CN108064057A - Communication means, the network equipment and terminal - Google Patents
Communication means, the network equipment and terminal Download PDFInfo
- Publication number
- CN108064057A CN108064057A CN201610986949.2A CN201610986949A CN108064057A CN 108064057 A CN108064057 A CN 108064057A CN 201610986949 A CN201610986949 A CN 201610986949A CN 108064057 A CN108064057 A CN 108064057A
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- wake
- equipment
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- wur
- terminal
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0225—Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal
- H04W52/0235—Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal where the received signal is a power saving command
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W28/00—Network traffic management; Network resource management
- H04W28/02—Traffic management, e.g. flow control or congestion control
- H04W28/0215—Traffic management, e.g. flow control or congestion control based on user or device properties, e.g. MTC-capable devices
- H04W28/0221—Traffic management, e.g. flow control or congestion control based on user or device properties, e.g. MTC-capable devices power availability or consumption
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W28/00—Network traffic management; Network resource management
- H04W28/02—Traffic management, e.g. flow control or congestion control
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/02—Power saving arrangements
- H04W52/0209—Power saving arrangements in terminal devices
- H04W52/0225—Power saving arrangements in terminal devices using monitoring of external events, e.g. the presence of a signal
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
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- Engineering & Computer Science (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Mobile Radio Communication Systems (AREA)
Abstract
The present invention relates to a kind of communication means, the network equipment and terminals.This method can include:First equipment generates the first wake-up packet, and sends the first wake-up packet to the wake-up receiver WUR of the second equipment, to wake up the main transceiver module of the second equipment, first equipment receives the second wake-up packet, for being responded to the first wake-up packet, wherein, the second wake-up packet is sent by the second equipment.The main transceiver module of first equipment communicates with the main transceiver module of the second equipment after wake-up.Responding the wake-up packet received in a manner of wake-up packet, the power consumption in communication process, less signaling consumption, so as to effectively shorten call duration time are effectively reduced.
Description
Technical field
The present invention relates to a kind of wireless communication field more particularly to communication means, the network equipment and terminals.
Background technology
With WLAN (English:Wireless Local Area Network, WLAN) standard evolution, in nothing
Line fidelity (English:Wireless Fidelity, WiFi) in network, terminal device (such as work station) is not when having information receiving and transmitting
(such as Nodata stages) is intercepted when having free time of a big chunk energy dissipation in no reception signal in channel.IEEE (English
Text:Institute of Electrical and Electronic Engineers, Institute of Electrical and Electric Engineers)
802.11 working groups are preparing wakes up receiver (English with low-power consumption:Low Power Wake Up Radio/Low Power
Wake Up Receiver, LP-WUR be also wake up radio) (hereinafter referred to as WUR) reduce WiFi work(for core technology
Consumption.It can be seen that the network equipment in WiFi network, such as wireless access point (English:Access Point, AP) and terminal
, it is necessary to a kind of communication means for reducing terminal device power consumption in communication process.
The prior art is to be replaced by terminal using the WUR of low-power consumption for the communication means for reducing terminal device power consumption
802.11 main transceiver modules intercept channel in the medium free time.As shown in Figure 1, when 802.11 main transmitting-receiving moulds of the terminal of receiving terminal
After block enters deep-sleep, the WUR revivals of low-power consumption are started to work.When the AP of transmitting terminal is needed with being led with WUR and 802.11
During the terminal communication of transceiver module, the 802.11 main transceiver modules of AP send wake-up association or wake-up packet (English to the WUR of terminal:
Wake Up Packet, WUP), receive the WUR of WUP by the WUR ID (i.e. WUR identification informations, for identifying WUR) in WUP with
Oneself allocated WUR ID is compared, if comparison result unanimously if WUR think that the WUP is intended for oneself, then WUR
802.11 main transceiver modules of terminal are waken up, WUR is transferred to dormancy again, after 802.11 main transceiver modules of terminal are waken up, to AP
802.11 main transceiver modules send and wake up acknowledgement frames, successfully waken up with the 802.11 of instruction terminal main transceiver modules, afterwards
802.11 main transceiver modules of terminal of the 802.11 main transceiver modules of AP with reviving communicate.802.11 main transmitting-receivings of terminal
Module can enter dormancy after the completion of communicating with the 802.11 main transceiver modules of AP, while whether the WUR of terminal begins listening for having again
The WUP of oneself is sent to, to wake up the 802.11 of terminal main transceiver modules again.
However, terminal is sent using 802.11 frame formats to the 802.11 main transceiver modules of AP wakes up acknowledgement frame, that is,
Say, the 802.11 main transceiver modules of AP need always on, wait the wake-up acknowledgement frame to be received, the power consumption of such case compared with
Greatly, especially when wakeup process fails, since the long period does not receive wake-up acknowledgement frame, power consumption degree is caused to increase.
The content of the invention
The embodiment of the present application provides a kind of communication means, access point and terminal, responding receipts in a manner of wake-up packet
The wake-up packet arrived effectively reduces the power consumption in communication process, less signaling consumption, so as to effectively shorten call duration time.
In a first aspect, providing a kind of communication means, this method can include:When the first equipment (first terminal) has data
The second equipment (network equipment, such as AP) is sent to, i.e. when the first equipment will carry out uplink communication, the first equipment needs generation
One wake-up packet.First equipment sends the first wake-up packet to the wake-up receiver WUR of the second equipment, to wake up the main receipts of the second equipment
Send out module.First wake-up packet can include the WUR identification informations of the second equipment, such as the address information of WUR, for instruction second
Equipment receives first wake-up packet.The WUR of first equipment receives the second wake-up packet, for being responded to the first wake-up packet,
Second wake-up packet is sent by the second equipment.
Wherein, by initializing the communication procedure of the second equipment, that is, the second equipment is provided after wake-up packet is received, to call out
The mode of bag of waking up responds the wake-up packet received, and then the main transceiver module of the first equipment is made to be set with second after wake-up
Standby main transceiver module communicates.The second equipment is after the first wake-up packet is received in the communication means, by the first equipment
WUR send the second wake-up packet, reduce the whole energy consumption of the first equipment, this method can be applied to AP to terminal, terminal to end
End and terminal to AP multiple scenes.Improve the flexibility of AP and terminal room wireless communication.
One it is optional realize, the first wake-up packet includes waking up indication information, wakes up indication information and is used to indicate the
Two equipment respond the first wake-up packet with the mode of wake-up packet, so that the second equipment confirms the first wake-up packet, i.e.,
Confirm that the second equipment has received the first wake-up packet, confirm the WUR of the second equipment the main transmitting-receiving mould of the second equipment in other words
Block wakes up, i.e., in ON working conditions.
In an optional realization, waking up indication information includes the work state information of WUR of the first equipment, and first sets
Standby WUR receives the second wake-up packet, and the second wake-up packet is sent by the second equipment, specifically included:The WUR of first equipment receives second
The second wake-up packet that equipment is sent according to the work state information of the WUR of the first equipment.
That is, the second equipment can be according to the work state information of the WUR of the first equipment, the side of selection wake-up packet
Formula responds the first wake-up packet or the first wake-up packet is responded with other modes in addition to wake-up packet, improves
The flexibility of communication means.
When the WUR of the first equipment is in running order, the WUR of the first equipment receives the second equipment to be believed according to instruction is waken up
Cease the second wake-up packet sent, that is to say, that when it is ON states that the second equipment, which recognizes the WUR of the first equipment, confirm to call out
The mode feedback response of awake bag, so as to reduce the power consumption of the first equipment, while also shortens call duration time.
In an optional realization, the second wake-up packet includes the WUR identification informations of receiving device, such as the ID or WUR of WUR
Reception address.The main transceiver module of first equipment communicates with the main transceiver module of the second equipment after wake-up, specific to wrap
It includes:First equipment matches the WUR identification informations of the first equipment with the WUR identification informations of receiving device;When the first equipment
WUR identification informations and receiving device WUR identification information match when, the first equipment determines the attribute information of the second equipment, and
It is communicated by the main transceiver module of the first equipment with the main transceiver module of the second equipment after waking up, i.e., implicitly, makes the
One equipment receives second wake-up packet, effectively reduces the power consumption in communication process.
In an optional realization, the second wake-up packet includes the transmission address information of the second equipment, the master of the first equipment
Transceiver module communicates with the main transceiver module of the second equipment after wake-up, specifically includes:First equipment is according to the second equipment
Transmission address information, the main transceiver module of the second equipment by the main transceiver module of the first equipment and after waking up led to
Explicitly letter, i.e., make the first equipment receive second wake-up packet, effectively reduce the work(in communication process with a kind of mode
Consumption.
In an optional realization, the second wake-up packet includes data transfer direction information, the main transmitting-receiving mould of the first equipment
Block communicates with the main transceiver module of the second equipment after wake-up, specifically includes:First equipment is believed according to data transfer direction
Breath is communicated with the main transceiver module of the second equipment after wake-up by the main transceiver module of the first equipment, i.e., explicitly, used
Another way makes the first equipment receive second wake-up packet, effectively reduces the power consumption in communication process.
In an optional realization, the second wake-up packet includes the identification information of the cell of the second equipment, the first equipment
Main transceiver module communicates with the main transceiver module of the second equipment after wake-up, specifically includes:First equipment is set according to second
The identification information of standby cell is carried out by the main transceiver module and the main transceiver module of the second equipment after wake-up of the first equipment
Explicitly communication, i.e., make first terminal receive second wake-up packet, effectively reduce in communication process with yet another approach
Power consumption.
In an optional realization, the second wake-up packet further includes the first indication information, and the first indication information is used to indicate
The main transceiver module of second equipment has been waken up, so that the second equipment associated at least one 3rd end in addition to the first equipment
End passes through the main transceiver module of at least one 3rd equipment and the main transmitting-receiving of the second equipment after wake-up according to the first indication information
Module communicates, since the first indication information is to indicating that the main transceiver module of oneself has been called out at least one second terminal
It wakes up, reduces the 3rd equipment to the signaling consumption of the second equipment hair wake-up packet, so as to reduce the signaling consumption of the 3rd equipment, have
Effect shortens call duration time.
In an optional realization, the second wake-up packet further includes broadcast address, so that the WUR of first equipment and institute
The WUR for stating at least one 3rd equipment receives second wake-up packet, and respectively by the main transceiver module of the first equipment and extremely
The main transceiver module of few 3rd equipment communicates with the main transceiver module of the second equipment after wake-up.Since this second is called out
Awake bag adds broadcast address, and the main transceiver module that the second equipment can be known by making all terminals has been waken up, and so reduces
Signaling consumption from 3rd equipment to the second equipment hair wake-up packet, it is effective to contract so as to reducing the signaling consumption of the 3rd equipment
Short call duration time.
In an optional realization, on the basis of the second wake-up packet includes broadcast address, the second wake-up packet can not
WUR identification informations (ID or WUR of such as WUR receives address) comprising the first equipment, as long as at this point, by the way that the first equipment is set to receive
The second wake-up packet sent to the second equipment is believed that the second wake-up packet has received the first wake-up packet, can so reduce second
The length of wake-up packet, effectively shortens transmission time.
One it is optional realize, the second wake-up packet further includes the first duration, the main receipts of a length of second equipment when first
The operating time of module is sent out, the main transceiver module of the first equipment communicates with the main transceiver module of the second equipment after wake-up,
It specifically includes:First equipment passes through the main transceiver module of the first equipment and the main transceiver module of the second equipment according to the first duration
It communicates.That is, in the first duration, the main transceiver module of the second equipment can be with normal communication, need not be by second
The WUR of equipment wakes up again, reduces signaling consumption, shortens call duration time.
In an optional realization, the second wake-up packet further includes the second indication information, and the second indication information is used to wake up
The main transceiver module of associated at least one 4th equipment of second equipment, so that the main transceiver module of the first equipment and at least one
The main transceiver module of four equipment communicates respectively with the main transceiver module of the second equipment.The second instruction in second wake-up packet
Information has not only waken up the main transceiver module of the 4th equipment, and also the first equipment is responded, that is to say, that the second instruction
Information reduces the signaling consumption of the 4th equipment and the second equipment room, effectively shortens call duration time.
In an optional realization, the second wake-up packet further includes the WUR identification informations of at least one 4th equipment, so that
The WUR of at least one 4th equipment receives the second wake-up packet, and according to the WUR identification informations of at least one 4th equipment, wakes up
The main transceiver module of at least one 4th equipment, after the main transceiver module of at least one 4th equipment after wake-up and wake-up
The main transceiver module of the second equipment communicate.
Second aspect, provides a kind of communication means, and this method can include:When the first equipment (first terminal) has data
The second equipment (network equipment, such as AP) is sent to, i.e. when the first equipment will carry out uplink communication, the wake-up of the second equipment receives
Machine WUR receives the first wake-up packet that the first equipment is sent.The WUR of second equipment wakes up the second equipment according to the first wake-up packet
Main transceiver module.Second equipment sends the second wake-up packet to the WUR of the first equipment, for being responded to the first wake-up packet.
The main transceiver module of the second equipment after wake-up communicates with the main transceiver module of the first equipment.Wherein, in the communication means
Second equipment, by sending the second wake-up packet to the WUR of the first equipment, reduces the first equipment after the first wake-up packet is received
Whole energy consumption, this method can be applied to multiple scenes of the AP to terminal, terminal to terminal and terminal to AP.Improve AP with
The flexibility of terminal room wireless communication.
One it is optional realize, the first wake-up packet includes waking up indication information, wakes up indication information and is used to indicate the
Two equipment respond the first wake-up packet in the form of wake-up packet, so that the second equipment confirms the first wake-up packet, i.e.,
Confirm that the second equipment has received the first wake-up packet, confirm the WUR of the second equipment the main transmitting-receiving mould of the second equipment in other words
Block wakes up, i.e., in ON working conditions.
In an optional realization, waking up indication information includes the work state information of WUR of the first equipment, and second sets
It is standby to send the second wake-up packet to the first equipment, it specifically includes:Second equipment according to the work state information of the WUR of the first equipment,
The second wake-up packet is sent to the WUR of the first equipment.When the WUR of the first equipment is in running order, the first equipment is according to wake-up
Indication information sends the second wake-up packet to the WUR of the second equipment.
That is, the second equipment can be according to the work state information of the WUR of the first equipment, the side of selection wake-up packet
Formula responds the first wake-up packet or the first wake-up packet is responded with other modes in addition to wake-up packet, improves
The flexibility of communication means.The power consumption of the first equipment is reduced, while also shortens call duration time.
In an optional realization, the second wake-up packet includes the WUR identification informations of receiving device, so that the first equipment will
The WUR identification informations of first equipment are matched with the WUR identification informations of receiving device, when the WUR identification informations of the first equipment
During with the WUR identification information match of receiving device, the first equipment determines the attribute information of the second equipment, and passes through the first equipment
Main transceiver module communicates with the main transceiver module of the second equipment after wake-up, i.e., implicitly, the first equipment is made to receive this
Second wake-up packet effectively reduces the power consumption in communication process.
In an optional realization, the second wake-up packet includes the transmission address information of the second equipment, so that the first equipment
According to the transmission address information of the second equipment, pass through the main transceiver module of the first equipment and the main transmitting-receiving of the second equipment after wake-up
Module communicates, i.e., explicitly, with a kind of mode the first equipment is made to receive second wake-up packet, effectively reduce and communicated
Power consumption in journey.
In an optional realization, the second wake-up packet includes data transfer direction information, so that the first equipment is according to number
According to transmission direction information, communicate with the main transceiver module of the second equipment after wake-up, i.e., explicitly, make in another way
First equipment receives second wake-up packet, effectively reduces the power consumption in communication process.
In an optional realization, the second wake-up packet includes the identification information of the cell of second equipment, so that the
One equipment passes through main transceiver module and the second equipment after wake-up of the first equipment according to the identification information of the cell of the second equipment
Main transceiver module communicate, i.e., explicitly, the first equipment is made to receive second wake-up packet in another way, effectively
Reduce the power consumption in communication process.
In an optional realization, the second wake-up packet further includes the first indication information, and the first indication information is used to indicate
The main transceiver module of second equipment has been waken up, so that associated at least one 3rd the setting in addition to the first equipment of the second equipment
For according to first indication information, pass through the main transceiver module of at least one 3rd equipment and the master of the second equipment after wake-up
Transceiver module communicates, due to the first indication information to indicated at least one second terminal the main transceiver module of oneself by
It wakes up, reduces the signaling consumption that the 3rd equipment sends out wake-up packet to the second equipment, so as to reduce the signaling consumption of the 3rd equipment,
Effectively shorten call duration time.
One it is optional realize, the second wake-up packet further includes broadcast address, so that the first equipment and at least one the
Three equipment receive the second wake-up packet, and pass through the main transceiver module of the first equipment and the main transmitting-receiving of at least one 3rd equipment respectively
Equipment communicates with the second equipment after waking up, and since second wake-up packet adds broadcast address, all terminals is made all may be used
It has been waken up with the main transceiver module for knowing the second equipment, has so reduced the 3rd equipment to the signaling of the second equipment hair wake-up packet
Expense so as to reduce the signaling consumption of the 3rd equipment, effectively shortens call duration time.
One it is optional realize, the second wake-up packet further includes the first duration, a length of second equipment when first
The operating time of main transceiver module so that the first equipment confirms indication information and the first duration according to described wake up, passes through first
The main transceiver module of equipment communicates with the main transceiver module of the first equipment after wake-up.
In an optional realization, the second wake-up packet further includes the second indication information, and the second indication information is used to wake up
Associated at least one 4th equipment of second equipment, so that the main transceiver module of the first equipment and the master of at least one 4th equipment
Main transceiver module of the transceiver module respectively with the second equipment after wake-up communicates, the second instruction letter in the second wake-up packet
Breath, has not only waken up the main transceiver module of the 4th equipment, also the first equipment has been responded.
That is, the second indication information reduces the signaling consumption of the 4th equipment and the second equipment room, it is effective to shorten
Call duration time.
In an optional realization, the second wake-up packet further includes the WUR identification informations of at least one 4th equipment, so that
At least one 4th equipment receives the second wake-up packet, and according to the WUR identification informations of at least one 4th equipment, wakes up at least one
The main transceiver module of a 4th equipment.The main transceiver module of the second equipment after wake-up and at least one 4th equipment after wake-up
Main transceiver module communicate.
The third aspect provides a kind of terminal, which has the work(for realizing above method terminal device behavior in practice
Energy.The function by hardware can also be performed corresponding software and be realized by hardware realization.The hardware or software include one
A or multiple and corresponding module of above-mentioned function.
The terminal can specifically include:Processing unit, WUR units and main Transmit-Receive Unit.
Processing unit is for the first wake-up packet of generation.The WUR units transmission first that transmitting element is used for the network equipment is called out
It wakes up and wraps, to wake up the main Transmit-Receive Unit of the network equipment.WUR units are for receiving the second wake-up packet, for the first wake-up packet
It is responded, the second wake-up packet is sent by the network equipment.Main Transmit-Receive Unit is for the main transmitting-receiving list with the network equipment after wake-up
Member communicates.
The terminal can also include storage unit, for storage terminal device and network device communications command information and
Data message.
Fourth aspect provides a kind of network equipment, which, which has, realizes the above method network equipment in practice
The function of behavior.The function by hardware can also be performed corresponding software and be realized by hardware realization.The hardware is soft
Part includes the one or more and corresponding module of above-mentioned function.
The network equipment can specifically include:WUR units, transmitting element and main Transmit-Receive Unit.
WUR units are used to receive the first wake-up packet of first terminal transmission.WUR units are additionally operable to according to the first wake-up packet,
Wake up main Transmit-Receive Unit.Transmitting element is used to send the second wake-up packet to the WUR units of first terminal, for being waken up to first
Bag is responded.Main Transmit-Receive Unit upon awakening, communicates for the main Transmit-Receive Unit with first terminal.
The network equipment can also include storage unit, believe for the instruction of storage terminal device and network device communications
Breath and data message.
5th aspect, provides a kind of terminal, which can include processor, and transmitter wakes up receiver WUR and master
Transceiver.Processor is for the first wake-up packet of generation.Transmitter is used to send the first wake-up packet to the WUR units of the network equipment,
To wake up the main transceiver of the network equipment.Receiver WUR is waken up for receiving the second wake-up packet, for the first wake-up packet into
Row response, the second wake-up packet are sent by the network equipment.Main transceiver is used to carry out with the main transceiver of the network equipment after wake-up
Communication.
The terminal device can also include reservoir, the memory for preserve the necessary program instruction of the terminal device and
Data.
6th aspect, provides a kind of computer storage media, for saving as the computer software used in above-mentioned terminal
Instruction, it includes for performing the program designed by above-mentioned aspect.
7th aspect, provides a kind of network equipment, which can include waking up receiver for receiving first
The first wake-up packet that terminal is sent, and according to the first wake-up packet, wake up main transceiver.Transmitter is used for the WUR to first terminal
The second wake-up packet is sent, for being responded to the first wake-up packet.Main transceiver upon awakening, for the master with first terminal
Transceiver communicates.
The network equipment can also include reservoir, the memory for preserve the necessary program instruction of the network equipment and
Data.
In another aspect, a kind of computer storage media is provided, for saving as the computer used in the above-mentioned network equipment
Software instruction, it includes for performing the program designed by above-mentioned aspect.
Description of the drawings
In order to illustrate the technical solution of the embodiments of the present invention more clearly, required use in being described below to embodiment
Attached drawing be briefly described.
Fig. 1 is AP and the communication process schematic diagram of terminal in the prior art;
Fig. 2 is wlan system structure diagram provided by the invention;
Fig. 3 is a kind of wlan system structure diagram provided in an embodiment of the present invention;
Fig. 4 is a kind of signaling interaction diagram of communication means provided in an embodiment of the present invention;
Fig. 5 is a kind of structure diagram of wake-up packet;
Fig. 6 is a kind of terminal of Fig. 4 and the structure diagram of insertion point to-point communication;
Fig. 7 is the signaling interaction diagram of another communication means provided in an embodiment of the present invention;
Fig. 8 is a kind of terminal of Fig. 7 and the structure diagram of insertion point to-point communication;
Fig. 9 is the signaling interaction diagram of another communication means provided in an embodiment of the present invention;
Figure 10 is a kind of terminal of Fig. 9 and the structure diagram of insertion point to-point communication;
Figure 11 is a kind of terminal provided in an embodiment of the present invention;
Figure 12 is a kind of network equipment provided in an embodiment of the present invention;
Figure 13 is another terminal provided in an embodiment of the present invention;
Figure 14 is another network equipment provided in an embodiment of the present invention.
Specific embodiment
Below by drawings and examples, technical scheme is described in further detail.
The technology that the present invention describes can be adapted for Long Term Evolution (English:Long Term Evolution, LTE) system,
Or other use the wireless communication system of various wireless access technologys, and for example with CDMA, frequency division multiple access, time division multiple acess,
The system of the access technologies such as Orthogonal Frequency Division Multiple Access, single-carrier frequency division multiple access.Further, it is also possible to suitable for follow-up using LTE system
Evolution system, such as the 5th generation 5G system or newly eat dishes without rice or wine (English:New radio, NR) system etc..It should be noted that this hair
Noun " network " and " system " in bright are often used alternatingly, but it will be appreciated by those skilled in the art that its meaning.
Communication means provided by the invention can be applied in wlan system, as shown in Fig. 2, the wlan system can include
At least one terminal and the network equipment.
Terminal can include the various handheld devices with wireless communication function, mobile unit, wearable device (English:
Wearable device, WD), computing device or the other processing equipments and various forms that are connected to radio modem
User equipment (English:User equipment, UE), mobile station (English:Mobile station, MS), terminal (English:
Terminal), terminal device (English:Terminal equipment), website (English:Station, STA) etc..
The network equipment is a kind of to be deployed in wireless access network to provide the equipment of wireless communication function, network for terminal
Equipment can include various forms of macro base stations, micro-base station, relay station, access point (terminal including opening hot spot function) etc.
Deng.For convenience of description, the network equipment of above-mentioned offer wireless communication function may be collectively referred to as access point AP in the present invention.
In fig. 2, terminal STA 1 and terminal STA 2 can include main transceiver module (such as 802.11 main transceiver module) and
WUR, wherein, the function of STA1 and STA2 can be the same or different, and if STA1 can have the function of Wi-Fi hotspot, STA2 can
Not have the function.What deserves to be explained is in order to reduce equipment energy consumption, which can also configure WUR.
It can mutually be carried out wireless communication between AP, STA1 and STA2 three, i.e. AP can be carried out with STA1 and STA2 respectively
It can be carried out wireless communication between wireless communication, STA1 and STA2.
Scene one, when AP has data to carry out downlink communication, AP can send first to the WUR of STA1 and/or STA2 and call out
It wakes up and wraps, wake up the main transceiver module of STA1 and/or STA2, the STA1 and/or STA2 after wake-up send second to the WUR of AP and wake up
Bag, for being responded to the first wake-up packet, that is to say, that the second wake-up packet is the confirmation bag of the first wake-up packet.The WUR of AP
After receiving the second wake-up packet, with the main transceiver module of the STA1 after wake-up and/or STA2 into row data communication.
Scene two, when STA1 and/or STA2 has data to carry out uplink communication, STA1 and/or STA2 send first to AP
Wake-up packet wakes up the main transceiver module of AP, and the AP after wake-up sends the second wake-up packet to the WUR of STA1 and/or STA2, for
First wake-up packet is responded.After the WUR of STA1 and/or STA2 receives the second wake-up packet, the main receipts with the AP after wake-up
Module is sent out into row data communication
Scene three, when STA1 opens hot spot function, STA1 can send the first wake-up packet to the WUR of STA2, wake up
The main transceiver module of STA2, the STA2 after wake-up sends the second wake-up packet to the WUR of AP, for being rung to the first wake-up packet
It should.After the main transceiver module of STA1 receives the second wake-up packet, with the STA2 after wake-up into row data communication.
It should be noted that STA1 or STA2 can send the second wake-up packet by the main transceiver module of STA1 or STA2
(will the data point reuse that sends of main transceiver module be WUR frame formats data), can also pass through and tool is configured in STA1 or STA2
The independently transmitted device for having WUR frame formats sends the second wake-up packet, can also send the second wake-up packet by other means, the present invention
It does not limit herein.
Energy consumption when energy consumption when being worked due to WUR is worked well below main transceiver module, it follows that waiting to be feedback
Terminal or AP open WUR, and the energy consumption of the second wake-up packet of reception (response) is minimum, and system energy consumption is reduced so as to whole.
In a kind of application scenarios of mobile AP, STA1 can open hot spot function and provide Wi-Fi hotspot as mobile AP,
The energy consumption of consideration STA1 is needed at this time.Specifically, (OFF) can be closed with preset certain time period by being configured with the movement AP of WUR
Main transceiver module opens (ON) WUR.
Correspondingly, when movement AP is in main transceiver module OFF, during the working condition of WUR ON, it is associated in movement AP
Under non-ap stations point (STA2) and movement AP carry out uplink (English:When uplink) communicating, non-ap stations point, which needs first to send, calls out
Bag of waking up is (English:Wake up packet), after the WUR of movement AP receives the wake up packet, wake up the main receipts of oneself
Module is sent out, and is responded in a manner of wake-up packet, so as to prepare to service the non-ap stations point of this cell.Service said herein, bag
It includes and receives the upstream data (being not limited only to data frame, can also be management frame or control frame) that non-ap stations point is sent, also include moving
Dynamic AP sends downlink data to non-ap stations point.
Fig. 3 is a kind of wlan system structure diagram provided in an embodiment of the present invention.As shown in figure 3, the wlan system can
To include the first equipment and the second equipment.
First equipment can be AP or STA in Fig. 2, correspondingly, the second equipment can be STA or AP in Fig. 2.First
Equipment sends the first wake-up packet to the WUR of the second equipment, after the WUR of the second equipment receives the first wake-up packet, the second equipment
WUR sends trigger signal to the main transceiver module of the second equipment, for waking up the main transceiver module of the second equipment.
Second equipment sends the second wake-up packet to the WUR of the first equipment, for being responded to the first wake-up packet, makes the
One equipment confirms that the main transceiver module of the second equipment has been waken up.Main transmitting-receiving of the main transceiver module of first equipment to the second equipment
Module sends data, to communicate.
Below with scene two, the first equipment is first terminal STA, exemplified by the second equipment is AP, is described in detail.
Fig. 4 is a kind of signaling interaction diagram of communication means provided in an embodiment of the present invention.As shown in figure 4, this method can be with
Including:
Step 410, first terminal generate the first wake-up packet.
When first terminal has data to be sent to AP, i.e., when first terminal will carry out uplink communication, first terminal generation the
One wake-up packet, for confirming that the working condition of the main transceiver module (such as 802.11 main transceiver module) of AP is ON states.
Step 420, first terminal send the first wake-up packet to the wake-up receiver WUR of AP, to wake up the main transmitting-receiving mould of AP
Block.
First wake-up packet can include the WUR identification informations of AP, and such as the address information of WUR, being received for instruction AP should
First wake-up packet.The WUR identification informations can be complete WUR identification informations or partial WUR identification informations, such as complete matchmaker
Body intervention control (English:Medium Access Control, MAC) address or the partial address of MAC Address can be distinguished.
Optionally, the first wake-up packet can also include waking up indication information, which is used to indicate AP with calling out
The mode wrapped of waking up responds the first wake-up packet, which can confirm as to a kind of wake-up of the first wake-up packet, described
" wake up and confirm ", can refer to and confirm that AP has received the first wake-up packet, confirm the WUR of AP the main transceiver module of AP in other words
It wakes up, i.e., in ON working conditions.
Fig. 5 is a kind of structure diagram of wake-up packet.As shown in figure 5, before the wake-up packet can include tradition 802.11
Lead (English:Preamble) domain and load (English:Payload) domain.
In one example, with reference to the structure of Fig. 5, wake-up indication information can occupy 1 bit (bit) in load domain
Position, i.e., represented with the value of 1 bit, and value can indicate that AP responds the first wake-up packet with the mode of wake-up packet for 1, value
It can indicate that AP responds the first wake-up packet with other modes in addition to wake-up packet for 0;
Alternatively, its value can indicate that AP responds the first wake-up packet with the mode of wake-up packet for 0, value can be with for 1
Instruction AP responds the first wake-up packet with other modes in addition to wake-up packet, such as AP with the main transceiver module of AP to first
Terminal, which sends to wake up, confirms bag, which is non-WUR frame formats.
It is understood that according to actual design needs, multiple ratios can also be occupied in load domain by waking up indication information
Special position represents that instruction AP responds the first wake-up packet with the mode of wake-up packet, the present invention with the combination of multiple bit values
Embodiment does not limit herein.
Optionally, the WUR of first terminal and/or main transceiver module (English can be included by waking up indication information:main
Radio work state information).
If WUR OFF, main the radio ON of first terminal, then AP should use main receiving frame (English:main radio
Frame) form is replied to wake up and confirmed, if WUR ON, main the radio OFF of first terminal, then AP should use WUR frame formats
(mode of wake-up packet), which replys to wake up, to be confirmed.That is, AP can be selected according to the work state information of the WUR of first terminal
It selects and the first wake-up packet is responded with the mode of wake-up packet or with other modes in addition to wake-up packet to the first wake-up packet
It is responded, so as to reduce the power consumption of first terminal, while also shortens call duration time.
Wherein, the work state information of the work state information of the WUR of first terminal and main transceiver module is in load domain
It can be carried with the first newly-built field;Other fields (such as reserved field) that can also be multiplexed in the first wake-up packet are held
It carries, the first field is also referred to as to state the field that this mode is facilitated to occupy.
Optionally, the first field can include 1bit, for example, WUR ON, the main radio of 0 instruction first terminal
OFF;WUR OFF, the main radio ON of 1 instruction first terminal.
Alternately, the first field can also include 2bit, for example, the WUR OFF, main of 00 instruction first terminal
Radio OFF, 01 instruction WUR OFF, main radio ON, 10 instruction WUR ON, main radio OFF, 11 instruction WUR
ON, main radio ON.
It is understood that the mapping for the number of bits and specific instruction content that above-mentioned first field includes is only for example
Bright, according to actual needs, the number of bits that the first field includes can also have the mapping of other forms with specific instruction content, this
Inventive embodiments do not limit herein.
Step 430, AP according to the first wake-up packet to first terminal send the second wake-up packet, for the first wake-up packet into
Row response.
Before step 130 is performed, after the WUR of AP receives the first wake-up packet of first terminal transmission, AP is called out first
The WUR identification informations waken up in bag are matched with the identification information of the WUR of itself, and according to matching result, wake up the main receipts of AP
Send out module.
Afterwards, wake-up indication informations of the AP in the first wake-up packet sends the second wake-up packet to first terminal, for
First wake-up packet is responded.
It is understood that the communication procedure by initializing AP, i.e. regulation AP is after wake-up packet is received, with wake-up packet
Mode the wake-up packet received is responded, can also to first terminal send the second wake-up packet, for the defined tool
Gymnastics is made, and the embodiment of the present invention does not limit.
Step 440, first terminal are according to the second wake-up packet, by the main transceiver module of first terminal with the AP's after wake-up
Main transceiver module is into row data communication.
First terminal determines the attribute information of AP according to the second wake-up packet received, and the attribute information of AP can include
The address information of AP, the cell information of AP and the data transfer direction information of AP etc., the main transceiver module of first terminal with really
The main transceiver module of AP after fixed is into row data communication.
Optionally, the second wake-up packet can include the WUR identification informations of receiving device, such as the reception of the ID or WUR of WUR
Location.
First terminal matches the WUR identification informations of first terminal with the WUR identification informations of receiving device, when first
During the WUR identification information match of the WUR identification informations of terminal and receiving device, first terminal determines the attribute information of AP, and leads to
The main transceiver module of AP after crossing the main transceiver module of first terminal and determining further connects first terminal into row data communication
Second wake-up packet is received, effectively reduces the power consumption in communication process.
When the WUR identification informations of first terminal and the WUR identification informations of receiving device mismatch, first terminal is thought not
The second wake-up packet (the confirmation bag for not receiving the first wake-up packet) is received, i.e. first terminal thinks that the main transceiver module of AP is not called out
It wakes up, first terminal can send the first wake-up packet to AP again or continue waiting for the second wake-up packet of AP transmissions at this time.
It can be stated that first terminal works as the reception that the reception address for receiving and being included in the second wake-up packet is first terminal WUR
During address, you can with it is thought that the second wake-up packet is the confirmation of the wake-up to the first wake-up packet.That is, the ID for passing through WUR
Or the reception address of WUR, implicitly indicate that second wake-up packet includes the function of waking up and confirm.
Further, the second wake-up packet can also be by explicitly indicating that second wake-up packet includes the work(for waking up and confirming
Energy.The configuration instruction information field in the second wake-up packet, it is true to wake up which indicates the function of the second wake-up packet
Recognize.Such as it can indicate that the function of the second wake-up packet is to wake up to confirm with a specific wake-up ID or reception address.
Optionally, the second wake-up packet can include the transmission address information of AP, such as MAC Address.
First terminal determines the attribute information of AP, and passes through the main transmitting-receiving of first terminal according to the transmission address information of AP
Module communicates with the AP after waking up, i.e., explicitly, with a kind of mode first terminal is made to receive second wake-up packet, effectively
Reduce communication process in power consumption.
Optionally, the second wake-up packet can include data transfer direction information, such as uplink (English:Uplink, UL) transmission
Direction or downlink (English:Downlink, DL) transmission direction.
First terminal determines the attribute information of AP, and passes through the main transmitting-receiving of first terminal according to data transfer direction information
Module communicates with the AP after waking up, i.e., explicitly, first terminal is made to receive second wake-up packet in another way, is had
The power consumption reduced in communication process of effect.
Optionally, the second wake-up packet can include the identification information of the cell of AP, such as the Basic Service Set color (English of cell
Text:Basic service set color, BSS color).
First terminal determines the attribute information of AP, and passes through the main receipts of first terminal according to the identification information of the cell of AP
Hair module communicates with the AP after waking up, i.e., explicitly, first terminal is made to receive second wake-up packet in another way,
Effectively reduce the power consumption in communication process.
In one example, as shown in fig. 6, being in AP exemplified by the state of main radio OFF, WUR ON, when first
When terminal has upstream data to need transmission, first terminal sends the first wake-up packet to AP, and the first wake-up packet, which includes, wakes up AP's
The instruction of main radio.The WUR of first terminal keeps working condition at this time, and AP is waited to reply the confirmation to the first wake-up packet
Frame.
After the WUR of AP receives the first wake-up packet, the main radio of AP are waken up.AP sends the second wake-up packet, as the
The wake-up of one wake-up packet confirms.After first terminal receives the second wake-up packet, confirm that the main radio of AP have waken up.First terminal
Data are sent to the main radio of AP, so as to communicate.
It is understood that the communication means of above-mentioned scene two is only a specific embodiment, and scene one with
Scene three is also applied for the specific embodiment.
That is, can also have other embodiments for scene one, scene two and the communication means of scene three, this
Inventive embodiments are without limitation.
AP is after the first wake-up packet is received in the communication means of the above embodiment of the present invention, by the WUR of first terminal
The second wake-up packet is sent, reduces the whole energy consumption of first terminal, since this method can be applied under more scenes.So as to improve
AP and the flexibility of terminal room wireless communication.
Fig. 7 is the signaling interaction diagram of another communication means provided in an embodiment of the present invention.As shown in fig. 6, this method can
To include:
Step 710, first terminal generate the first wake-up packet.
When first terminal has data to be sent to AP, i.e., when first terminal will carry out uplink communication, first terminal generation the
One wake-up packet, for confirming that the working condition of the main transceiver module (such as 802.11 main transceiver module) of AP is ON states.
Step 720, first terminal send the first wake-up packet to the wake-up receiver WUR of AP, to wake up the main transmitting-receiving mould of AP
Block.
First wake-up packet can include the WUR identification informations of AP, and such as the address information of WUR, being received for instruction AP should
First wake-up packet.The WUR identification informations can be complete WUR identification informations or partial WUR identification informations, such as complete matchmaker
Body intervention control (English:Medium Access Control, MAC) address or the partial address of MAC Address can be distinguished.
Optionally, the first wake-up packet can also include waking up indication information, which is used to indicate AP with calling out
The mode wrapped of waking up responds the first wake-up packet, which can confirm as to a kind of wake-up of the first wake-up packet, described
" wake up and confirm ", can refer to and confirm that AP has received the first wake-up packet, confirm the WUR of AP the main transceiver module of AP in other words
It wakes up, i.e., in ON working conditions.
For the structural information of the first wake-up packet, the frame structure that can combine Fig. 5 in step 420 is configured, herein not
It repeats again.
It is understood that according to actual design needs, multiple ratios can also be occupied in load domain by waking up indication information
Special position represents that instruction AP responds the first wake-up packet with the mode of wake-up packet, the present invention with the combination of multiple bit values
Embodiment does not limit herein.
Optionally, the WUR of first terminal and/or main transceiver module (English can be included by waking up indication information:main
Radio work state information).
If WUR OFF, main the radio ON of first terminal, then AP should use main receiving frame (English:main radio
Frame) form is replied to wake up and confirmed, if WUR ON, main the radio OFF of first terminal, then AP should use WUR frame formats
(mode of wake-up packet), which replys to wake up, to be confirmed.
That is, AP can be according to the work state information of the WUR of first terminal, the mode of selection wake-up packet is to
One wake-up packet is responded or the first wake-up packet is responded with other modes in addition to wake-up packet.
Wherein, the work state information of the work state information of the WUR of first terminal and main transceiver module is in load domain
It can be carried with the first newly-built field;Other fields (such as reserved field) that can also be multiplexed in the first wake-up packet are held
It carries, the first field is also referred to as to state the field that this mode is facilitated to occupy.
Optionally, the first field can include 1bit, for example, WUR ON, the main radio of 0 instruction first terminal
OFF;WUR OFF, the main radio ON of 1 instruction first terminal.
Alternately, the first field can also include 2bit, for example, the WUR OFF, main of 00 instruction first terminal
Radio OFF, 01 instruction WUR OFF, main radio ON, 10 instruction WUR ON, main radio OFF, 11 instruction WUR
ON, main radio ON.
It is understood that the mapping for the number of bits and specific instruction content that above-mentioned first field includes is only for example
Bright, according to actual needs, the number of bits that the first field includes can also have the mapping of other forms with specific instruction content, this
Inventive embodiments do not limit herein.
Step 730, AP are according to first the second wake-up packet of wake-up packet broadcast transmission, for being rung to the first wake-up packet
It should and be waken up to the main transceiver module of the associated at least one second terminal instruction AP of AP.
Before step 730 is performed, after the WUR of AP receives the first wake-up packet of first terminal transmission, AP is called out first
The WUR identification informations waken up in bag are matched with the identification information of the WUR of itself, and according to matching result, wake up the main receipts of AP
Send out module.
Afterwards, wake-up indication informations of the AP in the first wake-up packet sends the second wake-up packet to first terminal, for
First wake-up packet is responded.
It is understood that by initializing AP, AP is set after the first wake-up packet is received, in a manner of wake-up packet pair
First wake-up packet is responded.For the concrete operations of the setting, the embodiment of the present invention does not limit.
Step 740, first terminal and at least one second terminal pass through the main transmitting-receiving of first terminal according to the second wake-up packet
The main transceiver module of module and at least one second terminal with wake up after AP main transceiver module into row data communication.
Second wake-up packet can include the response to the first wake-up packet and the first indication information.
Wherein, with reference to the content in above-mentioned steps 440, the response to the first wake-up packet can refer to according to receiving device
WUR identification informations (the reception address of the ID or WUR of such as WUR), transmission address information (such as MAC Address), the data transmission of AP
The identification information information of directional information (such as uplink or downlink transmission direction) or the cell of AP determines the attribute information of AP,
Confirm so as to receive the first wake-up packet to AP.First indication information, for associated in addition to first terminal with AP
At least one second terminal indicate that the main transceiver module of oneself has been waken up so that AP and AP associated at least one second is eventually
End communicates, and so as to reduce the signaling consumption of second terminal, effectively shortens call duration time.
Optionally, the second wake-up packet can also include broadcast address.
AP makes first terminal be received at least one second terminal according to broadcast address, the second wake-up packet of transmission of broadcast
Second wake-up packet.Since the second wake-up packet includes the response to the first wake-up packet, therefore the second wake-up packet can notify at least one
A second terminal, the main transceiver module of oneself (AP) have woken up, so that first terminal and at least one second terminal point
It does not communicate with AP.Wherein, which can be arranged in the id field of WUR or WUR destination address fields.
Optionally, on the basis of the second wake-up packet includes broadcast address, the second wake-up packet can not include first terminal
The WUR identification informations ID or WUR of such as WUR (receive address), as long as at this point, by the way that first terminal is set to receive the of AP transmissions
Two wake-up packets i.e. it is believed that AP have received the first wake-up packet, even if in the second wake-up packet and not comprising correspondingly received terminal WUR
ID (or WUR receive address), the second wake-up packet at this time is a kind of implicit response to the first wake-up packet.Second wake-up
The structure of bag can reduce the length of the second wake-up packet, effectively shorten transmission time.It is real for the above-mentioned setting up procedure present invention
Example is applied not limit herein.
Optionally, the second wake-up packet can also include the first duration.
The operating time of the main transceiver module of AP when first after a length of wake-up.That is, in the first duration, AP's
Main transceiver module need not can again be waken up with normal communication by the WUR of AP, so that first terminal is according to the first duration, with AP
Main transceiver module communicate.The structure of second wake-up packet reduces signaling consumption, shortens call duration time.
After first terminal receives the second wake-up packet of AP transmissions, it is known that the main transceiver module of road AP is waken up, first terminal
After recognizing the first duration, normal data communication is carried out in the first duration with AP, if at the end of the first duration, first terminal
Communication with AP does not terminate, and first terminal can send wake-up packet to AP again, be carried out again with the main transceiver module for waking up AP
Data communication.
It should be noted that according to actual needs or communication classification, can to the period of the first duration carry out it is preset.
Optionally, the second wake-up packet can also include the second duration.
The suspension duration that a length of at least one second terminal does not communicate with AP when second.That is, at least one second
Terminal before the second duration not with AP into row data communication, recover the data communication with AP after the second duration.Wherein,
Two terminals are can be with the associated other-ends of AP in addition to first terminal.The structure of second wake-up packet can be to avoid at least one
A second terminal and first terminal competitive channel, so as to so that first terminal individually leads in the second duration with AP progress data
Letter, shortens first terminal and the data communication time of AP.
It should be noted that according to actual needs or the classification of communication, the period of the second duration can also be carried out pre-
It puts.
With reference to structure diagram shown in Fig. 8, the second scene can include following two examples:
In one example, it is in AP exemplified by the state of main radio OFF, WUR ON, when first terminal has uplink
When data need transmission, first terminal sends the first wake-up packet to AP, and the first wake-up packet includes the main radio's of wake-up AP
Instruction.The WUR of first terminal keeps working condition at this time, and AP is waited to reply the acknowledgement frame to the first wake-up packet.
After the WUR of AP receives the first wake-up packet, the main radio of AP are waken up.AP sends the second wake-up packet, this second
Wake-up packet includes broadcast address, sends and responds to first terminal, and the main of AP is indicated to second terminal associated with AP
Radio has been waken up.First terminal receives the second wake-up packet, has been waken up with the main radio for confirming AP, competitive channel, prepares
Upstream data is sent to the main radio of AP.Other second terminals being associated under the AP receive the second wake-up packet, confirm AP
Main radio waken up after, other second terminals can also competitive channel prepare line number in the main radio transmissions to AP
According to.
In another example, it is in AP exemplified by the working condition of main radio OFF, WUR ON, works as first terminal
When having upstream data to need transmission, first terminal sends the first wake-up packet to AP, which includes the main for waking up AP
The instruction of radio.The WUR of first terminal keeps working condition at this time, and AP is waited to reply the confirmation bag to the first wake-up packet.
After the WUR of AP receives the first wake-up packet, the main radio of AP are waken up.AP sends the second wake-up packet, as right
The confirmation bag of first wake-up packet, while inform other second terminals, the main radio of AP have waken up.Second wake-up packet includes
Second duration.After first terminal receives the second wake-up packet, confirm that the main radio of AP have waken up, prepare to the main of AP
Radio sends upstream data.Other second terminals being associated under the AP after receiving the second wake-up packet, confirm the main of AP
Radio has waken up, and the competitive channel after the second duration, prepares to send upstream data to the main radio of AP.
It is understood that the first duration or the second duration can be included in the second wake-up packet, when can also include first
Long and the second duration.
When the first duration in the second wake-up packet and the second duration exist simultaneously, in order to reduce signaling consumption, shorten communication
Time can set the period of the first duration to be more than the period of the second duration.
It should be noted that above-mentioned two example applies also for scene one and scene three, the embodiment of the present invention is herein no longer
It repeats.
AP is called out after the first wake-up packet is received by sending second to the WUR of first terminal in the above embodiment of the present invention
It wakes up and wraps, reduce the whole energy consumption of first terminal, and by increasing broadcast address in the second wake-up packet, reduce second eventually
It holds to AP and sends wake-up packet to trigger the process for the main transceiver module for waking up AP, reduce the signaling consumption of system, shorten logical
The time is believed and in the second wake-up packet by configuring the first duration and/or the second duration, when further effectively controlling communication
Between.Since this method can be applied under more scenes, so as to improve the flexibility of AP and terminal room wireless communication.
Fig. 9 is the signaling interaction diagram of another communication means provided in an embodiment of the present invention.As shown in figure 9, this method can
To include:
Step 910, first terminal generate the first wake-up packet.
When first terminal has data to be sent to AP, i.e., when first terminal will carry out uplink communication, first terminal generation the
One wake-up packet, for confirming that the working condition of the main transceiver module (such as 802.11 main transceiver module) of AP is ON states.
Step 920, first terminal send the first wake-up packet to the wake-up receiver WUR of AP, to wake up the main transmitting-receiving mould of AP
Block.
First wake-up packet can include the WUR identification informations of AP, and such as the address information of WUR, being received for instruction AP should
First wake-up packet.The WUR identification informations can be complete WUR identification informations or partial WUR identification informations, such as complete matchmaker
Body intervention control (English:Medium Access Control, MAC) address or the partial address of MAC Address can be distinguished.
Optionally, the first wake-up packet can also include waking up indication information, which is used to indicate AP with calling out
The mode wrapped of waking up responds the first wake-up packet, which can confirm as to a kind of wake-up of the first wake-up packet, described
" wake up and confirm ", can refer to and confirm that AP has received the first wake-up packet, confirm the WUR of AP the main transceiver module of AP in other words
It wakes up, i.e., in ON working conditions.
For the structural information of the first wake-up packet, the frame structure that can combine Fig. 5 in step 420 is configured, herein not
It repeats again.
It is understood that according to actual design needs, multiple ratios can also be occupied in load domain by waking up indication information
Special position represents that instruction AP responds the first wake-up packet with the mode of wake-up packet, the present invention with the combination of multiple bit values
Embodiment does not limit herein.
Optionally, the WUR of first terminal and/or main transceiver module (English can be included by waking up indication information:main
Radio work state information).
If WUR OFF, main the radio ON of first terminal, then AP should use main receiving frame (English:main radio
Frame) form is replied to wake up and confirmed, if WUR ON, main the radio OFF of first terminal, then AP should use WUR frame formats
(mode of wake-up packet), which replys to wake up, to be confirmed.That is, AP can be selected according to the work state information of the WUR of first terminal
It selects and the first wake-up packet is responded with the mode of wake-up packet or with other modes in addition to wake-up packet to the first wake-up packet
It is responded.
Wherein, the work state information of the work state information of the WUR of first terminal and main transceiver module is in load domain
It can be carried with the first newly-built field;Other fields (such as reserved field) that can also be multiplexed in the first wake-up packet are held
It carries, the first field is also referred to as to state the field that this mode is facilitated to occupy.
Optionally, the first field can include 1bit, for example, WUR ON, the main radio of 0 instruction first terminal
OFF;WUR OFF, the main radio ON of 1 instruction first terminal.
Alternately, the first field can also include 2bit, for example, the WUR OFF, main of 00 instruction first terminal
Radio OFF, 01 instruction WUR OFF, main radio ON, 10 instruction WUR ON, main radio OFF, 11 instruction WUR
ON, main radio ON.
It is understood that the mapping for the number of bits and specific instruction content that above-mentioned first field includes is only for example
Bright, according to actual needs, the number of bits that the first field includes can also have the mapping of other forms with specific instruction content, this
Inventive embodiments do not limit herein.
Step 930, AP send the according to the first wake-up packet to first terminal and with the associated at least one third terminals of AP
Two wake-up packets, for the first wake-up packet being responded and being waken up at least one third terminal.
Before step 930 is performed, after the WUR of AP receives the first wake-up packet of first terminal transmission, AP is called out first
The WUR identification informations waken up in bag are matched with the identification information of the WUR of itself, and according to matching result, wake up the main receipts of AP
Send out module.
Afterwards, wake-up indication informations of the AP in the first wake-up packet sends the second wake-up packet to first terminal, for
First wake-up packet is responded.
It is understood that by initializing AP, AP is set after the first wake-up packet is received, in a manner of wake-up packet pair
First wake-up packet is responded.For the concrete operations of the setting, the embodiment of the present invention does not limit.
At least one third terminal after step 940, first terminal and wake-up passes through first terminal according to the second wake-up packet
The main transceiver module of main transceiver module and at least one third terminal with wake up after AP main transceiver module into row data communication.
Second wake-up packet can include the response to the first wake-up packet and the second indication information.
With reference to the content in above-mentioned steps 440, the response to the first wake-up packet can refer to the WUR according to receiving device
Identification information (the reception address of the ID or WUR of such as WUR), the transmission address information (such as MAC Address) of AP, data transfer direction letter
The identification information information of (such as uplink or downlink transmission direction) or the cell of AP is ceased, determines the attribute information of AP, so as to right
AP receives the first wake-up packet and is confirmed.
Second indication information, for waking up the associated at least one third terminals of AP, so that first terminal and at least one
Third terminal, respectively with AP into row data communication, so as to reduce the signaling consumption of third terminal, when effectively shortening communication
Between.
Optionally, the second wake-up packet can also include the WUR identification informations of at least one third terminal, as WUR ID or
WUR receives address, so that at least one third terminal receives the second wake-up packet, to wake up the main transmitting-receiving of at least one third terminal
Module.
Since the second wake-up packet includes the response to the first wake-up packet, therefore the second wake-up packet can notify at least one 3rd
Terminal, the main transceiver module of oneself (AP) have woken up, so that the main transceiver module of first terminal and at least one 3rd
The main transceiver module of terminal communicates respectively with the main transceiver module of the AP after wake-up.
Optionally, the second wake-up packet can also not include WUR identification informations (ID or the WUR reception of such as WUR of first terminal
Address), as long as at this point, by the way that first terminal is set to receive the second wake-up packet of AP transmissions i.e. it is believed that AP has received the first wake-up
Bag, even if in the second wake-up packet and the ID of the WUR not comprising correspondingly received terminal (or WUR receive address), second calling out at this time
Awake bag is a kind of implicit response to the first wake-up packet.The structure of second wake-up packet can reduce the length of the second wake-up packet
Degree, effectively shortens transmission time.It is not limited herein for the above-mentioned setting up procedure embodiment of the present invention.
With reference to structure diagram shown in Fig. 10, the second scene can include following two examples:
In one example, it is in AP exemplified by the state of main radio OFF, WUR ON, on first terminal has
When row data need transmission, first terminal sends the first wake-up packet to AP, and the first wake-up packet includes the main radio for waking up AP
Instruction.The WUR of first terminal keeps working condition at this time, and AP is waited to reply the acknowledgement frame to the first wake-up packet.
After the WUR of AP receives the first wake-up packet, the main radio of AP are waken up.AP sends the second wake-up packet, this second
Wake-up packet includes broadcast address, sends and responds to first terminal, and second wake-up packet is also comprising the second indication information, for calling out
It wakes up and the associated one or more third terminals of AP.
First terminal receives the second wake-up packet, confirms that the main radio of AP have waken up.Prepare to the main radio of AP
Send upstream data.After one or more third terminals receive the second wake-up packet, respective main radio are waken up, prepare to receive
Downlink data from AP.After AP has received the data of first terminal, AP is to the main of one or more third terminals
Radio sends downlink data.
It is worth noting that, above-mentioned example can also be applied to scene one and scene three, the embodiment of the present invention is herein no longer
It repeats.
AP is called out after the first wake-up packet is received by sending second to the WUR of first terminal in the above embodiment of the present invention
It wakes up and wraps, reduce the whole energy consumption of first terminal, and the WUR by configuring at least one third terminal in the second wake-up packet
Identification information wakes up the main transceiver module of corresponding third terminal, reduces the signaling consumption of system, shorten call duration time.By
It can be applied in this method under more scenes, so as to improve the flexibility of AP and terminal room wireless communication.
Corresponding with above-mentioned communication means, the embodiment of the present invention additionally provides a kind of terminal.As shown in figure 11, which can
To include:Processing unit 1110, transmitting element 1120, WUR units 1130 and main Transmit-Receive Unit (such as 802.11 main Transmit-Receive Unit)
1140。
Wherein, transmitting element 1120 can be a part or a separate unit for main Transmit-Receive Unit 1140, under
Face is introduced so that transmitting element 1120 is a separate unit as an example.
Processing unit 1110, for generating the first wake-up packet;
Transmitting element 1120, for sending the first wake-up packet to the WUR units of the network equipment, to wake up the master of the network equipment
Transmit-Receive Unit;
WUR units 1130, for receiving the second wake-up packet, for being responded to the first wake-up packet, the second wake-up packet
It is sent by the network equipment;
Main Transmit-Receive Unit 1140 communicates for the main Transmit-Receive Unit 1140 with the network equipment after wake-up.
Optionally, the first wake-up packet includes waking up indication information, wakes up indication information and is used to indicate network equipment wake-up
The mode of bag responds the first wake-up packet.
Optionally, waking up indication information includes the work state information of WUR units 1130.
WUR units 1130, the sent specifically for receiving the network equipment according to the work state information of WUR units 1130
Two wake-up packets.
When WUR units 1130 are in running order, WUR units 1130 receive the network equipment according to wake-up indication information
The second wake-up packet sent.
Optionally, the second wake-up packet includes the WUR identification informations of receiving device.
Processing unit 1110 is additionally operable to the WUR identification informations by the WUR identification informations of WUR units 1130 and receiving device
It is matched;
According to matching result, the main Transmit-Receive Unit of the network equipment after making main Transmit-Receive Unit 1140 and waking up communicates.
Optionally, the second wake-up packet includes the transmission address information of the network equipment.
Processing unit 1110 is additionally operable to the transmission address information according to the network equipment, makes main Transmit-Receive Unit 1140 with waking up
The main Transmit-Receive Unit of the network equipment afterwards communicates.
Optionally, the second wake-up packet includes data transfer direction information.
Processing unit 1110 is additionally operable to the net after according to data transfer direction information, making main Transmit-Receive Unit 1140 and waking up
The main Transmit-Receive Unit of network equipment communicates.
Optionally, the second wake-up packet includes the identification information of the cell of the network equipment.
Processing unit 1110 is additionally operable to the identification information of the cell according to the network equipment, makes main Transmit-Receive Unit 1140 and net
The main Transmit-Receive Unit of network equipment communicates.
Optionally, the second wake-up packet further includes the first indication information, and the first indication information is used to indicate the master of the network equipment
Transmit-Receive Unit has been waken up, and associated at least one first terminal (going out the other-end beyond the terminal) basis of the network equipment should
First indication information makes main Transmit-Receive Unit 1140 communicate with the main Transmit-Receive Unit of the network equipment.
Optionally, the second wake-up packet further includes broadcast address, so that WUR units 1130 and at least one first terminal
WUR units receive the second wake-up packet, and make the main Transmit-Receive Unit of main Transmit-Receive Unit 1130 and at least one first terminal respectively, with
The main Transmit-Receive Unit of the network equipment communicates.
Optionally, the second wake-up packet further includes the first duration, the work of the main Transmit-Receive Unit of a length of network equipment when first
Duration.
Processing unit 1110 is additionally operable to according to the first duration, makes the main transmitting-receiving list of main Transmit-Receive Unit 1140 and the network equipment
Member communicates.
Optionally, the second wake-up packet further includes the second indication information, and the second indication information associates for waking up the network equipment
At least one second terminal main Transmit-Receive Unit so that main Transmit-Receive Unit and the main Transmit-Receive Unit of at least one second terminal,
It communicates respectively with the main Transmit-Receive Unit of the network equipment.
Optionally, the second wake-up packet further includes the WUR identification informations of at least one second terminal, so that at least one second
The WUR units of terminal receive the second wake-up packet, and according to the WUR identification informations of at least one second terminal, wake up at least one
The main Transmit-Receive Unit of second terminal carries out the main Transmit-Receive Unit of at least one second terminal and the main Transmit-Receive Unit of the network equipment
Communication.
Corresponding with above-mentioned communication means, the embodiment of the present invention additionally provides a kind of network equipment (such as base station).Such as Figure 12
Shown, which can include:It wakes up and receives (WUR) unit 1210, transmitting element 1220 and main Transmit-Receive Unit (such as
802.11 main Transmit-Receive Unit) 1230.
Wherein, transmitting element 1220 can be a part or a separate unit for main Transmit-Receive Unit 1230, under
Face is introduced so that transmitting element 1220 is a separate unit as an example.
WUR units 1210 for receiving the first wake-up packet of first terminal transmission, and according to the first wake-up packet, wake up master
Transmit-Receive Unit 1230.
Transmitting element 1220, for sending the second wake-up packet to the WUR units of first terminal, for the first wake-up packet
It is responded.
Main Transmit-Receive Unit 1230 upon awakening, communicates for the main Transmit-Receive Unit with first terminal.
Optionally, the first wake-up packet include wake up indication information, wake up indication information be used to indicate transmitting element 1220 with
The form of wake-up packet responds the first wake-up packet.
Optionally, the work state information that indication information includes the WUR units of first terminal is waken up,
Transmitting element 1220, specifically for the work state information of the WUR according to first terminal, to the WUR of first terminal
Send the second wake-up packet.When the WUR units of first terminal are in running order, transmitting element 1220 is believed according to instruction is waken up
Breath sends the second wake-up packet to the WUR units of first terminal.
Optionally, the second wake-up packet includes the WUR identification informations of receiving device, so that first terminal is by first terminal
WUR identification informations are matched with the WUR identification informations of receiving device, and according to matching result, pass through the main receipts of first terminal
Bill member communicates with the main Transmit-Receive Unit 1230 after waking up.
Optionally, the second wake-up packet includes the transmission address information of the network equipment, so that first terminal is according to the network equipment
Transmission address information, communicated by the main Transmit-Receive Unit of first terminal with the main Transmit-Receive Unit 1230 after waking up.
Optionally, the second wake-up packet includes data transfer direction information, so that first terminal is believed according to data transfer direction
Breath is communicated by the main Transmit-Receive Unit of first terminal with the main Transmit-Receive Unit 1230 after waking up.
Optionally, the second wake-up packet includes the identification information of the cell of the network equipment, so that first terminal is set according to network
The identification information of standby cell is communicated by the main Transmit-Receive Unit of first terminal with the main Transmit-Receive Unit 1230 after waking up.
Optionally, the second wake-up packet further includes the first indication information, and the first indication information is used to indicate main Transmit-Receive Unit
1230 have been waken up, so that the associated at least one second terminal equipment in addition to first terminal of the network equipment refers to according to first
Show information, communicated by the main Transmit-Receive Unit of at least one second terminal with the main Transmit-Receive Unit 1230 after waking up.
Optionally, the second wake-up packet further includes broadcast address, so that first terminal and at least one second terminal receive the
Two wake-up packets, and respectively by the main Transmit-Receive Unit of first terminal and the main Transmit-Receive Unit of at least one second terminal with wake up after
Main Transmit-Receive Unit 1230 communicate.
Optionally, the second wake-up packet further includes the first duration, and the first duration is the operating time of main Transmit-Receive Unit, so that the
The main Transmit-Receive Unit and the master after wake-up that one terminal passes through the first terminal according to confirmation indication information and the first duration is waken up
Transmit-Receive Unit 1230 communicates.
Optionally, the second wake-up packet further includes the second indication information, and the second indication information associates for waking up the network equipment
At least one third terminal so that the main Transmit-Receive Unit of the main Transmit-Receive Unit of first terminal and at least one third terminal is distinguished
It communicates with the main Transmit-Receive Unit 1230 after wake-up.
Optionally, the second wake-up packet further includes the WUR identification informations of at least one third terminal, so that at least one 3rd
Terminal receives the second wake-up packet, and according to the WUR identification informations of at least one third terminal, wakes up at least one third terminal
Main Transmit-Receive Unit;
Main Transmit-Receive Unit 1230 after wake-up communicates with the main Transmit-Receive Unit of at least one third terminal after wake-up.
Figure 13 is another terminal provided in an embodiment of the present invention.As shown in figure 13, which includes at least to wake up and receive
Machine (WUR) 1310, processor 1320, main transceiver 1330 (such as 802.11 main transceiver module), memory 1340 and dual-mode antenna
1350。
Optionally, dual-mode antenna 1350 can also be counted as a part for main transceiver 1330.In this case, receive and dispatch
Antenna 1350 can not have to draw in fig. 13.
Optionally, which can also include transmitter 1360.It should be noted that main transceiver 1330 has receiver
With the function of transmitter.Transmitter 1360 can be a part for main transceiver 1330 or independent device, below with
Exemplified by transmitter 1360 is independent device, it is introduced.
The instruction message or data-message that main transceiver 1330 is received from the acquisition main transceiver 1330 of memory 1340, and pass through
It is instructed after processing or data.The wake-up packet that receiver 1310 receives other equipment transmission by dual-mode antenna 1350 is waken up,
When wake-up receiver 1310 receives the wake-up packet for issuing oneself, trigger signal is sent to processor 1320, so that processor
1320 triggering main transceivers 1330, to wake up main transceiver 1330.
Wherein, main transceiver 1330, which sends message, to be modulated into electric signal from dual-mode antenna by message content to be sent
1350 are launched with electromagnetic wave, and wireless transceiver 1330 receives message and is also required to receive electricity by dual-mode antenna 1350
Magnetostatic wave signal simultaneously therefrom parses miscellaneous equipment and is sent to the message of oneself.
Processor 1320 can be central processing unit (English:Central processing unit, CPU) or CPU
With the combination of hardware chip.Above-mentioned hardware chip can be application-specific integrated circuit (English:application-specific
Integrated circuit, ASIC), programmable logic device (English:Programmable logic device, PLD) or
It is combined.Above-mentioned PLD can be Complex Programmable Logic Devices (English:complex programmable logic
Device, CPLD), field programmable gate array (English:Field-programmable gate array, FPGA), lead to
With array logic (English:Generic array logic, GAL) or its any combination.
Memory 1340 can include volatile memory (English:Volatile memory), such as random access memory
Device (English:Random-access memory, RAM);Memory 1340 can also include nonvolatile memory (English:
Non-volatile memory), such as read-only memory (English:Read-only memory, ROM), flash memory (English
Text:Flash memory), hard disk (English:Hard disk drive, HDD) or solid state disk (English:solid-state
Drive, SSD).Memory 1340 can also include the combination of the memory of mentioned kind.
With reference to Fig. 4, Fig. 7 and method shown in Fig. 9, the course of work of each function element of terminal can include:
Optionally, which can also include transmitter 1360.It should be noted that transmitter 1360 can be main transmitting-receiving
A part for device 1330 or independent device below by taking the device that transmitter 1360 is independent as an example, are introduced.
Processor 1320, for generating the first wake-up packet.
Transmitter, for sending the first wake-up packet to the WUR units of the network equipment, to wake up the main transmitting-receiving of the network equipment
Device.
Receiver 1310 is waken up, for receiving the second wake-up packet, for being responded to the first wake-up packet, second wakes up
Bag is sent by the network equipment.
Main transceiver 1330, for communicating with the main transceiver of the network equipment after wake-up.
It should be noted that main transceiver 1330 and wake up receiver 1310 and be operable with similar frequency bands, then dual-mode antenna
1350 include an antenna.Main transceiver 1330 and wake-up receiver 1310 are also operable with different frequency range, then dual-mode antenna
1350 can include the more antennas suitable for different frequency range, main transceiver 1330 and wake up the antenna that uses of receiver 1310 not phase
Together.
Since the embodiment and advantageous effect that each device of the terminal solves the problems, such as in above-described embodiment may refer to figure
4th, Fig. 7 and method embodiment shown in Fig. 9 and advantageous effect, therefore do not repeat again herein.
Figure 14 is another network equipment provided in an embodiment of the present invention, and as shown in figure 14, the network equipment is (as accessed
Point), can include waking up receiver (WUR) 1410, processor 1420, main transceiver 1430 (such as 802.11 main transceiver module),
Memory 1440 and dual-mode antenna 1450.
Optionally, dual-mode antenna 1450 can also be counted as a part for main transceiver 1430.In this case, receive and dispatch
Antenna 1450 can not have to draw in fig. 14.
Optionally, which can also include transmitter 1460.It is connect it should be noted that main transceiver 1430 has
Receive the function of device and transmitter.Transmitter 1460 can be a part for main transceiver 1430 or independent device.
Below by taking the device that transmitter 1460 is independent as an example, it is introduced.
The instruction message or data-message that main transceiver 1430 is received from the acquisition main transceiver 1430 of memory 1440, and pass through
It is instructed after processing or data.The wake-up packet that receiver 1410 receives other equipment transmission by dual-mode antenna 1450 is waken up,
When wake-up receiver 1410 receives the wake-up packet for issuing oneself, trigger signal is sent to processor 1420, so that processor
1420 triggering main transceivers 1430, to wake up main transceiver 1430.
Alternatively, processor 1420 will be ready to pass through instruction message that main transceiver 1430 sends and data-message is stored in
Reservoir 1430, processor 1420 sends to main transceiver 1430 and notifies after instruction to be sent or data are got out, with instruction
Data to be sent are ready for, last main transceiver 1430 obtains instruction to be sent or data from memory 1440, and
Launched by dual-mode antenna 1450.
Wherein, main transceiver 1430, which sends message, to be modulated into electric signal from dual-mode antenna by message content to be sent
1450 are launched with electromagnetic wave, and main transceiver 1430 receives message and is also required to receive electromagnetism by dual-mode antenna 1450
Ripple signal simultaneously therefrom parses miscellaneous equipment and is sent to the message of oneself.
Processor 1420 can be the combination of central processor CPU or CPU and hardware chip.Above-mentioned hardware chip can
To be application-specific integrated circuit ASIC, Programmable logic design or its combination.Above-mentioned PLD can be complicated programmable logic device
Part CPLD, field programmable gate array FPGA, universal finite element or its any combination.
Memory 1440 can include volatile memory, such as random access memory ram;Memory 1440 can also
Including nonvolatile memory, such as read only memory ROM, flash memory, hard disk HDD or solid-state hard disk SSD.Memory
1440 can also include the combination of the memory of mentioned kind.
With reference to Fig. 4, Fig. 7 and method shown in Fig. 9, the course of work of each function element of the network equipment can include:
Receiver 1410 is waken up, for receiving the first wake-up packet of first terminal transmission, and according to the first wake-up packet, is waken up
Main transceiver 1430.
Transmitter 1460, for sending the second wake-up packet to the wake-up receiver 1410 of first terminal, for first
Wake-up packet is responded.
Main transceiver 1430 upon awakening, communicates for the main transceiver with first terminal.
Main transceiver 1430 and wake-up receiver 1410 are operable with similar frequency bands, and dual-mode antenna 1450 can include same
Root antenna.Main transceiver 1430 and wake-up receiver 1410 are also operable with not frequency range, then dual-mode antenna 1450 is included and is suitable for
The antenna that more antennas of different frequency range, i.e. main transceiver 1430 and wake-up receiver 1410 use differs.
It should be noted that due to each device of the network equipment solves the problems, such as in above-described embodiment embodiment and have
Beneficial effect may refer to Fig. 4, Fig. 7 and method embodiment shown in Fig. 9 and advantageous effect, therefore not repeat again herein.
The step of method or algorithm for being described with reference to the embodiments described herein, can use hardware, processor to perform
The combination of software module or the two is implemented.Software instruction can be made of corresponding software module, and software module can be by
Deposit in random access memory, flash memory, read-only memory, erasable programmable read-only register (English:erasable
Programmable read-only memory, EPROM) memory, Electrically Erasable Programmable Read-Only Memory memory (English:
Electrically erasable programmable read-only memory, EEPROM), hard disk, read-only optical disc (English
Text:Compact disc read-only memory, CD-ROM) or any other form well known in the art storage be situated between
In matter.A kind of illustrative storage medium is coupled to processor, so as to enable a processor to from the read information, and
Information can be write to the storage medium.Certainly, storage medium can also be the component of processor.Pocessor and storage media
It can be located in ASIC.In addition, the ASIC can be located in user equipment.Certainly, pocessor and storage media can also be used as
Discrete assembly is present in user equipment.
Those skilled in the art are it will be appreciated that in said one or multiple examples, work(described in the invention
It can be realized with hardware, software, firmware or their any combination.It when implemented in software, can be by these functions
It is stored in computer-readable medium or is transmitted as one or more instructions on computer-readable medium or code.
Above-described specific embodiment has carried out the purpose of the present invention, technical solution and advantageous effect further
It is described in detail, it should be understood that the foregoing is merely the specific embodiments of the present invention, is not intended to limit the present invention
Protection domain, all any modification, equivalent substitution, improvement and etc. on the basis of technical scheme, done should all
Including within protection scope of the present invention.
Claims (48)
1. a kind of communication means, which is characterized in that the described method includes:
First equipment generates the first wake-up packet;
First equipment sends first wake-up packet to the wake-up receiver WUR of the second equipment, is set with waking up described second
Standby main transceiver module;
The WUR of first equipment receives the second wake-up packet, and for being responded to first wake-up packet, described second calls out
Bag of waking up is sent by second equipment;
The main transceiver module of first equipment communicates with the main transceiver module of second equipment after wake-up.
2. according to the method described in claim 1, it is characterized in that, first wake-up packet include wake up indication information, it is described
Wake-up indication information is used to indicate second equipment and first wake-up packet is responded with the mode of wake-up packet.
3. according to the method described in claim 2, it is characterized in that, the indication information that wakes up includes first equipment
The work state information of WUR,
The WUR of first equipment receives the second wake-up packet, and second wake-up packet is sent by second equipment, specific to wrap
It includes:
The WUR of first equipment receives second equipment and is sent according to the work state information of the WUR of first equipment
The second wake-up packet;
When the WUR of first equipment is in running order, the WUR of first equipment receives second equipment according to institute
It states and wakes up the second wake-up packet that indication information is sent.
4. according to the method described in claim 1, it is characterized in that, the WUR that second wake-up packet includes receiving device is identified
Information,
The main transceiver module of first equipment communicates with the main transceiver module of second equipment after wake-up, specific to wrap
It includes:
First equipment carries out the WUR identification informations of the WUR identification informations of first equipment and the receiving device
Match somebody with somebody;
First equipment is set according to matching result by the main transceiver module and described second after wake-up of first equipment
Standby main transceiver module communicates.
5. according to the method described in claim 1, it is characterized in that, second wake-up packet includes the transmission of second equipment
Address information,
The main transceiver module of first equipment communicates with the main transceiver module of second equipment after wake-up, specific to wrap
It includes:
First equipment according to the transmission address information of second equipment, by the main transceiver module of first equipment with
The main transceiver module of second equipment after wake-up communicates.
6. according to the method described in claim 1, it is characterized in that, second wake-up packet include data transfer direction information,
The main transceiver module of first equipment communicates with the main transceiver module of second equipment after wake-up, specific to wrap
It includes:
First equipment is according to the data transfer direction information, after the main transceiver module of first equipment and wake-up
The main transceiver module of second equipment communicate.
7. according to the method described in claim 1, it is characterized in that, second wake-up packet includes the cell of second equipment
Identification information,
The main transceiver module of first equipment communicates with the main transceiver module of second equipment after wake-up, specific to wrap
It includes:
First equipment passes through the main transceiver module of first equipment according to the identification information of the cell of second equipment
It communicates with the main transceiver module of second equipment after wake-up.
8. according to claim 1-7 any one of them methods, which is characterized in that second wake-up packet further includes the first instruction
Information, the main transceiver module that first indication information is used to indicate second equipment have been waken up, so that described second sets
Standby associated at least one third terminal in addition to first equipment according to first indication information, by it is described at least
The main transceiver module of one the 3rd equipment communicates with the main transceiver module of second equipment after wake-up.
9. according to the method described in claim 8, it is characterized in that, second wake-up packet further includes broadcast address, so that institute
The WUR for stating the WUR of the first equipment and at least one 3rd equipment receives second wake-up packet, and passes through described the respectively
The main transceiver module of one equipment and the main transceiver module of at least one 3rd equipment and second equipment after wake-up
Main transceiver module communicates.
10. according to the method described in claim 8, it is characterized in that, second wake-up packet further includes the first duration, described
The operating time of the main transceiver module of second equipment a length of for the moment,
The main transceiver module of first equipment communicates with the main transceiver module of second equipment after wake-up, specific to wrap
It includes:
First equipment passes through main transceiver module and second equipment of first equipment according to first duration
Main transceiver module communicates.
11. according to claim 1-6 any one of them methods, which is characterized in that second wake-up packet further includes the second finger
Show information, second indication information is used to wake up the main transceiver module of associated at least one 4th equipment of the second equipment,
So that the main transceiver module of first equipment and the main transceiver module of at least one 4th equipment, respectively with described second
The main transceiver module of equipment communicates.
12. according to the method for claim 11, which is characterized in that second wake-up packet further includes described at least one the
The WUR identification informations of four equipment, so that the WUR of at least one 4th equipment receives second wake-up packet, and according to institute
The WUR identification informations of at least one 4th equipment are stated, the main transceiver module of at least one 4th equipment is waken up, passes through wake-up
The main transceiver module of at least one 4th equipment afterwards and the main transceiver module of second equipment after wake-up are led to
Letter.
13. a kind of communication means, which is characterized in that the described method includes:
The receiver WUR that wakes up of second equipment receives the first wake-up packet that the first equipment is sent;
The WUR of second equipment is according to first wake-up packet, the main transceiver module of wake-up second equipment;
Second equipment sends the second wake-up packet to the WUR of first equipment, for being carried out to first wake-up packet
Response;
The main transceiver module of second equipment after wake-up communicates with the main transceiver module of first equipment.
14. according to the method for claim 13, which is characterized in that first wake-up packet includes waking up indication information, institute
It states and wakes up indication information and be used to indicate second equipment first wake-up packet is responded in the form of wake-up packet.
15. according to the method for claim 14, which is characterized in that the indication information that wakes up includes first equipment
The work state information of WUR,
Second equipment sends the second wake-up packet to first equipment, specifically includes:
Second equipment sends the according to the work state information of the WUR of first equipment, to the WUR of first equipment
Two wake-up packets;
When the WUR of first equipment is in running order, first equipment is according to the wake-up indication information, to described
The WUR of second equipment sends the second wake-up packet.
16. according to the method for claim 13, which is characterized in that the WUR that second wake-up packet includes receiving device is marked
Information is known, so that first equipment is by the WUR identification informations of the WUR identification informations of first equipment and the receiving device
It is matched, and according to matching result, passes through main transceiver module and second equipment after wake-up of first equipment
Main transceiver module communicates.
17. according to the method for claim 13, which is characterized in that second wake-up packet includes the hair of second equipment
Address information is sent, so that transmission address information of first equipment according to second equipment, passes through first equipment
Main transceiver module communicates with the main transceiver module of second equipment after wake-up.
18. according to the method for claim 13, which is characterized in that second wake-up packet is believed including data transfer direction
Breath, so that first equipment is according to the data transfer direction information, the main transmitting-receiving mould with second equipment after wake-up
Block communicates.
19. according to the method for claim 13, which is characterized in that second wake-up packet includes the small of second equipment
The identification information in area, so that identification information of first equipment according to the cell of second equipment, sets by described first
Standby main transceiver module communicates with the main transceiver module of second equipment after wake-up.
20. according to claim 13-19 any one of them methods, which is characterized in that second wake-up packet further includes first
Indication information, the main transceiver module that first indication information is used to indicate second equipment have been waken up, so that described
Associated at least one 3rd equipment in addition to first equipment of two equipment is according to first indication information, by described
The main transceiver module of at least one 3rd equipment communicates with the main transceiver module of second equipment after wake-up.
21. according to the method for claim 20, which is characterized in that second wake-up packet further includes broadcast address, so that
First equipment receives second wake-up packet at least one 3rd equipment, and passes through first equipment respectively
Main transceiver module and the main transceiver of at least one 3rd equipment communicate with second equipment after waking up.
22. according to the method for claim 20, which is characterized in that second wake-up packet further includes the first duration, described
The operating time of the main transceiver module of a length of second equipment when first, so that first equipment confirms according to described wake up
Indication information and first duration pass through the main transceiver module of first equipment and the master of first equipment after wake-up
Transceiver module communicates.
23. according to claim 13-19 any one of them methods, which is characterized in that second wake-up packet further includes second
Indication information, second indication information is for waking up associated at least one 4th equipment of second equipment, so that described
The main transceiver module of the main transceiver module of first equipment and at least one 4th equipment respectively with described second after wake-up
The main transceiver module of equipment communicates.
24. according to the method for claim 23, which is characterized in that second wake-up packet further includes described at least one the
The WUR identification informations of four equipment so that at least one 4th equipment receives second wake-up packet, and according to it is described at least
The WUR identification informations of one the 4th equipment wake up the main transceiver module of at least one 4th equipment;
The main transceiver module of second equipment after wake-up and the main transmitting-receiving mould of at least one 4th equipment after wake-up
Block communicates.
25. a kind of terminal, which is characterized in that the terminal includes:
Processing unit, for generating the first wake-up packet;
Transmitting element, for sending first wake-up packet to the WUR units of the network equipment, to wake up the master of the network equipment
Transmit-Receive Unit;
WUR units, for receiving the second wake-up packet, for being responded to first wake-up packet, second wake-up packet
It is sent by the network equipment;
Main Transmit-Receive Unit, for communicating with the main Transmit-Receive Unit of the network equipment after wake-up.
26. terminal according to claim 25, which is characterized in that first wake-up packet includes waking up indication information, institute
It states and wakes up indication information and be used to indicate the network equipment first wake-up packet is responded with the mode of wake-up packet.
27. terminal according to claim 26, which is characterized in that the indication information that wakes up includes the WUR units
Work state information,
The WUR units, the sent specifically for receiving the network equipment according to the work state information of the WUR units
Two wake-up packets;
When the WUR units are in running order, the WUR units receive the network equipment and are indicated according to described wake up
The second wake-up packet that information is sent.
28. terminal according to claim 25, which is characterized in that the WUR that second wake-up packet includes receiving device is marked
Know information,
The processing unit is additionally operable to the WUR identification informations by the WUR identification informations of the WUR units and the receiving device
It is matched;
According to matching result, led to by the main Transmit-Receive Unit of the main Transmit-Receive Unit and the network equipment after wake-up
Letter.
29. terminal according to claim 25, which is characterized in that second wake-up packet includes the hair of the network equipment
Send address information,
The processing unit is additionally operable to the transmission address information according to the network equipment, by the main Transmit-Receive Unit with calling out
The main Transmit-Receive Unit of the network equipment after waking up communicates.
30. terminal according to claim 25, which is characterized in that second wake-up packet is believed including data transfer direction
Breath,
The processing unit is additionally operable to according to the data transfer direction information, after the main Transmit-Receive Unit and wake-up
The main Transmit-Receive Unit of the network equipment communicates.
31. terminal according to claim 25, which is characterized in that second wake-up packet includes the small of the network equipment
The identification information in area,
The processing unit is additionally operable to the identification information of the cell according to the network equipment, by the main Transmit-Receive Unit with
The main Transmit-Receive Unit of the network equipment after wake-up communicates.
32. according to claim 25-31 any one of them terminals, which is characterized in that second wake-up packet further includes first
Indication information, the main Transmit-Receive Unit that first indication information is used to indicate the network equipment has been waken up, so that the net
The associated at least one first terminal in addition to the terminal of network equipment according to first indication information, by it is described at least
The main Transmit-Receive Unit of one first terminal communicates with the main Transmit-Receive Unit of the network equipment after wake-up.
33. terminal according to claim 32, which is characterized in that second wake-up packet further includes broadcast address, so that
The WUR units of the WUR units and at least one first terminal receive second wake-up packet, and pass through the master respectively
The main Transmit-Receive Unit of Transmit-Receive Unit and at least one first terminal, the main Transmit-Receive Unit with the network equipment after wake-up
It communicates.
34. terminal according to claim 32, which is characterized in that second wake-up packet further includes the first duration, described
The operating time of the main Transmit-Receive Unit of a length of network equipment when first,
The processing unit is additionally operable to according to first duration, passes through the main Transmit-Receive Unit and the network after wake-up
The main Transmit-Receive Unit of equipment communicates.
35. according to claim 25-30 any one of them terminals, which is characterized in that second wake-up packet further includes second
Indication information, second indication information are used to wake up the main transmitting-receiving list of the associated at least one second terminal of the network equipment
Member so that the main Transmit-Receive Unit and the main Transmit-Receive Unit of at least one second terminal, respectively with the network equipment
Main Transmit-Receive Unit communicates.
36. terminal according to claim 35, which is characterized in that second wake-up packet further includes described at least one
The WUR identification informations of two terminals, so that the WUR units of at least one second terminal receive second wake-up packet, and root
According to the WUR identification informations of at least one second terminal, the main Transmit-Receive Unit of at least one second terminal is waken up, is passed through
The main Transmit-Receive Unit of at least one second terminal after wake-up with wake up after the network equipment main Transmit-Receive Unit into
Row communication.
37. a kind of network equipment, which is characterized in that the network equipment includes:
WUR units, for receiving the first wake-up packet of first terminal transmission;
The WUR units are additionally operable to, according to first wake-up packet, wake up main Transmit-Receive Unit;
Transmitting element, for sending the second wake-up packet to the WUR units of the first terminal, for first wake-up packet
It is responded;
The main Transmit-Receive Unit upon awakening, communicates for the main Transmit-Receive Unit with the first terminal.
38. the network equipment according to claim 37, which is characterized in that first wake-up packet includes waking up instruction letter
Breath, the wake-up indication information are used to indicate the transmitting element and first wake-up packet are rung in the form of wake-up packet
It should.
39. the network equipment according to claim 38, which is characterized in that the wake-up indication information includes described first eventually
The work state information of the WUR units at end,
The transmitting element, specifically for the work state information of the WUR according to the first terminal, to the first terminal
WUR sends the second wake-up packet;
When the WUR units of the first terminal are in running order, the transmitting element according to the wake-up indication information, to
The WUR units of the first terminal send the second wake-up packet.
40. the network equipment according to claim 37, which is characterized in that second wake-up packet includes receiving device
WUR identification informations, so that the first terminal marks the WUR of the WUR identification informations of the first terminal and the receiving device
Know information to be matched, and according to matching result, pass through main Transmit-Receive Unit and the main receipts after wake-up of the first terminal
Bill member communicates.
41. the network equipment according to claim 37, which is characterized in that second wake-up packet includes the network equipment
Transmission address information so that transmission address information of the first terminal according to the network equipment, pass through described first eventually
The main Transmit-Receive Unit at end communicates with the main Transmit-Receive Unit after waking up.
42. the network equipment according to claim 37, which is characterized in that second wake-up packet includes data transfer direction
Information so that the first terminal is according to the data transfer direction information, by the main Transmit-Receive Unit of the first terminal with
The main Transmit-Receive Unit after wake-up communicates.
43. the network equipment according to claim 37, which is characterized in that second wake-up packet includes the network equipment
Cell identification information so that identification information of the first terminal according to the cell of the network equipment, passes through described
The main Transmit-Receive Unit of one terminal communicates with the main Transmit-Receive Unit after waking up.
44. according to claim 37-43 any one of them network equipments, which is characterized in that second wake-up packet further includes
First indication information, first indication information is used to indicate the main Transmit-Receive Unit and has been waken up, so that the network equipment
Associated at least one second terminal equipment in addition to the first terminal according to first indication information, by it is described extremely
The main Transmit-Receive Unit of a few second terminal communicates with the main Transmit-Receive Unit after waking up.
45. the network equipment according to claim 44, which is characterized in that second wake-up packet further includes broadcast address,
So that the first terminal receives second wake-up packet at least one second terminal, and it is whole by described first respectively
The main Transmit-Receive Unit at end and the main Transmit-Receive Unit of at least one second terminal are carried out with the main Transmit-Receive Unit after waking up
Communication.
46. the network equipment according to claim 44, which is characterized in that second wake-up packet further includes the first duration,
The operating time of a length of main Transmit-Receive Unit when described first, so that the first terminal confirms instruction letter according to described wake up
Breath and first duration are led to by the main Transmit-Receive Unit and the main Transmit-Receive Unit after waking up of the first terminal
Letter.
47. according to claim 37-43 any one of them network equipments, which is characterized in that second wake-up packet further includes
Second indication information, second indication information are used to wake up the associated at least one third terminal of the network equipment, so that
The main Transmit-Receive Unit of the main Transmit-Receive Unit of the first terminal and at least one third terminal respectively with after wake-up described in
Main Transmit-Receive Unit communicates.
48. the network equipment according to claim 47, which is characterized in that second wake-up packet further includes described at least one
The WUR identification informations of a third terminal, so that at least one third terminal receives second wake-up packet, and according to described
The WUR identification informations of at least one third terminal wake up the main Transmit-Receive Unit of at least one third terminal;
The main Transmit-Receive Unit after wake-up communicates with the main Transmit-Receive Unit of at least one third terminal after wake-up.
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CN201610986949.2A CN108064057B (en) | 2016-11-08 | 2016-11-08 | Communication method, network equipment and terminal |
PCT/CN2017/105358 WO2018086431A1 (en) | 2016-11-08 | 2017-10-09 | Communication method, network device and terminal |
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CN201610986949.2A CN108064057B (en) | 2016-11-08 | 2016-11-08 | Communication method, network equipment and terminal |
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CN108064057B (en) | 2020-05-08 |
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