer for described acquiring unit 610, starts described second timer after completing predeterminable event.

Monitoring unit 630, for when the second timing cycle of described second timer reaches, terminates described resting state and monitors physical downlink control channel PDCCH.

See Fig. 7, the second embodiment block diagram for the control appliance that the present invention monitors:

This terminal comprises: acquiring unit 710, start unit 720, monitoring unit 730 and transmitting element 740.

Wherein, acquiring unit 710 comprises message sink subelement 711, for receiving the first message comprising timing information sent by distant terminal equipment, the first timer of described timing information instruction is forbidden sending data to described local terminal for controlling described distant terminal equipment in the first timing cycle of described first timer; Timer generates subelement 712, and the first timing cycle for the first timer indicated according to described timing information generates second timer.Wherein, wherein, message sink subelement 711, specifically for receiving first message that comprises timing information of described distant terminal equipment by the local network transparent transmission at local terminal place, or receive first message that comprises timing information of described distant terminal equipment by the local network device forwarding in the local network at described local terminal place.

Start unit 720, for starting described second timer and entering resting state.This start unit 720 can comprise at least one following unit (not shown in Fig. 7): the firstth promoter unit, when getting described second timer for described acquiring unit 710, starts described second timer at once; Second promoter unit, when getting described second timer for described acquiring unit 710, starts described second timer after default millisecond; 3rd promoter unit, when getting described second timer for described acquiring unit 710, starts described second timer after the PDCCH subframe of predetermined number; 4th promoter unit, when getting described second timer for described acquiring unit 710, starts described second timer after completing predeterminable event.

Monitoring unit 730, for when the second timing cycle of described second timer reaches, terminates described resting state and monitors PDCCH.

Transmitting element 740, for the timing information of described second timer being sent to the local network device in the local network of described local terminal place, forbid before described second timing cycle arrives to indicate described local network device sending schedule information or data to described local terminal.

See Fig. 8, the 3rd embodiment block diagram for the control appliance that the present invention monitors:

This terminal comprises: acquiring unit 810, start unit 820 and monitoring unit 830.

Wherein, acquiring unit 810 comprises timing information and receives subelement 811, for receiving the timing information of the described second timer sent by the local network device in the local network of local terminal place, described second timer is by local network device after receiving the first message sent by distant terminal equipment, and the first timer according to the timing information instruction comprised in described first message generates.

Start unit 820, for starting described second timer and entering resting state.This start unit 820 can comprise at least one following unit (not shown in Fig. 8): the first promoter unit, when getting described second timer for described acquiring unit 810, starts described second timer at once; Second promoter unit, when getting described second timer for described acquiring unit 810, starts described second timer after default millisecond; 3rd promoter unit, when getting described second timer for described acquiring unit 810, starts described second timer after the PDCCH subframe of predetermined number; 4th promoter unit, when getting described second timer for described acquiring unit 810, starts described second timer after completing predeterminable event.

Monitoring unit 830, for when the second timing cycle of described second timer reaches, terminates described resting state and monitors PDCCH.

As seen from the above-described embodiment, after in the embodiment of the present invention, local terminal obtains the second timer generated according to the first timer of timing information instruction, start second timer and enter resting state, when the second timing cycle of second timer reaches, monitor PDCCH, wherein first timer is forbidden sending data to local terminal for controlling distant terminal equipment in the first timing cycle.The first timer that local terminal in the embodiment of the present invention can send according to distant terminal equipment obtains the second timer of local terminal, local terminal can be waken up targetedly according to second timer, to receive the data that distant terminal equipment sends, because local terminal is without the need to carrying out channel-monitoring blindly, therefore, while meeting data transportation requirements, the power consumption of local terminal is reduced.

Those skilled in the art can be well understood to the mode that technology in the embodiment of the present invention can add required general hardware platform by software and realize.Based on such understanding, technical scheme in the embodiment of the present invention can embody with the form of software product the part that prior art contributes in essence in other words, this computer software product can be stored in storage medium, as ROM/RAM, magnetic disc, CD etc., comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) perform the method described in some part of each embodiment of the present invention or embodiment.

Each embodiment in this specification all adopts the mode of going forward one by one to describe, between each embodiment identical similar part mutually see, what each embodiment stressed is the difference with other embodiments.Especially, for system embodiment, because it is substantially similar to embodiment of the method, so description is fairly simple, relevant part illustrates see the part of embodiment of the method.

Above-described embodiment of the present invention, does not form limiting the scope of the present invention.Any amendment done within the spirit and principles in the present invention, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.

Claims (13)

1. the control method monitored, it is characterized in that, described method comprises:

Local terminal obtains the second timer generated according to the first timer of timing information instruction, described timing information is included in the first message sent by distant terminal equipment, and described first timer is forbidden sending data to described local terminal for controlling described distant terminal equipment in the first timing cycle;

Local terminal starts described second timer and enters resting state;

Local terminal, when the second timing cycle of described second timer reaches, terminates described resting state and monitors physical downlink control channel PDCCH.

2. method according to claim 1, is characterized in that, described local terminal obtains the second timer generated according to the first timer of timing information instruction and comprises:

Local terminal receives the first message comprising timing information sent by distant terminal equipment;

First timing cycle of the first timer that local terminal indicates according to described timing information generates second timer.

3. method according to claim 2, is characterized in that, described local terminal receives the first message comprising timing information sent by distant terminal equipment and comprises:

Local terminal receives first message that comprises timing information of described distant terminal equipment by the local network transparent transmission at local terminal place; Or,

Local terminal receives the first message comprising timing information that described distant terminal equipment is forwarded by the local network device in the local network at described local terminal place.

4. method according to claim 2, is characterized in that, after the first timing cycle generation second timer of the first timer that described local terminal indicates according to described timing information, also comprises:

The timing information of described second timer is sent to the local network device in the local network of described local terminal place by local terminal, forbids sending schedule information or data to described local terminal to indicate described local network device before described second timing cycle arrives.

5. method according to claim 1, is characterized in that, described local terminal obtains the second timer generated according to the first timer of timing information instruction and comprises:

Local terminal receives the timing information of the described second timer sent by the local network device in the local network of local terminal place, described second timer is by local network device after receiving the first message sent by distant terminal equipment, and the first timer according to the timing information instruction comprised in described first message generates.

6. method according to claim 5, is characterized in that, described local network device receives the first message sent by distant terminal equipment and comprises:

Described local network device receives the first message sent by described local network by described distant terminal equipment; Or,

Described local network device receives the first message forwarded by described local terminal by described distant terminal equipment.

7. the method according to claim 1 to 6 any one, is characterized in that, described local terminal starts described second timer and comprises:

When described local terminal gets described second timer, start described second timer at once; Or

When described local terminal gets described second timer, after default millisecond, start described second timer; Or

When described local terminal gets described second timer, after the PDCCH subframe of predetermined number, start described second timer; Or

When described local terminal gets described second timer, after completing predeterminable event, start described second timer.

8. the control appliance monitored, it is characterized in that, the control appliance of described monitoring, as the local terminal in local network, comprising:

Acquiring unit, for obtaining the second timer generated according to the first timer of timing information instruction, described timing information is included in the first message sent by distant terminal equipment, and described first timer is forbidden sending data to described local terminal for controlling described distant terminal equipment in the first timing cycle;

Start unit, for starting described second timer and entering resting state;

Monitoring unit, for when the second timing cycle of described second timer reaches, terminates described resting state and monitors physical downlink control channel PDCCH.

9. equipment according to claim 8, is characterized in that, described acquiring unit comprises:

Message sink subelement, for receiving the first message comprising timing information sent by distant terminal equipment;

Timer generates subelement, and the first timing cycle for the first timer indicated according to described timing information generates second timer.

10. equipment according to claim 9, is characterized in that,

Described message sink subelement, specifically for receiving first message that comprises timing information of described distant terminal equipment by the local network transparent transmission at local terminal place, or receive first message that comprises timing information of described distant terminal equipment by the local network device forwarding in the local network at described local terminal place.

11. equipment according to claim 9, is characterized in that, also comprise:

Transmitting element, for the timing information of described second timer being sent to the local network device in the local network of described local terminal place, forbid before described second timing cycle arrives to indicate described local network device sending schedule information or data to described local terminal.

12. equipment according to claim 8, is characterized in that, described acquiring unit comprises:

Timing information receives subelement, for receiving the timing information of the described second timer sent by the local network device in the local network of local terminal place, described second timer is by local network device after receiving the first message sent by distant terminal equipment, and the first timer according to the timing information instruction comprised in described first message generates.

Equipment described in 13. according to Claim 8 to 12 any one, it is characterized in that, described start unit comprises at least one following unit:

First promoter unit, when getting described second timer for described acquiring unit, starts described second timer at once;

Second promoter unit, when getting described second timer for described acquiring unit, starts described second timer after default millisecond;

3rd promoter unit, when getting described second timer for described acquiring unit, starts described second timer after the PDCCH subframe of predetermined number;

4th promoter unit, when getting described second timer for described acquiring unit, starts described second timer after completing predeterminable event.