WO2015192523A1 - 一种管理移动热点的方法、装置及系统 - Google Patents

一种管理移动热点的方法、装置及系统 Download PDF

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Publication number
WO2015192523A1
WO2015192523A1 PCT/CN2014/087334 CN2014087334W WO2015192523A1 WO 2015192523 A1 WO2015192523 A1 WO 2015192523A1 CN 2014087334 W CN2014087334 W CN 2014087334W WO 2015192523 A1 WO2015192523 A1 WO 2015192523A1
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WIPO (PCT)
Prior art keywords
connection
remote control
mobile
request message
hotspot
Prior art date
Application number
PCT/CN2014/087334
Other languages
English (en)
French (fr)
Inventor
童晓演
Original Assignee
中兴通讯股份有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 中兴通讯股份有限公司 filed Critical 中兴通讯股份有限公司
Priority to EP14895032.2A priority Critical patent/EP3160212A4/en
Priority to US15/318,970 priority patent/US20170238347A1/en
Priority to JP2016573478A priority patent/JP2017528017A/ja
Publication of WO2015192523A1 publication Critical patent/WO2015192523A1/zh

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/10Connection setup
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W52/00Power management, e.g. TPC [Transmission Power Control], power saving or power classes
    • H04W52/02Power saving arrangements
    • H04W52/0203Power saving arrangements in the radio access network or backbone network of wireless communication networks
    • H04W52/0206Power saving arrangements in the radio access network or backbone network of wireless communication networks in access points, e.g. base stations
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W72/00Local resource management
    • H04W72/20Control channels or signalling for resource management
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W88/00Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
    • H04W88/02Terminal devices
    • H04W88/04Terminal devices adapted for relaying to or from another terminal or user
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W88/00Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
    • H04W88/02Terminal devices
    • H04W88/06Terminal devices adapted for operation in multiple networks or having at least two operational modes, e.g. multi-mode terminals
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D30/00Reducing energy consumption in communication networks
    • Y02D30/70Reducing energy consumption in communication networks in wireless communication networks

Definitions

  • the present invention relates to the field of mobile communications, and in particular, to a method, device, and system for managing a mobile hotspot.
  • the mobile hotspot device is an uplink that connects to the Internet through a mobile communication network such as 4/3/2 generation (4G/3G/2G, Fouth/Third/Second Generation) mobile communication technology, and supports a wireless local area network (WLAN, Wireless Local Area Network).
  • a mobile wireless data terminal such as a local wireless connection.
  • Other mobile devices such as mobile phones, tablets or laptops with local WLAN connections enabled can access the Internet via mobile hotspot devices.
  • mobile hotspot devices as a portable mobile data terminal, are more used in conjunction with mobile intelligent terminals and tablet computers.
  • the mobile hotspot device needs to be taken out first, and the mobile hotspot device is turned on or off by pressing the physical button on the mobile hotspot device.
  • the mobile hotspot device is removed.
  • the user needs to frequently remove, plug, and put back to open and close the mobile hotspot device, which greatly reduces the user experience.
  • the uplink 4G/3G/2G wireless connection and the downlink WLAN wireless connection work simultaneously, and the power consumption is large.
  • the mobile hotspot device does not interact with the mobile terminal that uses the hotspot, and the mobile hotspot device must be in a working state for a long time, greatly reducing The battery life of the mobile hotspot device.
  • the problems existing in the prior art are as follows: 1) The control method is cumbersome, resulting in frequent manual removal and re-entry during heavy use, and opening and closing the mobile hotspot device through physical buttons; 2) mobile hotspot device and use There is no interaction between the hot-spot mobile terminals, that is, there is no uploading and downloading operation, and the mobile hotspot device will always be in a working state, and the power consumption is large, which affects the endurance capability.
  • the embodiments of the present invention are directed to a method, an apparatus, and a system for managing a mobile hotspot, which can remotely turn on and off a mobile hotspot device, and prevent frequent manual fetching and putting back as a mobile hotspot device when the user is fragmented.
  • An embodiment of the present invention provides a method for managing a mobile hotspot, the method comprising: establishing a first connection; the first connection is used as a control channel, and is used for remote control message interaction between the mobile hotspot device and the mobile terminal; The first connection receives the remote control request message, and responds to the remote control request message, and performs corresponding opening and closing processing on the mobile hotspot device according to the remote control request message.
  • the method further includes: acquiring a device status of the mobile hotspot device; acquiring device status information of the mobile hotspot device according to the device status; and broadcasting the device status information by using the first connection.
  • the acquiring the device status information of the mobile hotspot device according to the device status includes: acquiring the device status information online when the device status is the working status; and localizing when the device status is the closed status Obtaining the stored device status information.
  • the remote control request message includes: a hotspot open request and a hotspot close request; and correspondingly, the opening and closing the mobile hotspot device according to the remote control request message includes: when the remote control When the request message is a hotspot open request, the mobile hotspot device is reset to turn on the hotspot function, and returns an open successful response; when the far When the process control request message is a hotspot shutdown request, the mobile hotspot device is turned off to perform the hotspot function, and returns a close successful response.
  • the remote control request message further includes: a second connection establishment request and a second connection disconnection request; and correspondingly, the method further includes: when the remote control request message is a second connection establishment request, Establishing a second connection; when the remote control request message is a second connection disconnect request, disconnecting the second connection; the second connection is different from the first connection, and the second connection is data a channel for uploading or downloading data between the mobile hotspot device and the mobile terminal.
  • the embodiment of the present invention further provides a method for managing a mobile hotspot, the method comprising: establishing a first connection; the first connection is used as a control channel, and is used for remote control message interaction between the mobile terminal and the mobile hotspot device; The first connection sends a remote control request message, and the remote control request message is used to perform opening and closing processing control on the mobile hotspot device.
  • the method further includes: listening to the device status information of the mobile hotspot device by using the first connection, and displaying the device status information that is intercepted after the listening is successful.
  • the method further includes: triggering the remote control request message according to the triggering policy; wherein the remote control request message includes: a hotspot open request, a hotspot close request.
  • the remote control request further includes: a second connection establishment request for establishing a second connection, a second connection disconnection request for disconnecting the second connection; the second connection and the first connection
  • the connection is a different connection, and the second connection acts as a data channel for data uploading or downloading between the mobile hotspot device and the mobile terminal.
  • An embodiment of the present invention further provides a method for managing a mobile hotspot, the method comprising: establishing, by a mobile hotspot device, a first connection with a mobile terminal; the first connection serving as a control channel, for the mobile hotspot device and the mobile a remote control message exchange between the terminals; the mobile terminal sends a remote control request message by using the first connection, where the remote control request message is used to perform opening and closing processing control on the mobile hotspot device; Through the said Receiving, by the connection, the remote control request message, in response to the remote control request message, performing corresponding opening and closing processing on the mobile hotspot device according to the remote control request message.
  • the embodiment of the present invention further provides an apparatus for managing a mobile hotspot, the apparatus comprising: a first connection module, a processing module; wherein the first connection module is configured to establish a first connection; the first connection is used as a control a channel for remote control message interaction between the mobile hotspot device and the mobile terminal; the processing module configured to receive a remote control request message through the first connection, and respond to the remote control request message according to the remote control request The message performs corresponding opening and closing processing on the mobile hotspot device.
  • the device further includes: a broadcast module, configured to acquire a device status of the mobile hotspot device; acquire device status information of the mobile hotspot device according to the device status; and broadcast the first connection by using the first connection Device status information.
  • a broadcast module configured to acquire a device status of the mobile hotspot device; acquire device status information of the mobile hotspot device according to the device status; and broadcast the first connection by using the first connection Device status information.
  • the broadcast module is specifically configured to acquire the device state information online when the device state is in an active state, and obtain the stored device state information locally when the device state is a closed state. .
  • the remote control request message includes: a hotspot open request and a hotspot close request; and correspondingly, the processing module is configured to: when the remote control request message is a hotspot open request, the mobile hotspot The device performs a reset to turn on the hotspot function, and returns an open success response; when the remote control request message is a hotspot close request, the mobile hotspot device is turned off the hotspot function, and returns a close successful response.
  • the remote control request message includes: a second connection establishment request and a second connection disconnection request; and correspondingly, the device further includes: a data connection module, configured to: when the remote control request message is the second Establishing a second connection when the connection establishment request is; disconnecting the second connection when the remote control request message is the second connection disconnection request; the second connection is different from the first connection,
  • the second connection serves as a data channel for data uploading or downloading between the mobile hotspot device and the mobile terminal.
  • the first connection module, the processing module, the broadcast module, and the data connection module may use a central processing unit (CPU) and a digital signal processor (DSP, Digital Singnal Processor) when performing processing. ) or programmable logic array (FPGA, Field-Programmable Gate Array) implementation.
  • CPU central processing unit
  • DSP digital signal processor
  • FPGA Field-Programmable Gate Array
  • the embodiment of the present invention further provides an apparatus for managing a mobile hotspot, the apparatus comprising: a first connection management module, and a sending module; wherein the first connection management module is configured to establish a first connection; the first connection a control channel for remote control message interaction between the mobile terminal and the mobile hotspot device; the sending module configured to send a remote control request message by using the first connection, where the remote control request message is used for the mobile
  • the hotspot device performs open and close processing control.
  • the device further includes: a listening module, configured to use the first connection to listen to device status information of the mobile hotspot device, and display the device status information that is intercepted after the listening is successful. .
  • the device further includes: a triggering module, configured to trigger the remote control request message according to the triggering policy; wherein the remote control request message includes: a hotspot open request, a hotspot close request.
  • the triggering module is further configured to: trigger a second connection establishment request for establishing a second connection, and a second connection disconnection request for disconnecting the second connection; the second connection and the The first connection is a different connection, and the second connection is used as a data channel for data uploading or downloading between the mobile hotspot device and the mobile terminal.
  • the first connection management module, the sending module, the listening module, and the triggering module may use a central processing unit (CPU) and a digital signal processor (DSP, Digital Singnal) when performing processing. Processor) or Field-Programmable Gate Array (FPGA) implementation.
  • CPU central processing unit
  • DSP digital signal processor
  • FPGA Field-Programmable Gate Array
  • Embodiments of the present invention also provide a system for managing a mobile hotspot, where the system includes a mobile terminal. And the mobile hotspot device, wherein the mobile terminal is configured to establish a first connection with the mobile hotspot device, and send a remote control request message by using the first connection, where the remote control request message is used for the mobile terminal
  • the hotspot device performs open and close processing control; the mobile hotspot device is configured to establish a first connection with the mobile terminal, receive a remote control request message through the first connection, and respond to the remote control request message according to the The remote control request message performs corresponding opening and closing processing on the mobile hotspot device; wherein the first connection is used as a control channel, and is used for remote control message interaction between the mobile hotspot device and the mobile terminal.
  • the mobile terminal includes the device described in the foregoing solution; the mobile hotspot device includes the device described in the foregoing solution.
  • An embodiment of the present invention provides a method for managing a mobile hotspot, where the method includes: the mobile hotspot device establishes a first connection with the mobile terminal; the first connection is used as a control channel, and the mobile hotspot device is used. Interacting with the remote control message between the mobile terminal; the mobile terminal sends a remote control request message by using the first connection, where the remote control request message is used to perform opening and closing processing control on the mobile hotspot device; The mobile hotspot device receives the remote control request message through the first connection, and responds to the remote control request message, and performs corresponding opening and closing processing on the mobile hotspot device according to the remote control request message; The mobile terminal accessing the mobile hotspot can no longer need to find and take out the mobile hotspot device, as long as the mobile hotspot can be turned on and off remotely by one-stop on the mobile intelligent terminal, thereby avoiding frequent manual retrieval and relocation when the user is fragmented and used in large quantities. Mobile hotspot devices to enhance the user experience.
  • FIG. 1 is a schematic flowchart of a method for managing a mobile hotspot according to an embodiment of the present invention
  • FIG. 2 is a schematic flowchart of another method for managing a mobile hotspot according to an embodiment of the present invention
  • FIG. 3 is a schematic flowchart of still another method for managing a mobile hotspot according to an embodiment of the present disclosure
  • FIG. 4 is a schematic flowchart of a method for broadcasting device status information according to an embodiment of the present invention.
  • FIG. 5 is a schematic flowchart of a method for receiving device status information according to an embodiment of the present disclosure
  • FIG. 6 is a schematic flowchart of a method for opening a mobile hotspot according to an embodiment of the present invention.
  • FIG. 7 is a schematic structural diagram of an apparatus for managing a mobile hotspot according to an embodiment of the present disclosure.
  • FIG. 8 is a schematic structural diagram of another apparatus for managing a mobile hotspot according to an embodiment of the present disclosure.
  • FIG. 9 is a schematic structural diagram of a system for managing a mobile hotspot according to an embodiment of the present invention.
  • FIG. 10 is a schematic structural diagram of another system for managing a mobile hotspot according to an embodiment of the present invention.
  • the mobile hotspot device establishes a first connection with the mobile terminal; the first connection is used as a control channel, and is used for remote control message interaction between the mobile hotspot device and the mobile terminal; Transmitting, by the first connection, a remote control request message, where the remote control request message is used to perform opening and closing processing control on the mobile hotspot device; and the mobile hotspot device receives the remote control request by using the first connection
  • the message in response to the remote control request message, performs corresponding opening and closing processing on the mobile hotspot device according to the remote control request message.
  • FIG. 1 is a schematic diagram of a method for managing a mobile hotspot according to an embodiment of the present disclosure. The method is applied to a mobile hotspot device as a mobile hotspot. As shown in FIG. 1 , the method includes the following steps:
  • Step 101 Establish a first connection, where the first connection is used as a control channel, and is used for remote control message interaction between the mobile hotspot device and the mobile terminal;
  • the mobile hotspot device establishes a first connection after being powered on, and at this time, the established first connection is a first connection in a broadcast state.
  • a low-power wireless module providing a first connection is added to the mobile hotspot device to provide a first connection; wherein the first connection acts as a control channel for interacting with the mobile terminal, and the original second connection, such as a local WLAN Connections are two wireless connections that are independent of each other.
  • the mobile hotspot device acquires the device status of the mobile hotspot device, obtains the device status information of the mobile hotspot device according to the device status, and uses the first connection to broadcast the device status information.
  • the first connection in the established broadcast state is a one-way broadcast channel, and all mobile terminals under the mobile hotspot device broadcast their own device state information; here, broadcast to the mobile terminal Before the device status information, you need to obtain the device status of the mobile hotspot device.
  • the device status of the mobile hotspot includes the working status and the closed status.
  • the mobile hotspot device when the mobile hotspot device is powered on, the main CPU of the mobile hotspot device works, and the mobile hotspot device is in a working state; when the mobile hotspot device is not powered on, the main CPU of the mobile hotspot device is turned off, and the mobile hotspot device is turned off.
  • the low-power wireless module further provides a low-power CPU independent of the main CPU of the mobile hotspot device for device processing, and the low-power CPU can perform data interaction with the main CPU, when the mobile hotspot device works In the state, the low-power CPU interacts with the main CPU.
  • the main CPU detects the change of the device state, it actively reports the device status information to the low-power CPU, and the low-power CPU receives the active reporting of the device status information; or low power consumption.
  • the CPU periodically queries the main CPU for device status information, and broadcasts the device status information returned by the main CPU to the mobile terminal under the mobile hotspot device.
  • the period for querying the device status information can be set by the user according to requirements, such as 1 second; when the mobile hotspot When the device is in the off state, the low-power CPU broadcasts the device status information stored locally by the low-power wireless module to the mobile terminal under the mobile hotspot device; wherein the device status information includes the boot identifier, the WLAN open identifier, and the battery information, and the user SIM (Subscriber Identity Module) card status, mobile signal system, signal strength, information prompts (such as new text messages, Version update, etc.) device status information of the mobile hotspot device; the boot flag indicates whether the mobile hotspot device is powered on, and the WLAN is turned on.
  • SIM Subscriber Identity Module
  • the identifier indicates whether the WLAN of the mobile hotspot device is in an open state, the battery information indicates the current power of the mobile hotspot device, the SIM card status indicates whether the mobile hotspot device has an inserted SIM card, and the mobile signal system indicates the current mobile hotspot device supports the uplink.
  • the low-power wireless module after acquiring the device status information, the low-power wireless module periodically broadcasts the device status information according to the set broadcast period; wherein, the broadcast period may be set by the user according to requirements, such as 1 second.
  • the low-power wireless module can work independently. When the mobile hotspot device main CPU is turned off, the broadcast and receive commands can also be performed.
  • the first connection can be a Bluetooth 4.0 version of the low-power wireless connection.
  • the low power wireless module is activated.
  • Step 102 Receive a remote control request message by using the first connection, and respond to the remote control request message, and perform corresponding opening and closing processing on the mobile hotspot device according to the remote control request message.
  • the mobile hotspot device When the mobile hotspot device receives the remote control request message of the mobile terminal, the first connection has been switched from the one-way broadcast state to the two-way data transmission state, and the data of the mobile terminal can be received and the data is sent to the mobile terminal.
  • the remote control request message includes: a hotspot open request and a hotspot close request.
  • the mobile hotspot device performs different processing according to the received remote control request message.
  • the remote control request message is a hotspot open request
  • the mobile hotspot device performs a reset hotspot function. And returning a startup success response;
  • the remote control request message is a hotspot shutdown request, the mobile hotspot device is turned off the hotspot function, and returns a shutdown success response.
  • the low power wireless module After the mobile hotspot device receives the remote control request message of the mobile terminal through the first connection, the low power wireless module performs corresponding processing on the received remote control request message: if it is a hotspot open request, the main CPU is triggered by the low power CPU Performing a power-on reset to turn on the hotspot function of the mobile hotspot device; if it is a hotspot shutdown request, notifying the main CPU to turn off the hotspot function of the mobile hotspot device. After turning on or off the hotspot function, the low-power CPU will return the request to successfully respond.
  • the first connection is sent to the mobile terminal.
  • the remote control request may further include a second connection establishment request and a second connection disconnection request.
  • the remote control request message is a second connection establishment request, establishing a second connection; when the remote control request message is a second connection disconnection request, disconnecting the second connection.
  • the low power consumption CPU forwards the received second connection establishment request to the main CPU, and the main CPU establishes the second connection. And return to establish a successful response, the low power CPU will establish a successful response sent to the mobile terminal through the first connection.
  • the second connection is a different connection from the first connection, and the second connection is used as a data channel for data uploading or downloading between the mobile hotspot device and the mobile terminal.
  • the low power consumption CPU forwards the received second connection disconnection request to the main CPU, and the main CPU disconnects the first The second connection returns a disconnected successful response, and the low power CPU sends a disconnected successful response to the mobile terminal through the first connection.
  • the method for managing a mobile hotspot provided by the embodiment of the present invention can complete the query and see the status information of the mobile hotspot device on the mobile terminal without completing the search and removal of the mobile hotspot device, and complete the remote operation. Turning on and off the operation of the mobile hotspot device, avoiding frequent manual removal of the mobile hotspot device when the user is fragmented in large quantities, and further reducing the power consumption of the standby state of the mobile hotspot device by remotely controlling the establishment and disconnection of the second connection. Increase the battery life of mobile hotspot devices, and at the same time speed up the boot speed and greatly enhance the user experience.
  • FIG. 2 is another method for managing a mobile hotspot according to an embodiment of the present invention.
  • the method is applied to a mobile terminal that accesses a mobile hotspot device. As shown in FIG. 2, the method includes the following steps:
  • Step 201 Establish a first connection, where the first connection is used as a control channel, and is used for remote control message interaction between the mobile terminal and the mobile hotspot device;
  • the first connection is a control channel that interacts with the mobile hotspot device, and the original second connection, such as a WLAN connection, is two independent wireless connections; here, the first connection may be the first connection of the Bluetooth 4.0 version. .
  • the first connection may be used to listen to the device status information broadcast of the mobile hotspot device, and after the listening is successful, the monitored device status information is displayed.
  • the mobile terminal After the mobile terminal establishes the first connection, the mobile terminal periodically listens for the broadcast of the device state information of the mobile hotspot device in a periodic period of the listening period. At this time, the first connection is a one-way broadcast state, and the mobile terminal listens to the mobile terminal. Broadcast of hotspot devices. After the device status information of the mobile hotspot device is detected, after the monitoring is successful, the device status information that is monitored is displayed in a small window manner in the display area of the mobile terminal.
  • the embodiment of the present invention does not limit the manner in which device status information is displayed.
  • the screen of the mobile terminal when the screen of the mobile terminal is off, the first connection of the mobile terminal is closed, and when the screen is on, the device status information broadcast by the mobile hotspot device is monitored again.
  • Step 202 Send, by using the first connection, a remote control request message, where the remote control request message is used to perform opening and closing processing control on the mobile hotspot device;
  • the remote control request message Before sending the remote control request message, the remote control request message needs to be triggered according to the trigger policy, and the remote control request message includes: a hotspot open request and a hotspot close request. Specifically, when the mobile terminal receives an instruction of the user to open the mobile hotspot device or detects that the screen light of the display area of the mobile terminal is on, triggering the hotspot open request; when the mobile terminal receives the user's instruction to close the mobile hotspot device or detects the mobile The screen light of the display area of the terminal is off, and the hotspot close request is triggered.
  • the remote control request may further include: a second connection establishment request for establishing the second connection, a second connection disconnection request for disconnecting the second connection; where the second connection is different from the first connection,
  • the second connection serves as a data channel for data uploading or downloading between the mobile hotspot device and the mobile terminal.
  • the remote control request message is sent through the first connection To the mobile hotspot device; after receiving the return request response of the mobile hotspot device, establishing a second connection with the mobile hotspot device, performing or preparing data uploading or downloading; and when the mobile terminal triggers disconnecting the second connection, moving to the mobile hotspot device Sending a second connection disconnect request, disconnecting the second connection with the mobile hotspot device.
  • the hotspot shutdown request may not be sent, so that the mobile hotspot device is in a hotspot standby state in which the hotspot is turned on without performing the second connection.
  • FIG. 3 is a schematic diagram of another method for managing a mobile hotspot according to an embodiment of the present invention. The method is applied to a system including a mobile hotspot device as a mobile hotspot and a mobile terminal accessing a mobile hotspot device, as shown in FIG. Includes the following steps:
  • Step 301 The mobile hotspot device establishes a first connection with the mobile terminal, where the first connection is used as a control channel, and is used for remote control message interaction between the mobile hotspot device and the mobile terminal.
  • a first connection independent of the second connection is established between the low-power wireless module in the mobile hotspot device and the mobile accessing the mobile hotspot device, and the first connection may be a Bluetooth 4.0 version.
  • First connection may be a Bluetooth 4.0 version.
  • Step 302 The mobile terminal sends a remote control request message by using the first connection.
  • the remote control request message may further include a second connection establishment request for establishing the second connection, and a second connection disconnection request for disconnecting the second connection.
  • Step 303 The mobile hotspot device receives the remote control request message by using the first connection, and responds to the remote control request message, and performs opening and closing processing on the mobile hotspot device according to the remote control request message.
  • the received remote control request message performs corresponding opening and closing processing on the mobile hotspot device; when the remote control request message is a hotspot open request, the hotspot function is turned on, and the open successful response is returned to the mobile terminal; when the remote control request message is When the second connection establishment request is made, a second connection is established between the mobile terminal and the mobile hotspot device as a data channel, and data uploading or downloading between the mobile hotspot device and the mobile terminal is performed for service interaction; When the remote control request message is a hotspot shutdown request, the hotspot function of the mobile hotspot device is turned off, and the shutdown success response is returned; when the remote control request message is the second connection disconnection request, the mobile terminal and the mobile hotspot device are disconnected. The second connection between the data channels.
  • the second connection establishment request may be simultaneously sent.
  • the hotspot close request may not be sent when the second connection disconnect request is sent.
  • the mobile hotspot device broadcasts the device state information of the mobile hotspot device itself to the mobile terminal according to the first connection established in step 301, and the mobile terminal listens in the period of the listening period. After the listening is successful, the device status information that is monitored is displayed in the display area of the mobile terminal.
  • the broadcast device status information, the receiving device status information, and the method for opening the mobile hotspot in the embodiment of the present invention are further described below with reference to specific application examples.
  • FIG. 4 is a schematic flowchart of a method for broadcasting device status information according to an embodiment of the present invention, as shown in FIG. 4,
  • Step 401 inserting a battery
  • Step 402 Start a low power wireless module.
  • the low-power wireless module is started regardless of whether the mobile hotspot device is powered on, and low-power broadcasting of the device state information is started;
  • Step 403 whether the main CPU works
  • the low-power wireless module of the mobile hotspot device determines whether the current main CPU is working, and obtains the current device status, where the device status is used to indicate whether the mobile hotspot device is powered on, and when the mobile hotspot device is When the device is powered on, the main CPU is working, and the device state is working.
  • Step 404b is performed.
  • Step 404a is performed.
  • Step 404a reading device status information from local storage
  • the low power consumption CPU of the low power wireless module of the mobile hotspot device acquires the locally stored device information.
  • Step 404b reading device status information from the main CPU
  • the low-power CPU of the low-power wireless module of the mobile hotspot device obtains device state information online from the main CPU of the mobile hotspot device, and moves the hotspot device main CPU to the low-power CPU. Returns device status information.
  • the acquired device status information includes whether the mobile hotspot device is powered on, whether the WLAN is turned on, battery information, SIM card status, mobile signal system, signal strength, and information prompt ( Device status information, such as new SMS, version update, etc., where the WLAN open flag is 0, indicating that the hotspot is off; when the battery power is 0, the mobile hotspot device is turned on for the first time, and the booted device status information after the mobile hotspot device is turned on.
  • the battery power is the battery power information read and stored from the CPU when it was last turned on.
  • Step 405 Periodically broadcast device status information.
  • the low-power wireless module After acquiring the device status information, the low-power wireless module broadcasts the device status information to the mobile terminal by using the first connection in a broadcast cycle period; here, the broadcast period may be set as needed, such as 1 second.
  • FIG. 5 is a schematic flowchart of a method for receiving device status information according to an embodiment of the present invention, and a pre-installed hotspot management module of the mobile terminal. As shown in Figure 5, the following steps are included:
  • Step 501 The mobile terminal is powered on, and the hotspot management module is automatically started in the background;
  • step 502 is performed.
  • step 506 is executed to close the first connection.
  • Step 502 opening a first connection
  • the hotspot management module opens the first connection of the mobile terminal and the mobile hotspot device.
  • Step 503 periodically listening to the broadcast
  • the broadcast of the device state information of the mobile hotspot device is monitored through the first connection in the period of the listening period, wherein the listening period can be set according to the needs of the user, such as 1.5 seconds, where the listening period is greater than the mobile hotspot.
  • the broadcast period of the device is monitored through the first connection in the period of the listening period, wherein the listening period can be set according to the needs of the user, such as 1.5 seconds, where the listening period is greater than the mobile hotspot.
  • Step 504 determining whether the interception is successful
  • step 505 is executed to display the device status information of the mobile hotspot device. Specifically, the device status information of the mobile hotspot device that is being monitored is received, and the received information is displayed in a small window on the standby interface of the mobile terminal. If the device status information of the mobile hotspot device is not detected, the process proceeds to step 503 to periodically listen to the broadcast.
  • the screen of the display area of the mobile terminal is off, the first connection of the mobile terminal is closed, and when the screen is lit, the device status information broadcast by the mobile hotspot device is monitored and received.
  • FIG. 6 illustrates the method provided by the embodiment of the present invention by using the hotspot function of the mobile hotspot device as an example.
  • the mobile hotspot device broadcasts its own device state information to the mobile terminal through the first connection.
  • the mobile terminal passes the detection.
  • the first connection of the listening state listens to the device status information broadcast by the mobile hotspot device.
  • the steps shown in FIG. 6 are performed:
  • Step 601 The mobile terminal triggers a hotspot open request.
  • the hotspot management module of the mobile terminal can trigger the hotspot open request by two working modes: manual mode: setting the trigger switch, and the user manually triggers the trigger
  • the switch performs an opening operation, triggering a hotspot opening request to open a hotspot function of the mobile hotspot device; and an automatic mode: when the hotspot management module determines that the application on the mobile terminal needs to perform business interaction with the mobile hotspot device or the screen of the display area is bright, triggering the hotspot to open Request to turn on the hotspot feature of the mobile hotspot device.
  • the first connection between the mobile terminal and the mobile hotspot device is switched to the bidirectional data channel of the connected state.
  • Step 602 The mobile terminal sends a hotspot open request.
  • the hotspot management module of the mobile terminal sends a hotspot open request to the mobile hotspot device on the first connection in the connected state, and waits for the response of the mobile hotspot device.
  • the hotspot management module of the mobile terminal simultaneously transmits a second connection establishment request.
  • Step 603 The low power wireless module receives a hotspot open request.
  • Step 604 the low power wireless module powers on and resets the main CPU
  • the low-power wireless module of the mobile hotspot device receives the hotspot open request, the low-power wireless module performs a power-on reset operation on the main CPU of the mobile hotspot device, activates the hotspot function of the mobile hotspot device, and establishes according to the second connection. Requesting to establish a second connection independent of the first connection.
  • Step 605 the main CPU starts successfully, and returns a response to the low-power wireless module.
  • Step 606 The low-power wireless module sends a hotspot open response; after receiving the response of the primary CPU, the low-power wireless module returns a hotspot open response to the mobile terminal on the established first connection.
  • Step 607 The mobile terminal receives a hotspot open response.
  • Step 608 The mobile terminal displays that the mobile hotspot device is successfully opened.
  • the mobile terminal After receiving the successful response returned by the mobile hotspot device, the mobile terminal displays that the mobile hotspot device is successfully opened, and performs service interaction with the mobile hotspot device through the established second connection, and performs the required service by using the mobile hotspot device.
  • step 601, step 602, step 607, and step 608 is the mobile terminal accessing the mobile hotspot device, and the execution of step 603, step 604, step 605, and step 606 is performed.
  • the main body is a mobile hotspot device.
  • the hotspot shutdown request may be triggered in the manual or automatic mode to enter the hotspot shutdown process, where the user manually closes the trigger switch or acts as a hotspot.
  • the management module determines that the application on the mobile terminal does not need to perform business interaction with the mobile hotspot device and the screen is off, triggering the hotspot shutdown request.
  • the main CPU of the mobile hotspot device automatically disconnects the second connection when detecting the connection without the mobile terminal on the second connection within a period of time, such as 1 minute, and the wireless function of the mobile hotspot device is in the standby state for a period of time. If, after 5 minutes, the hotspot open request has not been received, that is, there is no hotspot open operation, the mobile hotspot device is turned off.
  • the hotspot management module on the mobile terminal determines whether the mobile terminal needs to connect to the network according to the triggering policy, and the mobile hotspot device can be automatically opened through the first connected control channel to further improve the user experience. At the same time, the hotspot management module on the mobile terminal can timely shut down the mobile hotspot device or disconnect the second connection according to the access state of the mobile terminal in time according to the access state of the mobile terminal, thereby avoiding waste of power consumption caused by the current simple delay mechanism. , greatly extending the endurance of a terminal device.
  • the special first connection that can work independently without being closed can be used to monitor the management status information of the mobile hotspot device at any time on the mobile terminal, without waiting for a long mobile hotspot device startup time, and no Web UI is needed.
  • the login process does not directly manage the mobile hotspot device on the large screen of the mobile terminal without the small screen of the mobile hotspot device, thereby greatly improving the user experience.
  • an embodiment of the present invention provides a device for managing a mobile hotspot, which is applied to a mobile hotspot device 70 as a mobile hotspot, and the device includes: a first connection module 71 and a processing module 72;
  • the first connection module 71 is configured to establish a first connection; the first connection is used as a control channel, and is used for remote control message interaction between the mobile hotspot device and the mobile terminal;
  • the processing module 72 is configured to receive, by using the first connection, a remote control request message, in response to the remote control request message, to the mobile hotspot device according to the remote control request message Perform corresponding opening and closing processes;
  • the remote control request message includes: a hotspot open request and a hotspot close request; and correspondingly, the processing module 72 is configured to: when the remote control request message is a hotspot open request, reset the mobile hotspot device to open a hot spot And returning the open success response; when the remote control request message is a hotspot shutdown request, the mobile hotspot device is turned off the hotspot function, and returns a close successful response.
  • the device further includes: a broadcast module 73, configured to acquire a device status of the mobile hotspot device; acquire device status information of the mobile hotspot device according to the device status; and broadcast the device status information by using the first connection .
  • a broadcast module 73 configured to acquire a device status of the mobile hotspot device; acquire device status information of the mobile hotspot device according to the device status; and broadcast the device status information by using the first connection .
  • the broadcast module 73 is configured to acquire the device state information online when the device state is the working state, and obtain the stored device state information locally when the device state is the closed state.
  • the remote control request further includes: a second connection establishment request, a second connection disconnection request, and correspondingly, as shown in FIG. 7, the apparatus further includes a data connection module 74 configured to: when the remote control request message is a second connection is established when the connection establishment request is made; when the remote control request message is a second connection disconnection request, the second connection is disconnected; the second connection is different from the first connection, The second connection is used as a data channel for data uploading or downloading between the mobile hotspot device and the mobile terminal.
  • the first connection module 71, the processing module 72, and the broadcast module 73 shown in FIG. 7 can be integrated into the low-power wireless connection module 100 shown in FIG.
  • an embodiment of the present invention further provides an apparatus for managing a mobile hotspot, where the apparatus is applied to a mobile terminal 80, where the apparatus includes: a first connection management module 81, and a sending module 82;
  • the first connection management module 81 is configured to establish a first connection; the first connection is used as a control channel, and is used for remote control message interaction between the mobile terminal and the mobile hotspot device;
  • the sending module 82 is configured to send a remote control request message by using the first connection, where the remote control request message is used to perform opening and closing processing control on the mobile hotspot device accessed by the mobile terminal.
  • the device further includes a listening module 83 configured to listen to device status information of the mobile hotspot device by using the first connection, and display the device that is listening after the listening is successful. status information.
  • the apparatus further includes a triggering module 84 configured to trigger the remote control request message according to a triggering policy, where the remote control request message includes: a hotspot open request, a hotspot close request.
  • a triggering module 84 configured to trigger the remote control request message according to a triggering policy, where the remote control request message includes: a hotspot open request, a hotspot close request.
  • the triggering module 84 is further configured to: trigger a second connection establishment request for establishing a second connection, and a second connection disconnection request for disconnecting the second connection; the second connection is different from the first connection
  • the second connection is used as a data channel for data uploading or downloading between the mobile hotspot device and the mobile terminal.
  • the first connection management module 81, the sending module 82, the listening module 83, and the triggering module 84 shown in FIG. 8 can be integrated into the hotspot management module 101 shown in FIG.
  • the embodiment of the present invention further provides a system for managing a mobile hotspot, where the system includes a mobile terminal 80 as shown in FIG. 8, and a mobile hotspot device 70 as shown in FIG. 7;
  • the mobile terminal 80 is configured to establish a first connection with the mobile hotspot device 70, and send a remote control request message by using the first connection; the remote control request message is used to open and close the mobile hotspot device 70. control.
  • the mobile hotspot device 70 is configured to establish a first connection with the mobile terminal 80, receive a remote control request message through the first connection, and respond to the remote control request message according to the remote control request message.
  • the mobile hotspot device 70 performs corresponding opening and closing processes;
  • the first connection is used as a control channel for remote control message interaction between the mobile hotspot device and the mobile terminal.
  • the system provided by the embodiment of the present invention can add a low-power wireless module 100 to the mobile hotspot device 70 having a power-on button and a charging port as shown in FIG. 10, and the low-power wireless module 100 provides the first connection. , such as Bluetooth 4.0 version of the low-power wireless connection, etc., as a control channel to interact with the mobile terminal 80.
  • the low-power wireless module 100 also provides a low-power CPU and a main CPU of the mobile hotspot device to interact, acquire device status information, and broadcast to the surrounding mobile terminal 80.
  • the low-power wireless module 100 can work independently, and can also broadcast and receive remote control request messages for operation when the main CPU of the mobile hotspot device is turned off.
  • the mobile terminal 80 that performs service interaction by the mobile hotspot device 70 deploys the corresponding hotspot management module 101.
  • the mobile terminal 80 opens and closes the hotspot function of the mobile hotspot device 70 by performing information interaction with the mobile hotspot device 70 by a first connection corresponding to the mobile hotspot device 70, such as a Bluetooth 4.0 version of the low-power wireless connection, wherein After the hotspot function of the mobile hotspot device 70 is turned on, the uplink 4G/3G/2G wireless connection and the downlink second connection work simultaneously.
  • the device or system device provided by the present invention can be used as a separate system, or a logic unit for performing different functions in an existing terminal such as a mobile phone.
  • the first connection module 71, the processing module 72, the broadcast module 73, and the data connection module 74 may be a central processing unit (CPU) located in the mobile phone, and a digital signal processor (DSP, Digital Signal Processor), or Field Programmable Gate Array (FPGA) implementation.
  • CPU central processing unit
  • DSP Digital Signal Processor
  • FPGA Field Programmable Gate Array
  • the first connection management module 81, the sending module 82, the listening module 83, and the triggering module 84 can be implemented by a CPU, a DSP, or an FPGA located in the mobile phone.
  • An embodiment of the present invention provides a method for managing a mobile hotspot, where the method includes: the mobile hotspot device establishes a first connection with the mobile terminal; and the first connection is used as a control channel. And a remote control message exchange between the mobile hotspot device and the mobile terminal; the mobile terminal sends a remote control request message by using the first connection, where the remote control request message is used to perform the mobile hotspot device Open and close processing control; the mobile hotspot device receives the remote control request message through the first connection, and responds to the remote control request message, and correspondingly opens the mobile hotspot device according to the remote control request message.
  • the mobile terminal accessing the mobile hotspot can no longer need to find and take out the mobile hotspot device, as long as the mobile hotspot can be turned on and off remotely by one-stop on the mobile intelligent terminal, thereby avoiding fragmentation of the user. Manually remove and return the mobile hotspot device frequently to improve the user experience.

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Abstract

本发明实施例提供一种管理移动热点的方法和装置,所述方法包括:移动热点设备与移动终端建立第一连接;所述第一连接作为控制通道,用于所述移动热点设备与所述移动终端间的远程控制消息交互;所述移动终端利用所述第一连接发送远程控制请求消息;所述移动热点设备通过所述第一连接接收所述远程控制请求消息,响应所述远程控制请求消息,根据所述远程控制请求消息对所述移动热点设备进行对应的打开、关闭处理。

Description

一种管理移动热点的方法、装置及系统 技术领域
本发明涉及移动通信领域,尤其涉及一种管理移动热点的方法、装置及系统。
背景技术
本申请发明人在实现本申请实施例技术方案的过程中,至少发现相关技术中存在如下技术问题:
移动热点设备是一种上行通过第4/3/2代(4G/3G/2G,Fouth/Third/Second Generation)移动通信技术等移动通信网络连接上网,下行支持无线局域网(WLAN,Wireless Local Area Network)等本地无线连接的移动数据终端。其它启用了本地WLAN连接的手机、平板或者笔记本电脑等移动终端能通过移动热点设备上网。
在移动互联网迅猛发展的今天,移动智能终端、平板成为上网的主要移动终端,而移动热点设备作为一种便携的移动数据终端,也更多的与移动智能终端、平板电脑相配合使用,以平板电脑为例,在移动热点设备配合使用的过程中,需先取出移动热点设备,按压移动热点设备上的物理按键的这种控制方式来开启或关闭移动热点设备,不用时拔出移动热点设备再放回移动热点设备,采用这种控制方式,用户需要频繁取出、插拔和放回以打开和关闭移动热点设备,大大降低了用户体验。
移动热点设备工作时上行4G/3G/2G无线连接和下行WLAN无线连接同时工作,功耗大,移动热点设备和使用热点的移动终端没有交互,移动热点设备必须长时间一直处于工作状态,大大减少了移动热点设备的续航时间。
综上所述,现有技术存在的问题是:1)控制方式繁琐,导致大量使用时频繁的手动取出、及放回,并通过物理按键打开、关闭移动热点设备;2)移动热点设备与使用热点的移动终端间没有交互,即不存在上传和下载操作,移动热点设备也会一直处于工作状态,功耗大,影响续航能力。
然而,对于上述问题,相关技术并未存在有效的解决方案。
发明内容
有鉴于此,本发明实施例期望提供一种管理移动热点的方法、装置及系统,能够远程打开和关闭移动热点设备,避免用户碎片化大量使用时频繁的手动取出和放回作为移动热点设备。
本发明实施例的技术方案是这样实现的:
本发明实施例提供一种管理移动热点的方法,所述方法包括:建立第一连接;所述第一连接作为控制通道,用于移动热点设备与移动终端间的远程控制消息交互;通过所述第一连接接收远程控制请求消息,响应所述远程控制请求消息,根据所述远程控制请求消息对所述移动热点设备进行对应的打开、关闭处理。
上述方案中,所述方法还包括:获取所述移动热点设备的设备状态;根据所述设备状态获取所述移动热点设备的设备状态信息;利用所述第一连接广播所述设备状态信息。
上述方案中,根据所述设备状态获取所述移动热点设备的设备状态信息包括:当所述设备状态为工作状态时,在线获取所述设备状态信息;当所述设备状态为关闭状态时,本地获取存储的所述设备状态信息。
上述方案中,所述远程控制请求消息包括:热点打开请求、热点关闭请求;相应的,所述根据所述远程控制请求消息对所述移动热点设备进行打开、关闭处理包括:当所述远程控制请求消息为热点打开请求时,将所述移动热点设备进行复位打开热点功能,并返回打开成功响应;当所述远 程控制请求消息为热点关闭请求时,将所述移动热点设备进行关闭所述热点功能,并返回关闭成功响应。
上述方案中,所述远程控制请求消息还包括:第二连接建立请求、第二连接断开请求;相应的,所述方法还包括:当所述远程控制请求消息为第二连接建立请求时,建立第二连接;当所述远程控制请求消息为第二连接断开请求时,断开第二连接;所述第二连接与所述第一连接为不同的连接,所述第二连接作为数据通道,用于所述移动热点设备与所述移动终端间的数据上传或下载。
本发明实施例还提供一种管理移动热点的方法,所述方法包括:建立第一连接;所述第一连接作为控制通道,用于移动终端与移动热点设备间的远程控制消息交互;利用所述第一连接发送远程控制请求消息,所述远程控制请求消息用于对所述移动热点设备进行打开、关闭处理控制。
上述方案中,所述方法还包括:利用所述第一连接侦听所述移动热点设备的设备状态信息,并在侦听成功后,显示侦听的所述设备状态信息。
上述方案中,所述方法还包括:根据触发策略触发所述远程控制请求消息;其中,所述远程控制请求消息包括:热点打开请求、热点关闭请求。
上述方案中,所述远程控制请求还包括:用于建立第二连接的第二连接建立请求、用于断开第二连接的第二连接断开请求;所述第二连接与所述第一连接为不同的连接,所述第二连接作为数据通道,用于所述移动热点设备与所述移动终端间的数据上传或下载。
本发明实施例还提供一种管理移动热点的方法,所述方法包括:移动热点设备与移动终端建立第一连接;所述第一连接作为控制通道,用于所述移动热点设备与所述移动终端间的远程控制消息交互;所述移动终端利用所述第一连接发送远程控制请求消息,所述远程控制请求消息用于对所述移动热点设备进行打开、关闭处理控制;所述移动热点设备通过所述第 一连接接收所述远程控制请求消息,响应所述远程控制请求消息,根据所述远程控制请求消息对所述移动热点设备进行对应的打开、关闭处理。
本发明实施例还提供一种管理移动热点的装置,所述装置包括:第一连接模块、处理模块;其中,所述第一连接模块,配置为建立第一连接;所述第一连接作为控制通道,用于移动热点设备与移动终端间的远程控制消息交互;所述处理模块,配置为通过所述第一连接接收远程控制请求消息,响应所述远程控制请求消息,根据所述远程控制请求消息对所述移动热点设备进行对应的打开、关闭处理。
上述方案中,所述装置还包括:广播模块,配置为获取所述移动热点设备的设备状态;根据所述设备状态获取所述移动热点设备的设备状态信息;利用所述第一连接广播所述设备状态信息。
上述方案中,所述广播模块,具体配置为:当所述设备状态为工作状态时,在线获取所述设备状态信息;当所述设备状态为关闭状态时,本地获取存储的所述设备状态信息。
上述方案中,所述远程控制请求消息包括:热点打开请求、热点关闭请求;相应的,所述处理模块,具体配置为:当所述远程控制请求消息为热点打开请求时,将所述移动热点设备进行复位打开热点功能,并返回打开成功响应;当所述远程控制请求消息为热点关闭请求时,将所述移动热点设备进行关闭所述热点功能,并返回关闭成功响应。
上述方案中,所述远程控制请求消息包括:第二连接建立请求、第二连接断开请求;相应的,所述装置还包括:数据连接模块,配置为当所述远程控制请求消息为第二连接建立请求时,建立第二连接;当所述远程控制请求消息为第二连接断开请求时,断开第二连接;所述第二连接与所述第一连接为不同的连接,所述第二连接作为数据通道,用于所述移动热点设备与所述移动终端间的数据上传或下载。
所述第一连接模块、所述处理模块、所述广播模块、所述数据连接模块在执行处理时,可以采用中央处理器(CPU,Central Processing Unit)、数字信号处理器(DSP,Digital Singnal Processor)或可编程逻辑阵列(FPGA,Field-Programmable Gate Array)实现。
本发明实施例还提供一种管理移动热点的装置,所述装置包括:第一连接管理模块,发送模块;其中,所述第一连接管理模块,配置为建立第一连接;所述第一连接作为控制通道,用于移动终端与移动热点设备间的远程控制消息交互;所述发送模块,配置为利用所述第一连接发送远程控制请求消息,所述远程控制请求消息用于对所述移动热点设备进行打开、关闭处理控制。
上述方案中,所述装置还包括:侦听模块,配置为利用所述第一连接侦听所述移动热点设备的设备状态信息,并在侦听成功后,显示侦听的所述设备状态信息。
上述方案中,所述装置还包括,触发模块,配置为根据触发策略触发所述远程控制请求消息;其中,所述远程控制请求消息包括:热点打开请求、热点关闭请求。
上述方案中,所述触发模块,还配置为:触发用于建立第二连接的第二连接建立请求、用于断开第二连接的第二连接断开请求;所述第二连接与所述第一连接为不同的连接,所述第二连接作为数据通道,用于所述移动热点设备与所述移动终端间的数据上传或下载。
所述第一连接管理模块、所述发送模块、所述侦听模块、所述触发模块在执行处理时,可以采用中央处理器(CPU,Central Processing Unit)、数字信号处理器(DSP,Digital Singnal Processor)或可编程逻辑阵列(FPGA,Field-Programmable Gate Array)实现。
本发明实施例还提供一种管理移动热点的系统,所述系统包括移动终 端、移动热点设备;其中,所述移动终端,配置为与所述移动热点设备建立第一连接,利用所述第一连接发送远程控制请求消息,所述远程控制请求消息用于对所述移动热点设备进行打开、关闭处理控制;所述移动热点设备,配置为与所述移动终端建立第一连接,通过所述第一连接接收远程控制请求消息,响应所述远程控制请求消息,根据所述远程控制请求消息对所述移动热点设备进行对应的打开、关闭处理;其中,所述第一连接作为控制通道,用于移动热点设备与移动终端间的远程控制消息交互。
其中,所述移动终端包括有上述方案所述的装置;所述移动热点设备包括有上述方案所述的装置。
本发明实施例提供了一种管理移动热点的方法,所述方法包括:所述移动热点设备与所述移动终端建立第一连接;所述第一连接作为控制通道,用于所述移动热点设备与所述移动终端间的远程控制消息交互;所述移动终端利用所述第一连接发送远程控制请求消息,所述远程控制请求消息用于对所述移动热点设备进行打开、关闭处理控制;所述移动热点设备通过所述第一连接接收所述远程控制请求消息,响应所述远程控制请求消息,根据所述远程控制请求消息对所述移动热点设备进行对应的打开、关闭处理;由此,通过该移动热点上网的移动终端能够不再需要寻找和取出移动热点设备,只要在移动智能终端上一站式就能遥控打开和关闭移动热点,避免用户碎片化大量使用时频繁的手动取出放回移动热点设备,提升用户体验。
附图说明
图1为本发明实施例提供的一种管理移动热点的方法的流程示意图;
图2为本发明实施例提供的另一种管理移动热点的方法的流程示意图;
图3为本发明实施例提供的又一种管理移动热点的方法的流程示意图;
图4为本发明实施例提供的广播设备状态信息的方法的流程示意图;
图5为本发明实施例提供的接收设备状态信息的方法的流程示意图;
图6为本发明实施例提供的打开移动热点的方法的流程示意图;
图7为本发明实施例提供的一种管理移动热点的装置的结构示意图;
图8为本发明实施例提供的另一种管理移动热点的装置的结构示意图;
图9为本发明实施例提供的一种管理移动热点的系统的结构示意图;
图10为本发明实施例提供的另一种管理移动热点的系统的结构示意图。
具体实施方式
在本发明实施例中,移动热点设备与移动终端建立第一连接;所述第一连接作为控制通道,用于所述移动热点设备与所述移动终端间的远程控制消息交互;所述移动终端利用所述第一连接发送远程控制请求消息,所述远程控制请求消息用于对所述移动热点设备进行打开、关闭处理控制;所述移动热点设备通过所述第一连接接收所述远程控制请求消息,响应所述远程控制请求消息,根据所述远程控制请求消息对所述移动热点设备进行对应的打开、关闭处理。
下面通过附图及具体实施例对本发明再做进一步的详细说明。
图1为本发明实施例提供的一种管理移动热点的方法,该方法应用于作为移动热点的移动热点设备,如图1所示,该方法包括以下步骤:
步骤101,建立第一连接;所述第一连接作为控制通道,用于移动热点设备与移动终端间的远程控制消息交互;
这里,移动热点设备在开机后建立第一连接,此时,建立的第一连接为广播态的第一连接。这里,移动热点设备中增加提供第一连接的低功耗无线模块,以提供第一连接;其中,第一连接作为和移动终端交互的控制通道,与原有的第二连接,比如本地的WLAN连接,为相互独立的两种无线连接。
当建立第一连接后,移动热点设备获取移动热点设备的设备状态,根据设备状态获取移动热点设备的设备状态信息;利用第一连接广播设备状态信息;
具体的,当移动热点设备开机后,建立的广播态的第一连接为单向的广播通道,向该移动热点设备下的所有移动终端广播其自身的设备状态信息;这里,在向移动终端广播设备状态信息之前,需先获取移动热点设备自身的设备状态,移动热点的设备状态包括工作状态和关闭状态;
需要说明的是,当移动热点设备开机时,移动热点设备的主CPU工作,移动热点设备为工作状态;当移动热点设备未开机时,移动热点设备的主CPU关闭,移动热点设备为关闭状态。
当设备状态为工作状态时,在线获取所述设备状态信息,其中,在线获取可为接收到设备状态信息的主动上报,或定期查询;当设备状态为关闭状态时,本地获取存储的设备状态信息。具体的,低功耗无线模块还提供一与移动热点设备的用于设备处理的主CPU相独立的低功耗CPU,该低功耗CPU可与主CPU进行数据交互,当移动热点设备为工作状态时,低功耗CPU与主CPU交互,主CPU在检测到设备状态变化时,主动向低功耗CPU上报设备状态信息,低功耗CPU接收到设备状态信息的主动上报;或者低功耗CPU向主CPU定期查询设备状态信息,并将主CPU返回的设备状态信息广播给移动热点设备下的移动终端,这里,查询设备状态信息的周期可由用户根据需要设置,如1秒;当移动热点设备为关闭状态时,低功耗CPU将获取低功耗无线模块本地存储的设备状态信息广播给移动热点设备下的移动终端;其中,设备状态信息包括开机标识、WLAN打开标识、电池信息,用户身份识别(SIM,Subscriber Identity Module))卡状态,移动信号制式,信号强度,信息提示(如新短信、版本更新等)等移动热点设备的设备状态信息;开机标识表示移动热点设备是否开机,WLAN打开 标识表示移动热点设备的WLAN是否处于打开状态,电池信息表示移动热点设备当前的电量,SIM卡状态表示移动热点设备中是否有插入SIM卡,移动信号制式表示当前移动热点设备上行支持的制式。
需要说明的是,获取设备状态信息后,低功耗无线模块根据设置的广播周期周期性的广播设备状态信息;其中,广播周期可由用户根据需要设置,如1秒。该低功耗无线模块可一直独立工作,在移动热点设备主CPU关闭时,也可进行广播、接收指令等操作,其中,第一连接可为蓝牙4.0版本的低功耗无线连接。
在实际应用中,当移动热点设备插入电池后,启动低功耗无线模块。
步骤102,通过所述第一连接接收远程控制请求消息,响应所述远程控制请求消息,根据所述远程控制请求消息对所述移动热点设备进行对应的打开、关闭处理;
当移动热点设备接收到移动终端的远程控制请求消息时,第一连接已由单向的广播态切换为双向数据传输态,可接收移动终端的数据,并向移动终端发送数据。
远程控制请求消息包括:热点打开请求、热点关闭请求,根据接收的远程控制请求消息不同,移动热点设备进行的处理不同,当远程控制请求消息为热点打开请求时,移动热点设备进行复位启动热点功能,并返回启动成功响应;当所述远程控制请求消息为热点关闭请求时,将所述移动热点设备进行关闭所述热点功能,并返回关闭成功响应。
当移动热点设备通过第一连接接收到移动终端的远程控制请求消息后,低功耗无线模块对接收到的远程控制请求消息进行对应处理:如果是热点打开请求,由低功耗CPU触发主CPU进行上电复位以打开移动热点设备的热点功能;如果是热点关闭请求,则通知主CPU关闭移动热点设备的热点功能。在打开或关闭热点功能后,低功率CPU将返回请求成功响应通 过第一连接发送至移动终端。
远程控制请求还可包括第二连接建立请求、第二连接断开请求。当所述远程控制请求消息为第二连接建立请求时,建立第二连接;当所述远程控制请求消息为第二连接断开请求时,断开第二连接。具体的:
当移动热点设备通过第一连接接收到移动终端的远程控制请求消息为第二连接建立请求时,低功耗CPU将接收到的第二连接建立请求后转发给主CPU,主CPU建立第二连接,并返回建立成功响应,低功率CPU将建立成功响应通过第一连接发送至移动终端。所述第二连接与所述第一连接为不同的连接,所述第二连接作为数据通道,用于所述移动热点设备与所述移动终端间的数据上传或下载。
当移动热点设备通过第一连接接收到移动终端的远程控制请求消息为第二连接断开请求时,低功耗CPU将接收到的第二连接断开请求转发给主CPU,主CPU断开第二连接,并返回断开成功响应,低功率CPU将断开成功响应通过第一连接发送至移动终端。
在实际应用中,通过本发明实施例提供的管理移动热点的方法可在不需要寻找和取出移动热点设备的前提下,在移动终端上一站式完成查询看到移动热点设备状态信息,完成远程打开和关闭移动热点设备的操作,避免用户碎片化大量使用时频繁的手动取出放回移动热点设备,此外,通过远程控制第二连接的建立与断开能够降低移动热点设备待机状态的功耗,增加移动热点设备的续航时间,同时,能够加快开机速度,大大提升了用户体验。
图2为本发明实施例提供的另一种管理移动热点的方法,该方法应用于接入移动热点设备的移动终端,如图2所示,该方法包括以下步骤:
步骤201,建立第一连接;所述第一连接作为控制通道,用于移动终端与移动热点设备间的远程控制消息交互;
这里,第一连接作为和移动热点设备交互的控制通道,与原有的第二连接,比如WLAN连接,为相互独立的两种无线连接;这里,第一连接可为蓝牙4.0版本的第一连接。
当建立第一连接后,可利用所述第一连接侦听移动热点设备的设备状态信息广播,并在侦听成功后,显示侦听的设备状态信息。
具体的,移动终端建立第一连接后,以侦听周期为周期周期性的侦听移动热点设备的设备状态信息的广播,此时,第一连接为单向的广播态,移动终端侦听移动热点设备的广播,。当侦听到移动热点设备的设备状态信息,侦听成功后,将侦听的设备状态信息以小窗口的方式显示在移动终端的显示区域。这里,本发明实施例对设备状态信息的显示方式不做限制。
在实际应用中,移动终端的屏幕灭时,关闭移动终端的第一连接,等待屏幕亮时,再次侦听移动热点设备广播的设备状态信息。
步骤202,利用所述第一连接发送远程控制请求消息,所述远程控制请求消息用于对所述移动热点设备进行打开、关闭处理控制;
在发送远程控制请求消息之前,需要根据触发策略触发远程控制请求消息,远程控制请求消息包括:热点打开请求、热点关闭请求。具体的,当移动终端接收到用户的打开移动热点设备的指令或检测到移动终端的显示区域的屏幕灯亮,触发热点打开请求;当移动终端接收到用户的关闭移动热点设备的指令或检测到移动终端的显示区域的屏幕灯灭,触发热点关闭请求。
远程控制请求还可包括:用于建立第二连接的第二连接建立请求、用于断开第二连接的第二连接断开请求;这里,第二连接与第一连接为不同的连接,第二连接作为数据通道,用于移动热点设备与移动终端间的数据上传或下载。
在触发远程控制请求消息后,将远程控制请求消息通过第一连接发送 至移动热点设备;在收到移动热点设备的返回的请求响应后,与移动热点设备建立第二连接,进行或准备数据上传或下载;当移动终端触发断开第二连接时,向移动热点设备发送第二连接断开请求,断开与移动热点设备第二连接。这里,移动终端发送第二连接断开请求的同时,可不发送热点关闭请求,从而使移动热点设备处于热点打开而未进行第二连接的热点待机状态。
图3为本发明实施例提供的另一种管理移动热点的方法,该方法应用于包括作为移动热点的移动热点设备、接入移动热点设备的移动终端的系统,如图3所示,该方法包括以下步骤:
步骤301,移动热点设备与移动终端建立第一连接;所述第一连接作为控制通道,用于所述移动热点设备与所述移动终端间的远程控制消息交互;
具体的,在移动热点设备内的低功耗无线模块与接入该移动热点设备的移动之间建立与进行业务交互的第二连接独立的第一连接,该第一连接可为蓝牙4.0版本的第一连接。
步骤302,所述移动终端利用所述第一连接发送远程控制请求消息;
当移动终端根据触发策略需要对移动热点设备进行远程打开或关闭时,触发对移动热点设备进行打开、关闭处理控制的远程控制请求消息,将触发的远程控制请求消息通过步骤301建立的第一连接发送至移动热点设备。
远程控制请求消息还可包括用于建立第二连接的第二连接建立请求、用于断开第二连接的第二连接断开请求。
步骤303,所述移动热点设备通过所述第一连接接收所述远程控制请求消息,响应所述远程控制请求消息,根据所述远程控制请求消息对所述移动热点设备进行打开、关闭处理;
当移动热点设备接收到移动终端发送的远程控制请求消息后,根据接 收到的远程控制请求消息对移动热点设备进行对应的打开、关闭处理;当远程控制请求消息为热点打开请求时,复位打开热点功能,并向移动终端返回打开成功响应;当远程控制请求消息为第二连接建立请求时,在移动终端与移动热点设备之间建立作为数据通道第二连接,用于所述移动热点设备与所述移动终端间的数据上传或下载,以进行业务交互;当所述远程控制请求消息为热点关闭请求时,将关闭所述移动热点设备的热点功能,并返回关闭成功响应;当远程控制请求消息为第二连接断开请求时,断开移动终端与移动热点设备之间的作为数据通道第二连接。
在实际应用中,当移动终端发送热点打开请求时,可同时发送第二连接建立请求。在发送第二连接断开请求时,可不发送热点关闭请求。
这里,在步骤301之后,移动热点设备通过步骤301建立的第一连接以广播周期为周期向移动终端广播其移动热点设备自身的设备状态信息,移动终端以侦听周期为周期进行侦听,当侦听成功后,将侦听的设备状态信息显示在移动终端的显示区域。
下面以具体的应用实例对本发明实施例中的广播设备状态信息、接收设备状态信息、打开移动热点的方法进行进一步阐述。
图4为本发明实施例提供的广播设备状态信息的方法的流程示意图,如图4所示,
步骤401,插入电池;
步骤402,启动低功耗无线模块;
这里,移动热点设备插入电池后,不管移动热点设备是否开机,启动低功耗无线模块,开始进行设备状态信息的低功耗广播;
步骤403,主CPU是否工作;
移动热点设备的低功耗无线模块判断当前主CPU是否工作,获取当前的设备状态,设备状态用于指示移动热点设备是否开机,当移动热点设备 开机时,主CPU工作,设备状态为工作状态,执行步骤404b;当移动热点设备未开机时,主CPU未工作,设备状态为关闭状态,执行步骤404a。
步骤404a,从本地存储中读取设备状态信息;
具体的,当所述设备状态为关闭状态时,移动热点设备的低功耗无线模块的低功耗CPU获取本地存储的设备信息。
步骤404b,从主CPU读取设备状态信息;
具体的,当所述设备状态为工作状态时,移动热点设备的低功耗无线模块的低功耗CPU从移动热点设备的主CPU在线获取设备状态信息,移动热点设备主CPU向低功耗CPU返回设备状态信息。
需要说明的是,不管是步骤404a中,还是步骤404b中,获取的设备状态信息包括表示移动热点设备是否开机、WLAN是否打开、电池信息,SIM卡状态,移动信号制式,信号强度,信息提示(如新短信、版本更新等)等设备状态信息,其中,当WLAN打开标识为0,表示热点关闭状态;当电池电量为0表示移动热点设备首次开机,在移动热点设备之后的开机的设备状态信息中,电池电量为上一次开机时从CPU读取和存储的电池电量信息。
步骤405,周期广播设备状态信息;
在获取设备状态信息后,低功耗无线模块利用第一连接以广播周期为周期向移动终端广播设备状态信息;这里,广播周期可根据需要进行设置,如1秒。
图5为本发明实施例提供的接收设备状态信息的方法的流程示意图,移动终端的预先安装热点管理模块。如图5所示,包括以下步骤:
步骤501,移动终端开机,热点管理模块后台自启动;
这里,移动终端开机后,当用户需要进行业务时,移动终端的屏幕则点亮,因此,根据屏幕是否点亮可确定用户当前是否需要侦听移动热点设 备广播的设备状态信息。当屏幕点亮时,执行步骤502,当屏幕灭时,执行步骤506,关闭第一连接。
步骤502,打开第一连接;
这里,在移动终端的屏幕亮时,热点管理模块打开移动终端与移动热点设备的的第一连接。
步骤503,周期侦听广播;
此时,以侦听周期为周期通过第一连接侦听移动热点设备的设备状态信息的广播,其中,侦听周期可根据用户的需要进行设置,如1.5秒,这里,侦听周期大于移动热点设备的广播周期。
步骤504,判断侦听是否成功;
当侦听成功时,执行步骤505,显示移动热点设备的设备状态信息;具体的,接收侦听的移动热点设备的设备状态信息,在移动终端的待机界面上以小窗口的方式显示接收到的移动热点设备的设备状态信息,如果未侦听成功,则否则继续执行步骤503,周期侦听广播。
需要说明的是,在移动终端的显示区域的屏幕灭时,则关闭移动终端的第一连接,等待屏幕点亮时再侦听并接收移动热点设备广播的设备状态信息。
图6以打开移动热点设备的热点功能为例对本发明实施例提供的方法进行阐述,移动热点设备通过第一连接向移动终端广播其自身的设备状态信息,对于移动终端而言,移动终端通过侦听态的第一连接对移动热点设备广播的设备状态信息进行侦听,当移动终端需要打开热点设备时,执行如图6所示的步骤:
步骤601,移动终端触发热点打开请求;
这里,移动终端的热点管理模块可通过手动、自动两种工作模式触发热点打开请求,其中,手动模式:设置触发开关,用户以手动方式对触发 开关进行打开操作,触发热点打开请求以打开移动热点设备的热点功能;自动模式:当热点管理模块确定移动终端上的应用需要与移动热点设备进行业务交互或显示区域的屏幕亮时,触发热点打开请求,以打开移动热点设备的热点功能。此时,移动终端与移动热点设备之间的第一连接切换为连接态的双向数据通道。
步骤602,移动终端发送热点打开请求;
移动终端的热点管理模块在连接态的第一连接上向移动热点设备发送热点打开请求,并等待移动热点设备的响应。这里,移动终端的热点管理模块同时发送第二连接建立请求。
步骤603,低功耗无线模块接收热点打开请求;
步骤604,低功耗无线模块上电复位主CPU;
这里,移动热点设备的低功耗无线模块接收到热点打开请求后,低功耗无线模块对移动热点设备的主CPU进行上电复位操作,启动移动热点设备的热点功能,并根据第二连接建立请求建立与第一连接独立的第二连接。
步骤605,主CPU启动成功,向低功耗无线模块返回响应;
步骤606,低功耗无线模块发送热点打开响应;低功耗无线模块收到主CPU的响应之后,在建立的第一连接上向移动终端返回热点打开响应。
步骤607,移动终端接收热点打开响应;
步骤608,移动终端显示移动热点设备成功打开;
移动终端接收到移动热点设备返回的成功响应后,显示移动热点设备成功打开,并通过建立的第二连接与移动热点设备进行业务交互,通过移动热点设备进行所需业务。
需要说明的是,图6所示步骤中,步骤601、步骤602、步骤607、步骤608的执行主体是接入移动热点设备的移动终端,而步骤603、步骤604、步骤605、步骤606的执行主体是移动热点设备。
需要说明的,在关闭移动热点设备的热点功能的过程中,可通过手动或自动模式下触发热点关闭请求,进入热点关闭流程,其中,当用户以手动方式对触发开关进行关闭操作、或当热点管理模块确定移动终端上的应用不需要与移动热点设备进行业务交互且屏幕灭时,触发热点关闭请求。
在实际应用中,移动热点设备的主CPU在一段时间如1分钟内检测到第二连接上没有移动终端的连接时,自动断开第二连接,则移动热点设备的无线功能处于待机状态一段时间如5分钟后,仍未接收到热点打开请求,即无热点打开操作,则关闭移动热点设备。
在实际应用中,移动终端上的热点管理模块根据触发策略判断移动终端是否需要连接网络,通过第一连接的控制通道,可以自动打开移动热点设备,进一步提升用户体验。同时,移动终端上的热点管理模块能及时根据移动终端的上网状态,通过第一连接的控制通道,及时关闭移动热点设备或断开第二连接,避免目前简单延时机制带来的功耗浪费,大大延长了一种终端设备的续航时间。
在实际应用中,采用可一直独立工作不关闭的专门的第一连接,可在移动终端上随时监视移动热点设备的管理状态信息,不需要等待较长的移动热点设备启动时间,不需要Web UI登录流程,不在移动热点设备的小屏幕而直接在移动终端的大屏幕上管理移动热点设备,大大提升了用户体验。
如图7所示,本发明实施例提供一种管理移动热点的装置,该装置应用于作为移动热点的移动热点设备70,所述装置包括:第一连接模块71、处理模块72;其中,
第一连接模块71,配置为建立第一连接;所述第一连接作为控制通道,用于移动热点设备与移动终端间的远程控制消息交互;
处理模块72,配置为通过所述第一连接接收远程控制请求消息,响应所述远程控制请求消息,根据所述远程控制请求消息对所述移动热点设备 进行对应的打开、关闭处理;
其中,远程控制请求消息包括:热点打开请求、热点关闭请求;相应的,处理模块72,具体配置为:当所述远程控制请求消息为热点打开请求时,将所述移动热点设备进行复位打开热点功能,并返回打开成功响应;当所述远程控制请求消息为热点关闭请求时,将所述移动热点设备进行关闭所述热点功能,并返回关闭成功响应。
所述装置还包括:广播模块73,配置为获取所述移动热点设备的设备状态;根据所述设备状态获取所述移动热点设备的设备状态信息;利用所述第一连接广播所述设备状态信息。
广播模块73,具体配置为:当所述设备状态为工作状态时,在线获取所述设备状态信息;当所述设备状态为关闭状态时,本地获取存储的所述设备状态信息。
所述远程控制请求还包括:第二连接建立请求,第二连接断开请求,相应的,如图7所示,该装置还包括数据连接模块74,配置为当所述远程控制请求消息为第二连接建立请求时,建立第二连接;当所述远程控制请求消息为第二连接断开请求时,断开第二连接;所述第二连接与所述第一连接为不同的连接,所述第二连接作为数据通道,用于所述移动热点设备与所述移动终端间的数据上传或下载。
在实际应用中,图7所示的第一连接模块71、处理模块72、广播模块73可集成于图10所示的低功耗无线连接模块100中。
如图8所示,本发明实施例还提供一种管理移动热点的装置,所述装置应用于移动终端80,所述装置包括:第一连接管理模块81,发送模块82;其中,
第一连接管理模块81,配置为建立第一连接;所述第一连接作为控制通道,用于移动终端与移动热点设备间的远程控制消息交互;
所述发送模块82,配置为利用所述第一连接发送远程控制请求消息,远程控制请求消息用于对所述移动终端接入的移动热点设备进行打开、关闭处理控制。
如图8所示,所述装置还包括侦听模块83,配置为利用所述第一连接侦听所述移动热点设备的设备状态信息,并在侦听成功后,显示侦听的所述设备状态信息。
如图8所示,所述装置还包括触发模块84,配置为根据触发策略触发所述远程控制请求消息;其中,所述远程控制请求消息包括:热点打开请求、热点关闭请求。
触发模块84还配置为:触发用于建立第二连接的第二连接建立请求、用于断开第二连接的第二连接断开请求;所述第二连接与所述第一连接为不同的连接,所述第二连接作为数据通道,用于所述移动热点设备与所述移动终端间的数据上传或下载。
在实际应用中,图8所示的第一连接管理模块81,发送模块82、侦听模块83、触发模块84可集成于图10所示的热点管理模块101中。
如图9所示,本发明实施例还提供一种管理移动热点的系统,所述系统包括如8图所示移动终端80、如7图所示移动热点设备70;其中,
移动终端80,配置为与所述移动热点设备70建立第一连接,利用所述第一连接发送远程控制请求消息;所述远程控制请求消息用于对所述移动热点设备70进行打开、关闭处理控制。
所述移动热点设备70,配置为与所述移动终端80建立第一连接,通过所述第一连接接收远程控制请求消息,响应所述远程控制请求消息,根据所述远程控制请求消息对所述移动热点设备70进行对应的打开、关闭处理;
其中,所述第一连接作为控制通道,用于移动热点设备与移动终端间的远程控制消息交互。
在实际应用中,本发明实施例提供的系统可如图10所示,在具有开机键和充电口的移动热点设备70中增加低功耗无线模块100,低功耗无线模块100提供第一连接,如蓝牙4.0版本的低功耗无线连接等,作为和移动终端80交互的控制通道。低功耗无线模块100还提供低功耗CPU和移动热点设备的主CPU进行交互,获取设备状态信息,并广播给周边的移动终端80。低功耗无线模块100可一直独立工作,在移动热点设备的主CPU关闭时,也能广播和接收到远程控制请求消息进行操作。
通过移动热点设备70进行业务交互的移动终端80,则部署相应的热点管理模块101。移动终端80通过和移动热点设备70上所对应的第一连接,如蓝牙4.0版本的低功耗无线连接,和移动热点设备70进行信息交互,打开和关闭移动热点设备70的热点功能,其中,在打开移动热点设备70的热点功能后,上行4G/3G/2G无线连接和下行第二连接同时工作。
在实际应用中,本发明提供的装置或系统装置可作为一个单独的系统,还可以是在现有的终端如手机中增加完成不同功能的逻辑单元。
当在手机中增加逻辑单元时,第一连接模块71、处理模块72、广播模块73,数据连接模块74可由位于手机中的中央处理器(CPU,Central Processing Unit)、数字信号处理器(DSP,Digital Signal Processor)、或可编程门阵列(FPGA,Field Programmable Gate Array)实现。
当在手机中增加逻辑单元时,第一连接管理模块81,发送模块82、侦听模块83、触发模块84可由位于手机中的CPU、DSP、或FPGA实现。
以上所述,仅为本发明的较佳实施例而已,并非用于限定本发明的保护范围。
工业实用性
本发明实施例提供了一种管理移动热点的方法,所述方法包括:所述移动热点设备与所述移动终端建立第一连接;所述第一连接作为控制通道, 用于所述移动热点设备与所述移动终端间的远程控制消息交互;所述移动终端利用所述第一连接发送远程控制请求消息,所述远程控制请求消息用于对所述移动热点设备进行打开、关闭处理控制;所述移动热点设备通过所述第一连接接收所述远程控制请求消息,响应所述远程控制请求消息,根据所述远程控制请求消息对所述移动热点设备进行对应的打开、关闭处理;由此,通过该移动热点上网的移动终端能够不再需要寻找和取出移动热点设备,只要在移动智能终端上一站式就能遥控打开和关闭移动热点,避免用户碎片化大量使用时频繁的手动取出放回移动热点设备,提升用户体验。

Claims (21)

  1. 一种管理移动热点的方法,所述方法包括:
    建立第一连接;所述第一连接作为控制通道,用于移动热点设备与移动终端间的远程控制消息交互;
    通过所述第一连接接收远程控制请求消息,响应所述远程控制请求消息,根据所述远程控制请求消息对所述移动热点设备进行对应的打开、关闭处理。
  2. 根据权利要求1所述的方法,其中,所述方法还包括:
    获取所述移动热点设备的设备状态;根据所述设备状态获取所述移动热点设备的设备状态信息;
    利用所述第一连接广播所述设备状态信息。
  3. 根据权利要求2所述的方法,其中,根据所述设备状态获取所述移动热点设备的设备状态信息包括:
    当所述设备状态为工作状态时,在线获取所述设备状态信息;
    当所述设备状态为关闭状态时,本地获取存储的所述设备状态信息。
  4. 根据权利要求1所述的方法,其中,所述远程控制请求消息包括:
    热点打开请求、热点关闭请求;相应的,
    所述根据所述远程控制请求消息对所述移动热点设备进行打开、关闭处理包括:
    当所述远程控制请求消息为热点打开请求时,将所述移动热点设备进行复位打开热点功能,并返回打开成功响应;
    当所述远程控制请求消息为热点关闭请求时,将所述移动热点设备进行关闭所述热点功能,并返回关闭成功响应。
  5. 根据权利要求1所述的方法,其中,所述远程控制请求消息还包括:第二连接建立请求、第二连接断开请求;相应的,所述方法还包括:
    当所述远程控制请求消息为第二连接建立请求时,建立第二连接;
    当所述远程控制请求消息为第二连接断开请求时,断开第二连接;
    所述第二连接与所述第一连接为不同的连接,所述第二连接作为数据通道,用于所述移动热点设备与所述移动终端间的数据上传或下载。
  6. 一种管理移动热点的方法,所述方法包括:
    建立第一连接;所述第一连接作为控制通道,用于移动终端与移动热点设备间的远程控制消息交互;
    利用所述第一连接发送远程控制请求消息,所述远程控制请求消息用于对所述移动热点设备进行打开、关闭处理控制。
  7. 根据权利要求6所述的方法,其中,所述方法还包括:利用所述第一连接侦听所述移动热点设备的设备状态信息,并在侦听成功后,显示侦听的所述设备状态信息。
  8. 根据权利要求7所述的方法,其中,所述方法还包括:
    根据触发策略触发所述远程控制请求消息;其中,所述远程控制请求消息包括:热点打开请求、热点关闭请求。
  9. 根据权利要求8所述的方法,其中,所述远程控制请求还包括:用于建立第二连接的第二连接建立请求、用于断开第二连接的第二连接断开请求;
    所述第二连接与所述第一连接为不同的连接,所述第二连接作为数据通道,用于所述移动热点设备与所述移动终端间的数据上传或下载。
  10. 一种管理移动热点的方法,所述方法包括:
    移动热点设备与移动终端建立第一连接;所述第一连接作为控制通道,用于所述移动热点设备与所述移动终端间的远程控制消息交互;
    所述移动终端利用所述第一连接发送远程控制请求消息,所述远程控制请求消息用于对所述移动热点设备进行打开、关闭处理控制;
    所述移动热点设备通过所述第一连接接收所述远程控制请求消息,响应所述远程控制请求消息,根据所述远程控制请求消息对所述移动热点设备进行对应的打开、关闭处理。
  11. 一种管理移动热点的装置,所述装置包括:第一连接模块、处理模块;其中,
    所述第一连接模块,配置为建立第一连接;所述第一连接作为控制通道,用于移动热点设备与移动终端间的远程控制消息交互;
    所述处理模块,配置为通过所述第一连接接收远程控制请求消息,响应所述远程控制请求消息,根据所述远程控制请求消息对所述移动热点设备进行对应的打开、关闭处理。
  12. 根据权利要求11所述的装置,其中,所述装置还包括:广播模块,配置为获取所述移动热点设备的设备状态;根据所述设备状态获取所述移动热点设备的设备状态信息;利用所述第一连接广播所述设备状态信息。
  13. 根据权利要求12所述的装置,其中,所述广播模块,配置为:
    当所述设备状态为工作状态时,在线获取所述设备状态信息;
    当所述设备状态为关闭状态时,本地获取存储的所述设备状态信息。
  14. 根据权利要求11所述的装置,其中,所述远程控制请求消息包括:热点打开请求、热点关闭请求;相应的,所述处理模块,配置为:
    当所述远程控制请求消息为热点打开请求时,将所述移动热点设备进行复位打开热点功能,并返回打开成功响应;
    当所述远程控制请求消息为热点关闭请求时,将所述移动热点设备进行关闭所述热点功能,并返回关闭成功响应。
  15. 根据权利要求11所述的装置,其中,所述远程控制请求消息包括:第二连接建立请求、第二连接断开请求;相应的,所述装置还包括:
    数据连接模块,配置为当所述远程控制请求消息为第二连接建立请求 时,建立第二连接;当所述远程控制请求消息为第二连接断开请求时,断开第二连接;
    所述第二连接与所述第一连接为不同的连接,所述第二连接作为数据通道,用于所述移动热点设备与所述移动终端间的数据上传或下载。
  16. 一种管理移动热点的装置,所述装置包括:第一连接管理模块,发送模块;其中,
    所述第一连接管理模块,配置为建立第一连接;所述第一连接作为控制通道,用于移动终端与移动热点设备间的远程控制消息交互;
    所述发送模块,配置为利用所述第一连接发送远程控制请求消息,所述远程控制请求消息用于对所述移动热点设备进行打开、关闭处理控制。
  17. 根据权利要求16所述的装置,其中,所述装置还包括:侦听模块,配置为利用所述第一连接侦听所述移动热点设备的设备状态信息,并在侦听成功后,显示侦听的所述设备状态信息。
  18. 根据权利要求17所述的装置,其中,所述装置还包括,触发模块,配置为根据触发策略触发所述远程控制请求消息;其中,所述远程控制请求消息包括:热点打开请求、热点关闭请求。
  19. 根据权利要求18所述的装置,其中,所述触发模块,还配置为:触发用于建立第二连接的第二连接建立请求、用于断开第二连接的第二连接断开请求;所述第二连接与所述第一连接为不同的连接,所述第二连接作为数据通道,用于所述移动热点设备与所述移动终端间的数据上传或下载。
  20. 一种管理移动热点的系统,所述系统包括移动终端、移动热点设备;其中,
    所述移动终端,配置为与所述移动热点设备建立第一连接,利用所述第一连接发送远程控制请求消息,所述远程控制请求消息用于对所述移动 热点设备进行打开、关闭处理控制;
    所述移动热点设备,配置为与所述移动终端建立第一连接,通过所述第一连接接收远程控制请求消息,响应所述远程控制请求消息,根据所述远程控制请求消息对所述移动热点设备进行对应的打开、关闭处理;
    其中,所述第一连接作为控制通道,用于移动热点设备与移动终端间的远程控制消息交互。
  21. 根据权利要求20所述的系统,其中,所述移动终端包括有如权利要求17至19任一项所述的装置;
    所述移动热点设备包括有如权利要求12至15任一项所述的装置。
PCT/CN2014/087334 2014-06-17 2014-09-24 一种管理移动热点的方法、装置及系统 WO2015192523A1 (zh)

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Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107787028A (zh) * 2016-08-24 2018-03-09 深圳市中兴微电子技术有限公司 一种控制调制解调器通信模块的方法和装置
CN109195173A (zh) * 2018-08-28 2019-01-11 努比亚技术有限公司 一种热点连接方法、终端及计算机可读存储介质
CN114258037B (zh) * 2020-09-22 2024-04-12 华为技术有限公司 一种网络控制方法、装置及电子设备
CN112566071B (zh) * 2020-11-18 2023-12-12 深圳市豪恩汽车电子装备股份有限公司 移动终端、移动终端的信息通讯装置及方法
JP2022156894A (ja) * 2021-03-31 2022-10-14 キヤノン株式会社 通信システム、制御方法及びプログラム

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20060025181A1 (en) * 2004-07-30 2006-02-02 Nokia Corporation System and method for managing a wireless connection to reduce power consumption of a mobile terminal
CN101106459A (zh) * 2006-07-12 2008-01-16 北京六合万通微电子技术有限公司 低功耗无线网络连接装置及连接方法
CN103118420A (zh) * 2013-01-24 2013-05-22 中兴通讯股份有限公司 移动热点唤醒处理方法及装置
CN103259734A (zh) * 2013-05-29 2013-08-21 哈尔滨理工大学 一种具有遥控定时功能的路由器

Family Cites Families (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2176776A1 (en) * 2007-06-18 2010-04-21 Peak Positioning Corporation Methods and systems for providing a wireless security service and/or a wireless technical support service for personal computers
ATE543360T1 (de) * 2009-06-30 2012-02-15 Alcatel Lucent Energieeinsparungen für drahtlose zugangspunkte
US8249499B2 (en) * 2009-07-31 2012-08-21 Sierra Wireless, Inc. Method, system and device for initiating wireless communication
US8588698B2 (en) * 2010-08-26 2013-11-19 At&T Mobility Ii Llc Bluetooth-enabled femto pilot gating
JP5259021B2 (ja) * 2011-02-25 2013-08-07 三菱電機株式会社 通信システム、局側通信装置、利用者側通信装置、通信方法、および制御装置
US9155026B2 (en) * 2012-01-10 2015-10-06 Htc Corporation Systems for facilitating wireless communication and related methods
US9220065B2 (en) * 2012-01-16 2015-12-22 Smith Micro Software, Inc. Enabling a mobile broadband hotspot by an auxiliary radio
EP2624653A1 (en) * 2012-01-31 2013-08-07 Research In Motion Limited Mobile wireless communications device with wireless local area network and cellular scheduling and related methods
JP5858814B2 (ja) * 2012-02-08 2016-02-10 Kddi株式会社 Wan側インタフェースを個別に起動可能な無線ルータ、wan通信起動方法及びプログラム
US20140133656A1 (en) * 2012-02-22 2014-05-15 Qualcomm Incorporated Preserving Security by Synchronizing a Nonce or Counter Between Systems
JP5960558B2 (ja) * 2012-09-06 2016-08-02 Necプラットフォームズ株式会社 無線ルータ装置
KR101976034B1 (ko) * 2012-10-30 2019-05-09 에스케이플래닛 주식회사 근거리 통신을 이용한 테더링 제공 시스템 및 그 방법
US9066197B2 (en) * 2013-01-22 2015-06-23 Nokia Corporation Method, apparatus, and computer program product for power save control for tethering connections
CN204166293U (zh) * 2013-04-01 2015-02-18 杭州惠贝科技有限公司 智能手表

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20060025181A1 (en) * 2004-07-30 2006-02-02 Nokia Corporation System and method for managing a wireless connection to reduce power consumption of a mobile terminal
CN101106459A (zh) * 2006-07-12 2008-01-16 北京六合万通微电子技术有限公司 低功耗无线网络连接装置及连接方法
CN103118420A (zh) * 2013-01-24 2013-05-22 中兴通讯股份有限公司 移动热点唤醒处理方法及装置
CN103259734A (zh) * 2013-05-29 2013-08-21 哈尔滨理工大学 一种具有遥控定时功能的路由器

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
See also references of EP3160212A4 *

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