CN109511133A - A kind of method and device waking up processing - Google Patents
A kind of method and device waking up processing Download PDFInfo
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- CN109511133A CN109511133A CN201710829164.9A CN201710829164A CN109511133A CN 109511133 A CN109511133 A CN 109511133A CN 201710829164 A CN201710829164 A CN 201710829164A CN 109511133 A CN109511133 A CN 109511133A
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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
- H04W28/0289—Congestion control
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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
-
- 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
- H04W52/0212—Power saving arrangements in terminal devices managed by the network, e.g. network or access point is master and terminal is slave
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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
- H04W52/0261—Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level
- H04W52/0287—Power saving arrangements in terminal devices managing power supply demand, e.g. depending on battery level changing the clock frequency of a controller in the equipment
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W64/00—Locating users or terminals or network equipment for network management purposes, e.g. mobility management
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- 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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Abstract
A method of waking up processing, comprising: receive the first battery saving mode parameter of Cloud Server distribution;The second battery saving mode parameter is negotiated according to the first battery saving mode parameter and network;Enter battery saving mode according to the second battery saving mode parameter, and is waken up from the battery saving mode.A kind of Internet of things device, controller, terminal, Cloud Server.This programme can prevent in Internet of Things great amount of terminals to wake up in a short time and cause network congestion.
Description
Technical field
The present embodiments relate to but be not limited to field of communication technology, espespecially it is a kind of wake up processing method and Internet of Things dress
It sets, controller, terminal, Cloud Server.
Background technique
Global communications industry in 2015 to be collectively formed a low-power consumption, wide area covering (Low Power Wide Area, letter
Claim LPWA) Internet of Things standard reach common understanding, NB-IoT (Narrow Band-Internet of Things, narrowband Internet of Things)
Standard is come into being.And now with the deployment of NB-IoT network and the release of each terminal chip producer NB-IoT chip, no
Few industry, for example rub to visit bicycle, water meter, intelligent parking etc. and have begun a NB-IoT chip and be applied in product.
The characteristics of NB-IoT technology has wide coverage, low in energy consumption, at low cost, supports super large connection.NB-IoT's makes
With scene generally all data of some data volume very littles of periodicity sending.NB-IoT chip realize power saving be because there is PSM function,
Terminal power consumption at PSM is extremely low, and only several microamperes.
PSM (Power save mode, battery saving mode) function operation mode is as shown in Figure 1, can be to network after terminal booting
Attach (attachment) signaling is initiated, network, which (adheres to and receives) in attach accept, can carry two parameters in downlink signaling, and one
A is that Active Timer (activation timer) is indicated with T3324 timer, the other is TAU (Tracking Area
Update, tracing section updating) parameter (generally indicated with T3324 or T3324ext timer, if band T3324ext with
Subject to T3324ext, without T3324ext, it is subject to T3324), terminal does business (sending and receiving data) after succeeding in registration, and finishes industry
Business can enter Active Timer, and subsequently into PSM mode, (PSM cycle duration is that TAU duration subtracts after PSM end cycle
Active Timer duration), then it is that terminal enters Activate Timer and PSM again that terminal, which wakes up, and is TAU to network
Mode.
Due to the super large connection performance of NB-IoT, the quantity that equipment can be included under same base station can be improved than the prior art
50 to 100 times (same sector can support 100,000 connection), under consolidated network or the same area, have very more terminals
It accesses simultaneously, if these terminals wake up simultaneously, or concentrate in a small period and wake up, then network can be received largely simultaneously
To the TAU request from different internet of things equipment, network congestion is caused, will increase NB-IoT terminal communication failure rate, is increased eventually
The number of retries of communication is held, the terminal works time is extended, increases power consumption of terminal.
NB-IoT network disposes completion not yet at present, and each producer of Internet of Things module has not been completed all in research and development
The product of authentication test.Therefore there is no existing realization in industry at present.The relevant technologies are also all to be conceived to single terminal behavior, are not had
It prevents great amount of terminals from waking up in a short time and causes network congestion.In addition network side has some control great amount of terminals in the short time
Interior wake-up causes the way of network congestion, such as Ericsson's network that can control not when TAU negotiates using a pseudo random number
It is waken up with terminal in a random time, but is not that every network has this function.
Summary of the invention
The embodiment of the present disclosure provides the method and Internet of things device, controller, terminal, Cloud Server of a kind of wake-up processing,
Network congestion is caused to prevent great amount of terminals from waking up in a short time.
A method of waking up processing, comprising:
Receive the first battery saving mode parameter of Cloud Server distribution;
The second battery saving mode parameter is negotiated according to the first battery saving mode parameter and network;
Enter battery saving mode according to the second battery saving mode parameter, and is waken up from the battery saving mode.
Optionally, before the first battery saving mode parameter for receiving Cloud Server distribution, further includes:
One or more data below: mark, the serving cell mark, tracking of this terminal are sent to the Cloud Server
Area code, location information, the third battery saving mode parameter being locally stored.
Optionally, the first battery saving mode parameter includes the first tracing section updating period, first tracing section updating
Period is the period of a specified time point or a designated length.
It is optionally, described that second battery saving mode is negotiated according to the first battery saving mode parameter and network, comprising:
When first battery saving mode for determining the third battery saving mode parameter being locally stored and Cloud Server distribution
When parameter is not met, the first tracing section updating request message is sent to network server, the first tracing section updating request disappears
Breath carries the 4th battery saving mode parameter, and the 4th battery saving mode parameter includes being determined according to the first battery saving mode parameter
4th activation timer duration value and the 4th tracing section updating period;
The tracing section updating received message that the network server returns is received, the tracing section updating received message carries
The second battery saving mode parameter, the second battery saving mode parameter include second determine activation timer duration and second with
The track area update cycle.
Optionally, described that battery saving mode is entered according to the second battery saving mode parameter, and called out from the battery saving mode
It wakes up, comprising:
The duration for keeping the state of battery saving mode is when subtracting the second activation timer in the second tracing section updating period
It is long, it is waken up from the battery saving mode at the end of the duration.
Optionally, described that battery saving mode is entered according to the second battery saving mode parameter, and called out from the battery saving mode
After waking up, further includes:
The second tracing section updating request message is sent to network, and the second tracing section updating request message carries described the
Two battery saving mode parameters.
A kind of Internet of things device, wherein include:
Receiving module, for receiving the wakeup time parameter of Cloud Server distribution;
Coordination module negotiates the second battery saving mode according to the first battery saving mode parameter and network;
Wake-up module, for entering battery saving mode according to the second battery saving mode parameter, and from the battery saving mode
It wakes up.
Optionally, the Internet of things device further include:
Sending module, for sending one or more data below: the mark of this terminal, service to the Cloud Server
Cell ID, tracking area code, location information, the third battery saving mode parameter being locally stored.
Optionally, the first battery saving mode parameter includes the first tracing section updating period, first tracing section updating
Period is the period of a specified time point or a designated length.
Optionally, the Internet of things device further includes,
Determining module determines described in the third battery saving mode parameter being locally stored and Cloud Server distribution for working as
When first battery saving mode parameter is not met, the first tracing section updating request message, first tracking are sent to network server
Area updates request message and carries the 4th battery saving mode parameter, and the 4th battery saving mode parameter includes according to the first power saving mould
The 4th activation timer duration value and the 4th tracing section updating period that formula parameter determines;
The receiving module, is also used to receive the tracing section updating received message that the network server returns, it is described with
Track area update message carries the second battery saving mode parameter, and the second battery saving mode parameter includes the second activation meter determined
When device duration and the second tracing section updating period.
Optionally, the wake-up module enters battery saving mode according to the second battery saving mode parameter, and from the power saving
It is waken up in mode, comprising: the duration for keeping the state of battery saving mode is to subtract the second activation in the second tracing section updating period
Timer duration wakes up from the battery saving mode at the end of the duration.
Optionally, the Internet of things device further include:
Sending module sends the second tracking area to network for the wake-up module after waking up in the battery saving mode
Request message is updated, the second tracing section updating request message carries the second battery saving mode parameter.
A kind of Internet of things device, comprising: memory, processor and storage can be run on a memory and on a processor
Computer program, wherein the processor performs the steps of when executing described program
Receive the first battery saving mode parameter of Cloud Server distribution;
The second battery saving mode negotiated according to the first battery saving mode parameter and network;
Enter battery saving mode according to the second battery saving mode parameter, and is waken up from the battery saving mode.
A kind of terminal, including above-mentioned Internet of things device.
A method of waking up processing, comprising:
After the business datum for receiving controller transmission, the third power saving mould being locally stored is added in the business datum
Cloud Server is sent to after formula parameter;
After receiving the first battery saving mode parameter that the Cloud Server returns, the first battery saving mode parameter is sent
To the controller.
Optionally, it is described the first battery saving mode parameter is sent to the controller after, further includes:
It shuts down after receiving the shutdown command of the controller.
Optionally, after shutting down after the shutdown command for receiving the controller, further includes:
It is switched on after receiving the power-on command of the controller.
A kind of Internet of things device, wherein include:
First transmission module adds this in the business datum after receiving the business datum that controller is sent
Cloud Server is sent to after the third battery saving mode parameter of ground storage;
Second transmission module, after receiving the first battery saving mode parameter that the Cloud Server returns, by first province
Power mode parameter is sent to the controller.
Optionally, the Internet of things device further include:
Processing module is shut down after the shutdown command for receiving the controller.
Optionally, the processing module is switched on after being also used to receive the power-on command of the controller.
A kind of Internet of things device, comprising: memory, processor and storage can be run on a memory and on a processor
Computer program, wherein the processor performs the steps of when executing described program
After the business datum for receiving controller transmission, the third power saving mould being locally stored is added in the business datum
Cloud Server is sent to after formula parameter;
After receiving the first battery saving mode parameter that the Cloud Server returns, the first battery saving mode parameter is sent
To the controller.
A method of waking up processing, comprising:
After sending power-on command to Internet of things device, Xiang Suoshu Internet of things device sends business datum;
The first battery saving mode parameter that the Internet of things device returns is received, according to the first battery saving mode state modulator
The Internet of things device wakes up.
Optionally, after the first battery saving mode parameter for receiving the Internet of things device return, further includes:
Shutdown command is sent to the Internet of things device.
Optionally, the Internet of things device according to the first battery saving mode state modulator wakes up, comprising:
When detecting that current time reaches the first battery saving mode parameter specified time, Xiang Suoshu Internet of things device
Send power-on command.
A kind of controller, wherein include:
Sending module, after sending power-on command to Internet of things device, Xiang Suoshu Internet of things device sends business datum;
Control module, the first battery saving mode parameter returned for receiving the Internet of things device, according to first province
Internet of things device described in power mode state modulator wakes up.
Optionally, the control module is also wrapped after receiving the first battery saving mode parameter that the Internet of things device returns
Include: Xiang Suoshu Internet of things device sends shutdown command.
Optionally, the control module, according to Internet of things device wake-up packet described in the first battery saving mode state modulator
Include: when detecting that current time reaches the first battery saving mode parameter specified time, Xiang Suoshu Internet of things device is sent
Power-on command.
A kind of controller, comprising: memory, processor and storage are on a memory and the calculating that can run on a processor
Machine program, wherein the processor performs the steps of when executing described program
After sending power-on command to Internet of things device, Xiang Suoshu Internet of things device sends business datum;
The first battery saving mode parameter that the Internet of things device returns is received, according to the first battery saving mode state modulator
The Internet of things device wakes up.
A kind of terminal, wherein including above-mentioned Internet of things device and above-mentioned controller.
A method of waking up processing, comprising:
Receive the third battery saving mode parameter of Internet of things device;
Corresponding first battery saving mode parameter is determined according to the third battery saving mode parameter, by first battery saving mode
Parameter is sent to the Internet of things device.
Optionally, the first battery saving mode parameter includes the period of a specified time point or a designated length.
A kind of Cloud Server, wherein include:
Receiving module, for receiving the third battery saving mode parameter of Internet of things device;
Determining module, for determining corresponding first battery saving mode parameter according to the third battery saving mode parameter, by institute
It states the first battery saving mode parameter and is sent to the Internet of things device.
Optionally, the first battery saving mode parameter includes the period of a specified time point or a designated length.
A kind of Cloud Server, comprising: memory, processor and storage are on a memory and the meter that can run on a processor
Calculation machine program, wherein the processor performs the steps of when executing described program
Receive the third battery saving mode parameter of Internet of things device;
Corresponding first battery saving mode parameter is determined according to the third battery saving mode parameter, by first battery saving mode
Parameter is sent to the Internet of things device.
The embodiment of the present disclosure provides the method and Internet of things device, controller, terminal, Cloud Server of a kind of wake-up processing,
Great amount of terminals can be prevented to wake up in a short time in Internet of Things and cause network congestion.
Detailed description of the invention
Fig. 1 is the flow chart that the Internet of things device side of the embodiment of the present invention one wake up the method for processing.
Fig. 2 is the flow chart that the Cloud Server side of the embodiment of the present invention one wake up the method for processing.
Fig. 3 is in the embodiment of the present invention one using exemplary flow chart.
Fig. 4 is the schematic diagram of the Internet of things device of the embodiment of the present invention one.
Fig. 5 is the schematic diagram of the Cloud Server of the embodiment of the present invention.
Fig. 6 is the flow chart of the method for the wake-up processing of the Internet of things device side of the embodiment of the present invention two.
Fig. 7 is the flow chart of the method for the wake-up processing of the controller side of the embodiment of the present invention two.
Fig. 8 is in the embodiment of the present invention two using exemplary flow chart.
Fig. 9 is the schematic diagram of the Internet of things device of the embodiment of the present invention two.
Figure 10 is the schematic diagram of the controller of the embodiment of the present invention two.
Specific embodiment
To make the objectives, technical solutions, and advantages of the present invention clearer, below in conjunction with attached drawing to the present invention
Embodiment be described in detail.It should be noted that in the absence of conflict, in the embodiment and embodiment in the application
Feature can mutual any combination.
Embodiment one
The application scenarios of the present embodiment are the Internet of Things application system that single Internet of things device is constituted.
Fig. 1 is the flow chart that the Internet of things device side of the embodiment of the present invention wake up the method for processing, as shown in Figure 1,
The method of the present embodiment includes:
Step 11, the first battery saving mode parameter for receiving Cloud Server distribution;
Step 12, the second battery saving mode negotiated according to the first battery saving mode parameter and network;
Step 13 enters battery saving mode according to the second battery saving mode parameter, and wakes up from the battery saving mode
Fig. 2 is the flow chart that the Cloud Server side of the embodiment of the present invention wake up the method for processing, as shown in Fig. 2, this
The method of embodiment includes:
Step 21, the third battery saving mode parameter for receiving Internet of things device;
Step 22 determines corresponding first battery saving mode parameter according to the third battery saving mode parameter, by described first
Battery saving mode parameter is sent to the Internet of things device.
The embodiment of the present invention relates generally to prevent a large amount of NB-IoT terminal device collection in the short time in a kind of NB-IoT network
Middle wake-up simultaneously sends the method that TAU is requested to network.
Terminal has data to be sent to Cloud Server every time, after Cloud Server receives terminal data, according to where Termination ID, terminal
Serving cell ID, and be stored in the end message of Cloud Server, such as each report cycle and Cloud Server other terminals
Relevant information calculates above-mentioned wakeup time terminal next time point (T according to certain algorithmwakeup) or period, and will be above-mentioned when
Between TwakeupIt is sent to above-mentioned terminal.Terminal compares oneself existing TAU period and Twakeup, if it does not match, retransmit TAU to
Network negotiates the new TAU period, after negotiating successfully, then terminal can TwakeupTime point wakes up.
Since the wakeup time of each terminal is calculated in Cloud Server, Cloud Server can control all terminals and wake up
Time, therefore be also possible to prevent great amount of terminals in the short time and network congestion phenomenon caused by wake-up is concentrated to occur, to accelerate PSM
Accessing terminal to network speed afterwards.
The embodiment of the present invention is suitable for supporting the NB-IOT module of PSM function, for supporting terminal request PSM parameter
It under network environment, reduces synchronization great amount of terminals and concentrates the probability for waking up and accessing network, thus reduce communication failure probability,
Optimize terminal power consumption amount and speeding up data transmission time.
Main body involved in the present embodiment has: Internet of things device, network side (operator's net including base station and core net
Network) and Cloud Server.Terminal includes above-mentioned Internet of things device.
Internet of things device accesses Cloud Server by the service that network side provides.Internet of things device may include communication module
And data memory module, communication module are used for network registry and data transmit-receive, data memory module can store communication module
Configuration and some parameters for issuing of network or Cloud Server.
It is described in detail below in method of the specific embodiment to the present embodiment.
As shown in figure 3, the method for the present embodiment the following steps are included:
Step 101, attach request (attach request) is initiated to network first after Internet of things device booting;
When attach request (attach request) is terminal registration network, initiate to core net first of terminal eats dishes without rice or wine
Message, after core net receives the attach request of terminal, core net can be initiated to authenticate relevant security request, after the authentication is passed, core
Heart net can issue attachment and accept message to terminal, then terminal can normal use network service.
Step 102, the parameter of activation timer parameter and TAU period can be carried in the attachment received message that network issues.
Wherein, activation timer indicates that meaning is after terminal enters idle (free time) state, to wait an activation with T3324
After the duration of timer, terminal enters PSM state.TAU parameter is indicated with T3412 or T3412extend (extension), different
Core net is realized may be different.Terminal is subject to T3412 when not receiving T3412 extension, expands receiving T3412
When exhibition, then T3412 of being subject to extends, and TAU parameter is called in the present embodiment.The meaning terminal of TAU parameter enters idle
After state, after crossing the duration of TAU parameter setting, it should initiate a TAU request to network.
Step 101 and step 102 are all to belong to conventional behavior by existing 3GPP protocol specification.
Step 103: Internet of things device sends data to Cloud Server, comprising: Termination ID, serving cell ID, TAC (tracking
Area's code), location information, TAU parameter, the activation parameters such as timer, certain that can be sent in these parameters is some, can also be more than
Send out these parameters.
Internet of things device can be sent to cloud clothes by the way that these parameters are attached to the subsequent mode of the data packet to be sent
These parameters, individually can also be sent to Cloud Server in the form of IP packet by business device.
Step 104: Cloud Server calculates a TAU parameter according to the parameter of terminal, issues terminal and is TAU next time and asks
The time parameter asked.
The TAU parameter can be a specific time point, such as 2017-10-10 10:10:10, be also possible to one
Period, such as from 2017-10-10 10:10:10 to 2017-10-10 10:10:20.Period means terminal at this
The wake-up of any one moment is done TAU request and is all possible in period.
The parameter that Cloud Server is uploaded according to each terminal, according to certain algorithm distribute to one TAU time point of terminal or
Period, it is therefore an objective to not have great amount of terminals in this time while initiate TAU, it is intended to keep the terminal of whole system equal at one
The time of even distribution wakes up.
Here a specific implementation is provided, Cloud Server is directed to each serving cell ID, time resource by certain
Time span t be divided into fritter, i-th of period, Ri started from T+i*T, ended at T+ (i+1) * t, and Cloud Server receives end
After the request of end, the activation timer reported first according to terminal, TAU duration calculation goes out terminal wakeup time next time Twakeup, then
From the Resources list of respective cell, terminal T is found outwakeupThe period Ri at place distributes to Ri affiliated if Ri is available
Otherwise terminal looks for a distance Ri nearest period to distribute to terminal.
The initial time of period is sent to terminal by downlink data by Cloud Server.
The calculated TAU parameter can guarantee that terminal is subject to the parameter into after the PSM period, when terminal wakes up not
It has other a large amount of terminals while waking up, therefore can avoid to the greatest extent and other modules while competition network resource.Cloud Server handle
The calculated TAU parameter is sent to Internet of Things module by IP packet form.
Step 105: Internet of things device receives the initial time section in Cloud Server TAU period, judges that Internet of things device is current
Whether the time of TAU is within the period that Cloud Server issues under parameter, if it is not, then Internet of things device needs and network weight
The new activation timer and TAU cycle parameter for negotiating PSM.Internet of things device needs to initiate TAU request, to renegotiate the two
Parameter, the value of T3324 parameter carried in TAU request are the legitimate value closest to activation timer, and T3412 spreading parameter is also
One legitimate value of one TAU cycle parameter issued closest to Cloud Server, then goes to step 106;If so, not needing weight then
It is new to initiate TAU request.
Step 106: network issues TAU received message, wherein T3324 and T3412 (or T3412 extension), table can be issued
Show that core net receives and confirmed the value of the two parameters, negotiates subject to the parameter that successful result is exactly TAU received message;
Step 107: after Internet of things device enters Idle state, by the parameter negotiated in step 106, waiting timer to be activated
Time enters PSM state after activating timer expired;
Step 108: Internet of things device presses the TAU period that step 106 is negotiated, and into PSM, Internet of things device is maintained at PSM
State when a length of TAU period subtract the duration of activation timer.
It is 20 seconds that T3324 is carried such as in step 106, in TAU received message, and T3412ext is 3600 seconds, then module
The time that PSM should be maintained at is 3580 seconds.
Step 109: Internet of things device presses the TAU parameter that step 106 is negotiated, and wakes up after expiring and initiates TAU to network and asks
Seek message.
With example described in step 108, Internet of things device should wake up after entering PSM state 3580 seconds, and to network
TAU request is sent, wherein the type of TAU is periodic updating (periodical tracing section updating).
Fig. 4 is the schematic diagram of the Internet of things device of the embodiment of the present invention, as shown in figure 4, the Internet of things device of the present embodiment
Include:
Receiving module, for receiving the wakeup time parameter of Cloud Server distribution;
Coordination module, the second battery saving mode negotiated according to the first battery saving mode parameter and network;
Wake-up module, for entering battery saving mode according to the second battery saving mode parameter, and from the battery saving mode
It wakes up.
In one embodiment, the Internet of things device can also include:
Sending module, for sending one or more data below: the mark of this terminal, service to the Cloud Server
Cell ID, tracking area code, location information, the third battery saving mode parameter being locally stored.
In one embodiment, the Internet of things device can also include,
Determining module determines described in the third battery saving mode parameter being locally stored and Cloud Server distribution for working as
When first battery saving mode parameter is not met, the first tracing section updating request message, first tracking are sent to network server
Area updates request message and carries the 4th battery saving mode parameter, and the 4th battery saving mode parameter includes according to the first power saving mould
The 4th activation timer duration value and the 4th tracing section updating period that formula parameter determines;;
The receiving module, is also used to receive the tracing section updating received message that the network server returns, it is described with
Track area update message carries the second battery saving mode parameter, and the second battery saving mode parameter includes the second activation meter determined
When device duration and the second tracing section updating period.
In one embodiment, the wake-up module enters battery saving mode according to the second battery saving mode parameter, and from institute
Stating the duration that wake-up in battery saving mode includes: the state for keeping battery saving mode is to subtract second in the second tracing section updating period
Timer duration is activated, is waken up from the battery saving mode at the end of the duration.
In one embodiment, the Internet of things device further include: sending module is used for the wake-up module from the power saving
After waking up in mode, the second tracing section updating request message is sent to network, the second tracing section updating request message carries
The second battery saving mode parameter.
The embodiment of the present invention also provides a kind of Internet of things device, comprising: memory, processor and storage are on a memory simultaneously
The computer program that can be run on a processor, wherein the processor performs the steps of when executing described program
Receive the first battery saving mode parameter of Cloud Server distribution;
The second battery saving mode negotiated according to the first battery saving mode parameter and network;
Enter battery saving mode according to the second battery saving mode parameter, and is waken up from the battery saving mode.
Fig. 5 is the schematic diagram of the Cloud Server of the embodiment of the present invention, as shown in figure 5, the Cloud Server of the present embodiment includes:
Receiving module, for receiving the third battery saving mode parameter of Internet of things device;
Determining module, for determining corresponding first battery saving mode parameter according to the third battery saving mode parameter, by institute
It states the first battery saving mode parameter and is sent to the Internet of things device.
In one embodiment, the wakeup time parameter includes the period of a specified time point or a designated length.
The embodiment of the present invention also provides a kind of Cloud Server, comprising: memory, processor and storage are on a memory and can
The computer program run on a processor, wherein the processor performs the steps of when executing described program
Receive the third battery saving mode parameter of Internet of things device;
Corresponding first battery saving mode parameter is determined according to the third battery saving mode parameter, by first battery saving mode
Parameter is sent to the Internet of things device.
The scheme of the present embodiment can reduce synchronization great amount of terminals and concentrate the probability for waking up and accessing network, thus
Communication failure probability is reduced, terminal power consumption amount and speeding up data transmission time are optimized.
Embodiment two
The application scenarios of the present embodiment are that MCU (Microcontroller Unit, micro-control unit) connects Internet of Things mould
The Internet of Things application system that block is constituted.
Fig. 6 is the flow chart of the method for the wake-up processing of the Internet of things device side of the embodiment of the present invention, as shown in fig. 6, this
The method of embodiment includes:
Step 31 after receiving the business datum of controller transmission, adds the be locally stored in the business datum
Cloud Server is sent to after three battery saving mode parameters;
Step 32, after receiving the first battery saving mode parameter that the Cloud Server returns, by first battery saving mode
Parameter is sent to the controller.
Fig. 7 is the flow chart of the method for the wake-up processing of the controller side of the embodiment of the present invention, as shown in fig. 7, this implementation
Example method include:
Step 41, to Internet of things device send power-on command after, Xiang Suoshu Internet of things device send business datum;
Step 42 receives the first battery saving mode parameter that the Internet of things device returns, according to first battery saving mode
Internet of things device described in state modulator wakes up.
In the application of the present embodiment, MCU is responsible for the opening and closing of Internet of things device, and MCU is completed by Internet of Things module
It is transmitted with the data of Cloud Server.
Internet of things device shutdown can be controlled after power saving purpose, MCU data have been sent in order to realize.Then control Internet of Things dress
Periodically booting is set to receive Cloud Server data or send data to Cloud Server.
If a large amount of Internet of things device are switched in the same time inside the same cell, it equally will appear Internet of things device note
Congestion when volume network.The present embodiment can make Cloud Server issue the Internet of things device next available machine time, when MCU detection system
Between, control Internet of things device can be to avoid network congestion in the time booting that Cloud Server is formulated.
Fig. 8 be the present invention one apply exemplary flow chart, as shown in figure 8, this application example the following steps are included:
Step 201, MCU controls the booting of Internet of Things module.
Step 202, Internet of Things module is switched on, and initiates Attach Request message to network.
The step is identical as step 101, and which is not described herein again.
Step 203, network sends attachment received message to terminal.
The step is identical as step 102, and which is not described herein again.
Step 204, MCU is sent to the business datum of Cloud Server to Internet of things device.
Step 205, Internet of things device receives after MCU is sent to Cloud Server data, is waken up behind the business datum in addition
Relevant parameter, such as MCUID, the parameters such as Internet of Things module service cell ID, TAC, and business datum is sent to Cloud Server.
Step 206, Cloud Server calculates a time point or period by the information in step 205, it is therefore an objective to eventually
It can avoid the generation of network congestion end next time as far as possible when being switched at this time point or period, and the temporal information is sent out
Internet of things device is given, MCU is handed down to by Internet of things device.
Step 207, MCU is received after Cloud Server issues temporal information, sends shutdown command, closure to Internet of things device
Interconnection device.
Step 208, the MCU detection system time.
Step 209, when MCU detects that current time reaches the time that Cloud Server issues, control Internet of things device booting
With sending and receiving data.
Because same cell does business terminal quantity while capable of supporting is limited, done if great amount of terminals wakes up simultaneously
Business will lead to part terminal and not be available network, and terminal can not only stop to attempt, until there is other terminals to exit, therefore this reality
The generation of such case can be prevented or reduced by applying the example scheme, reduce power consumption of terminal, extend service time of battery.
Fig. 9 is the schematic diagram of the Internet of things device of the embodiment of the present invention, as shown in figure 9, the Internet of things device of the present embodiment
Include:
First transmission module adds this in the business datum after receiving the business datum that controller is sent
Cloud Server is sent to after the third battery saving mode parameter of ground storage;
Second transmission module, after receiving the first battery saving mode parameter that the Cloud Server returns, by first province
Power mode parameter is sent to the controller.
In one embodiment, the Internet of things device further include:
Processing module is shut down after the shutdown command for receiving the controller.
In one embodiment, the processing module is switched on after being also used to receive the power-on command of the controller.
The embodiment of the present invention also provides a kind of Internet of things device, comprising: memory, processor and storage are on a memory simultaneously
The computer program that can be run on a processor, wherein the processor performs the steps of when executing described program
After the business datum for receiving controller transmission, the third power saving mould being locally stored is added in the business datum
Cloud Server is sent to after formula parameter;
After receiving the first battery saving mode parameter that the Cloud Server returns, the first battery saving mode parameter is sent
To the controller.
Figure 10 is the schematic diagram of the controller of the embodiment of the present invention, and as shown in Figure 10, the controller of the present embodiment includes:
Sending module, after sending power-on command to Internet of things device, Xiang Suoshu Internet of things device sends business datum;
Control module, the first battery saving mode parameter returned for receiving the Internet of things device, according to first province
Internet of things device described in power mode state modulator wakes up.
In one embodiment, the control module, after receiving the first battery saving mode parameter that the Internet of things device returns,
Further include: Xiang Suoshu Internet of things device sends shutdown command.
In one embodiment, the control module, according to Internet of things device described in the first battery saving mode state modulator
Wake-up includes: the Xiang Suoshu Internet of Things dress when detecting that current time reaches the first battery saving mode parameter specified time
Set transmission power-on command.
The embodiment of the present invention also provides a kind of controller, comprising: memory, processor and storage are on a memory and can be
The computer program run on processor, wherein the processor performs the steps of when executing described program
After sending power-on command to Internet of things device, Xiang Suoshu Internet of things device sends business datum;
The first battery saving mode parameter that the Internet of things device returns is received, according to the first battery saving mode state modulator
The Internet of things device wakes up.
The present embodiment also provides a kind of terminal, including above-mentioned Internet of things device and above-mentioned controller.
The embodiment of the invention also provides a kind of computer readable storage mediums, are stored with computer executable instructions,
The computer executable instructions, which are performed, realizes the method for waking up processing.
Those of ordinary skill in the art will appreciate that all or part of the steps in the above method can be instructed by program
Related hardware is completed, and described program can store in computer readable storage medium, such as read-only memory, disk or CD
Deng.Optionally, one or more integrated circuits can be used also to realize in all or part of the steps of above-described embodiment.Accordingly
Ground, each module/unit in above-described embodiment can take the form of hardware realization, can also use the shape of software function module
Formula is realized.The present invention is not limited to the combinations of the hardware and software of any particular form.
The above is only a preferred embodiment of the present invention, and certainly, the invention may also have other embodiments, without departing substantially from this
In the case where spirit and its essence, those skilled in the art make various corresponding changes in accordance with the present invention
And deformation, but these corresponding changes and modifications all should fall within the scope of protection of the appended claims of the present invention.
Claims (34)
1. a kind of method for waking up processing, comprising:
Receive the first battery saving mode parameter of Cloud Server distribution;
The second battery saving mode parameter is negotiated according to the first battery saving mode parameter and network;
Enter battery saving mode according to the second battery saving mode parameter, and is waken up from the battery saving mode.
2. the method as described in claim 1, it is characterised in that: the first battery saving mode parameter for receiving Cloud Server distribution
Before, further includes:
One or more data below: mark, the serving cell mark, tracking area generation of this terminal are sent to the Cloud Server
Code, location information, the third battery saving mode parameter being locally stored.
3. the method as described in claim 1, it is characterised in that:
The first battery saving mode parameter included the first tracing section updating period, and the first tracing section updating period is one specified
Time point or the period of a designated length.
4. method as claimed in claim 3, it is characterised in that: described to be negotiated according to the first battery saving mode parameter and network
Second battery saving mode out, comprising:
When the first battery saving mode parameter for determining the third battery saving mode parameter being locally stored and Cloud Server distribution
When not meeting, the first tracing section updating request message is sent to network server, the first tracing section updating request message is taken
The 4th battery saving mode parameter of band, the 4th battery saving mode parameter include the 4th determined according to the first battery saving mode parameter
Activate timer duration value and the 4th tracing section updating period;
The tracing section updating received message that the network server returns is received, described in the tracing section updating received message carries
Second battery saving mode parameter, the second battery saving mode parameter include the second activation timer duration determined and the second tracking area
Update cycle.
5. method as claimed in claim 4, it is characterised in that: described to enter power saving mould according to the second battery saving mode parameter
Formula, and waken up from the battery saving mode, comprising:
The duration for keeping the state of battery saving mode is to subtract the second activation timer duration in the second tracing section updating period, when
It is waken up from the battery saving mode at the end of the duration.
6. the method as described in claim 1, it is characterised in that: described to enter power saving mould according to the second battery saving mode parameter
Formula, and after being waken up in the battery saving mode, further includes:
The second tracing section updating request message is sent to network, the second tracing section updating request message carries second province
Power mode parameter.
7. a kind of Internet of things device characterized by comprising
Receiving module, for receiving the wakeup time parameter of Cloud Server distribution;
Coordination module negotiates the second battery saving mode according to the first battery saving mode parameter and network;
Wake-up module for entering battery saving mode according to the second battery saving mode parameter, and wakes up from the battery saving mode.
8. Internet of things device as claimed in claim 7, it is characterised in that: the Internet of things device further include:
Sending module, for sending one or more data below: the mark of this terminal, serving cell to the Cloud Server
Mark, tracking area code, location information, the third battery saving mode parameter being locally stored.
9. Internet of things device as claimed in claim 7, it is characterised in that:
The first battery saving mode parameter included the first tracing section updating period, and the first tracing section updating period is one specified
Time point or the period of a designated length.
10. Internet of things device as claimed in claim 9, it is characterised in that: the Internet of things device further includes,
Determining module, for when described the first of the determining third battery saving mode parameter being locally stored and Cloud Server distribution
When battery saving mode parameter is not met, the first tracing section updating request message is sent to network server, first tracking area is more
New request message carries the 4th battery saving mode parameter, and the 4th battery saving mode parameter includes being joined according to first battery saving mode
The 4th determining activation timer duration value of number and the 4th tracing section updating period;
The receiving module is also used to receive the tracing section updating received message that the network server returns, the tracking area
Update message carries the second battery saving mode parameter, and the second battery saving mode parameter includes the second activation timer determined
Duration and the second tracing section updating period.
11. Internet of things device as claimed in claim 10, it is characterised in that:
The wake-up module enters battery saving mode according to the second battery saving mode parameter, and wakes up from the battery saving mode,
The duration for including: the state for keeping battery saving mode is to subtract the second activation timer duration in the second tracing section updating period,
It is waken up from the battery saving mode at the end of the duration.
12. Internet of things device as claimed in claim 7, it is characterised in that: the Internet of things device further include:
Sending module sends the second tracing section updating to network for the wake-up module after waking up in the battery saving mode
Request message, the second tracing section updating request message carry the second battery saving mode parameter.
13. a kind of Internet of things device, comprising: memory, processor and storage can be run on a memory and on a processor
Computer program, which is characterized in that the processor performs the steps of when executing described program
Receive the first battery saving mode parameter of Cloud Server distribution;
The second battery saving mode negotiated according to the first battery saving mode parameter and network;
Enter battery saving mode according to the second battery saving mode parameter, and is waken up from the battery saving mode.
14. a kind of terminal, which is characterized in that including such as described in any item Internet of things device of claim 7-13.
15. a kind of method for waking up processing, comprising:
After the business datum for receiving controller transmission, the third battery saving mode ginseng being locally stored is added in the business datum
Cloud Server is sent to after number;
After receiving the first battery saving mode parameter that the Cloud Server returns, the first battery saving mode parameter is sent to institute
State controller.
16. method as claimed in claim 15, it is characterised in that: described that the first battery saving mode parameter is sent to the control
After device processed, further includes:
It shuts down after receiving the shutdown command of the controller.
17. method as claimed in claim 16, it is characterised in that: shut down after the shutdown command for receiving the controller
Afterwards, further includes:
It is switched on after receiving the power-on command of the controller.
18. a kind of Internet of things device characterized by comprising
First transmission module adds local deposits after receiving the business datum that controller is sent in the business datum
Cloud Server is sent to after the third battery saving mode parameter of storage;
Second transmission module, after receiving the first battery saving mode parameter that the Cloud Server returns, by the first power saving mould
Formula parameter is sent to the controller.
19. Internet of things device as claimed in claim 18, it is characterised in that: the Internet of things device further include:
Processing module is shut down after the shutdown command for receiving the controller.
20. Internet of things device as claimed in claim 19, it is characterised in that:
The processing module is switched on after being also used to receive the power-on command of the controller.
21. a kind of Internet of things device, comprising: memory, processor and storage can be run on a memory and on a processor
Computer program, which is characterized in that the processor performs the steps of when executing described program
After the business datum for receiving controller transmission, the third battery saving mode ginseng being locally stored is added in the business datum
Cloud Server is sent to after number;
After receiving the first battery saving mode parameter that the Cloud Server returns, the first battery saving mode parameter is sent to institute
State controller.
22. a kind of method for waking up processing, comprising:
After sending power-on command to Internet of things device, Xiang Suoshu Internet of things device sends business datum;
The first battery saving mode parameter that the Internet of things device returns is received, according to the first battery saving mode state modulator
Internet of things device wakes up.
23. method as claimed in claim 22, it is characterised in that: the first power saving mould for receiving the Internet of things device and returning
After formula parameter, further includes:
Shutdown command is sent to the Internet of things device.
24. method as claimed in claim 23, it is characterised in that: the object according to the first battery saving mode state modulator
Interconnection device wakes up, comprising:
When detecting that current time reaches the first battery saving mode parameter specified time, Xiang Suoshu Internet of things device is sent
Power-on command.
25. a kind of controller characterized by comprising
Sending module, after sending power-on command to Internet of things device, Xiang Suoshu Internet of things device sends business datum;
Control module, the first battery saving mode parameter returned for receiving the Internet of things device, according to the first power saving mould
Internet of things device described in formula state modulator wakes up.
26. controller as claimed in claim 25, it is characterised in that:
The control module, after receiving the first battery saving mode parameter that the Internet of things device returns, further includes: Xiang Suoshu Internet of Things
Net device sends shutdown command.
27. controller as claimed in claim 26, it is characterised in that:
The control module includes: to work as to detect according to the wake-up of Internet of things device described in the first battery saving mode state modulator
When current time reaches the first battery saving mode parameter specified time, Xiang Suoshu Internet of things device sends power-on command.
28. a kind of controller, comprising: memory, processor and storage are on a memory and the calculating that can run on a processor
Machine program, which is characterized in that the processor performs the steps of when executing described program
After sending power-on command to Internet of things device, Xiang Suoshu Internet of things device sends business datum;
The first battery saving mode parameter that the Internet of things device returns is received, according to the first battery saving mode state modulator
Internet of things device wakes up.
29. a kind of terminal, which is characterized in that including such as described in any item Internet of things device of claim 16-19 and such as right
It is required that the described in any item controllers of 23-26.
30. a kind of method for waking up processing, comprising:
Receive the third battery saving mode parameter of Internet of things device;
Corresponding first battery saving mode parameter is determined according to the third battery saving mode parameter, by the first battery saving mode parameter
It is sent to the Internet of things device.
31. method as claimed in claim 30, it is characterised in that:
The first battery saving mode parameter includes the period of a specified time point or a designated length.
32. a kind of Cloud Server characterized by comprising
Receiving module, for receiving the third battery saving mode parameter of Internet of things device;
Determining module, for determining corresponding first battery saving mode parameter according to the third battery saving mode parameter, by described
One battery saving mode parameter is sent to the Internet of things device.
33. Cloud Server as claimed in claim 32, it is characterised in that:
The first battery saving mode parameter includes the period of a specified time point or a designated length.
34. a kind of Cloud Server, comprising: memory, processor and storage are on a memory and the meter that can run on a processor
Calculation machine program, which is characterized in that the processor performs the steps of when executing described program
Receive the third battery saving mode parameter of Internet of things device;
Corresponding first battery saving mode parameter is determined according to the third battery saving mode parameter, by the first battery saving mode parameter
It is sent to the Internet of things device.
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Also Published As
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WO2019052163A1 (en) | 2019-03-21 |
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