WO2016045346A1 - Procédé, dispositif et support de stockage informatique pour régler un mode de fonctionnement de terminal mobile - Google Patents

Procédé, dispositif et support de stockage informatique pour régler un mode de fonctionnement de terminal mobile Download PDF

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Publication number
WO2016045346A1
WO2016045346A1 PCT/CN2015/075963 CN2015075963W WO2016045346A1 WO 2016045346 A1 WO2016045346 A1 WO 2016045346A1 CN 2015075963 W CN2015075963 W CN 2015075963W WO 2016045346 A1 WO2016045346 A1 WO 2016045346A1
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WIPO (PCT)
Prior art keywords
application scenario
interface
mobile terminal
working mode
signal line
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PCT/CN2015/075963
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English (en)
Chinese (zh)
Inventor
伏红峰
张勇
朱小三
胡乐申
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中兴通讯股份有限公司
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Publication of WO2016045346A1 publication Critical patent/WO2016045346A1/fr

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/72Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
    • H04M1/725Cordless telephones

Definitions

  • the present invention relates to a mobile terminal internal management technology, and in particular, to a mobile terminal working mode setting method and apparatus, and a computer storage medium.
  • mobile terminals on the market have been increasingly popularized and popularized.
  • the product form of the mobile terminal is relatively simple, the option is single, and it is impossible or difficult to expand the form combination of the product.
  • the mobile terminal capable of integrating multi-scene and multi-mode and the applicable mobile terminal are not launched, therefore, generally only according to The provided option implements a single function, resulting in a single function or a single use scenario of the mobile terminal, and the active mode cannot be actively detected and set.
  • embodiments of the present invention are directed to a method, a device, and a computer storage medium for setting a working mode of a mobile terminal, so that the mobile terminal actively detects an application scenario and sets a working mode, thereby avoiding a function of the mobile terminal and a single use scenario. Sex.
  • An embodiment of the present invention provides a method for setting a working mode of a mobile terminal, where the method includes:
  • the interface is a universal serial bus (USB, Universal Serial Bus) 3.0 interface.
  • the detecting a signal state of the interface of the mobile terminal includes: detecting a connection state of the D+ signal line and the D-signal line on the interface; and detecting a level state of the ID pin of the USB bus of the interface; Detecting whether the interface receives an onboard command; detecting a level state of the D+ signal line of the interface.
  • the detecting the signal state of the interface of the mobile terminal, and determining the application scenario that the mobile terminal is currently located according to the detected signal state includes:
  • the current application scenario is a second application scenario; when the ID pin is not at the first level, detecting whether the interface receives the onboard command; when the interface receives the onboard command, determining the mobile terminal
  • the current application scenario is a third application scenario; when the interface does not receive the onboard command, detecting the level state of the D+ signal line of the interface; when the D+ signal line is at the second level, then Determining that the application scenario in which the mobile terminal is currently located is the fourth application scenario; when the D+ signal line is not at the second level, determining that the application scenario currently in which the mobile terminal is located is the fifth application scenario.
  • the first application scenario is a fixed socket application scenario; the second application scenario is a broadband interface application scenario; the third application scenario is an in-vehicle application scenario; and the fourth application scenario is fixed to an individual.
  • the working mode corresponding to the currently applied application scenario according to the current application scenario includes:
  • the application scenario is a broadband interface application scenario, setting the working mode to a broadband interface working mode
  • the application scenario is a portable mobile application scenario
  • setting the working mode to a portable mobile working mode When the application scenario is a portable mobile application scenario, setting the working mode to a portable mobile working mode.
  • the embodiment of the invention further provides a computer storage medium, wherein the computer storage medium stores a computer program, and the computer program is used to execute the setting method of the working mode of the mobile terminal.
  • the embodiment of the present invention further provides a setting device for a working mode of a mobile terminal, where the device includes: a detecting module and a main control module; wherein
  • the detecting module is configured to detect a signal state of an interface of the mobile terminal, and determine an application scenario that the mobile terminal is currently located according to the detected signal state;
  • the main control module is configured to set a working mode corresponding to the current application scenario according to the current application scenario.
  • the interface is a USB 3.0 interface.
  • the detecting module is specifically configured to: detect a connection state of a D+ signal line and a D-signal line on the interface; detect a level state of an ID pin of the USB bus of the interface; and detect the interface Whether to receive the onboard command; detecting the level state of the D+ signal line of the interface.
  • the detecting module includes:
  • a detecting unit configured to detect a connection state of the D+ signal line and the D-signal line on the interface; when the D+ signal line and the D-signal line are not connected, detecting an ID of the USB bus of the interface a level state of the pin; when the ID pin is not at the first level, detecting whether the interface receives an in-vehicle command; when the interface does not receive the in-vehicle command, detecting the D+ signal of the interface The level state of the line;
  • a determining unit configured to determine, when the D+ signal line and the D-signal line are connected, an application scenario in which the mobile terminal is currently located as a first application scenario; when the ID pin is at a first level, Determining that the application scenario in which the mobile terminal is currently located is the second application scenario; when the interface receives the in-vehicle instruction, determining that the application scenario currently in which the mobile terminal is located is the third application scenario; when the D+ signal line is the second At the time of the level, the application scenario in which the mobile terminal is currently located is determined to be the fourth application scenario; when the D+ signal line is not the second level, the application scenario in which the mobile terminal is currently located is determined to be the fifth application scenario.
  • the first application scenario is a fixed socket application scenario
  • the second application scenario is a broadband interface application scenario
  • the third application scenario is an in-vehicle application scenario
  • the fourth application scenario is fixed to a PC.
  • Application scenario; the fifth application scenario is a portable mobile application scenario.
  • the main control module is specifically configured to: when the application scenario is a fixed socket application scenario, set the working mode to a fixed socket working mode;
  • the application scenario is a broadband interface application scenario, setting the working mode to a broadband interface working mode
  • the method and device for setting the working mode of the mobile terminal and the computer storage medium provided by the embodiment of the present invention first detect the signal state of the interface of the mobile terminal, and determine the application scenario where the mobile terminal is currently located according to the detected signal state; The working mode of the mobile terminal corresponding to the determined application scenario. In this way, the mobile terminal can actively detect the current application scenario, and then set the current working mode of the mobile terminal, thereby avoiding the problem that the mobile terminal has a single function and a single application scenario, and the functions of the mobile terminal are more diverse; Depending on the state of the signal of the mobile terminal, a plurality of different working modes can be set for the mobile terminal, so that the mobile terminal is applicable to different application scenarios. Therefore, the application range of the embodiment of the present invention is higher, and the working mode of the mobile terminal can be It varies with the application scenario and can improve the applicability of the mobile terminal.
  • FIG. 1 is a schematic flowchart of a method for setting a working mode of a mobile terminal according to an embodiment of the present invention
  • FIG. 2 is a schematic flowchart of detecting an application scenario according to an embodiment of the present invention.
  • FIG. 3 is a schematic structural diagram of a device for setting a working mode of a mobile terminal according to an embodiment of the present invention
  • FIG. 4 is a schematic diagram of application of a broadband interface connected by a Micro USB 3.0-B connector according to an embodiment of the present invention
  • FIG. 5a is a schematic diagram of an application of connecting to an in-vehicle system through a Micro USB 3.0-B connector according to an embodiment of the present invention
  • FIG. 5b is a schematic diagram of a telephone function connected to an in-vehicle system through a Micro USB 3.0-B connector according to an embodiment of the present invention
  • 5c is a schematic diagram of a voice function connected to an in-vehicle system through a Micro USB 3.0-B connector according to an embodiment of the present invention
  • FIG. 6 is a schematic diagram of an application of connecting to a battery through a Micro USB 3.0-B connector according to an embodiment of the present invention
  • FIG. 7 is an application of a Micro USB 3.0-B connector connected to a charger according to an embodiment of the present invention. schematic diagram;
  • FIG. 8 is a schematic diagram of an application of a PC connected through a Micro USB 3.0-B connector according to an embodiment of the present invention.
  • the signal state of the interface of the mobile terminal is detected, and the application scenario in which the mobile terminal is currently located is determined according to the detected signal state; and the work corresponding to the current application scenario is set according to the current application scenario. mode.
  • FIG. 1 is a schematic flowchart of a method for setting a working mode of a mobile terminal according to an embodiment of the present invention. As shown in FIG. 1 , a method for setting a working mode of a mobile terminal according to an embodiment of the present invention mainly includes the following steps:
  • Step 101 Detect a signal state of an interface of the mobile terminal, and determine an application scenario that the mobile terminal is currently located according to the detected signal state;
  • the interface is a USB3.0 interface
  • the detecting the signal state of the interface of the mobile terminal includes: detecting a connection state of the D+ signal line and the D-signal line on the interface; detecting the power of the ID pin of the USB bus of the interface Flat state; detects whether the interface receives the onboard command; detects the level state of the D+ signal line of the interface.
  • the signal state of the interface of the mobile terminal is detected first, and then the application scenario in which the mobile terminal is currently located is determined according to the detected signal state.
  • the application scenarios in which the mobile terminal may be located may be divided into: a broadband interface application scenario, an in-vehicle application scenario, a portable mobile application scenario, a fixed socket application scenario, and a PC application scenario.
  • the method further includes: powering on the mobile terminal;
  • the mobile terminal does not perform the process of detecting the application scenario after the power is turned off, and when the power is again supplied to the mobile terminal, the process of detecting the application scenario is started again.
  • Step 102 Set, according to the current application scenario, a scenario corresponding to the current application scenario. Operating mode;
  • the mobile terminal may have five working modes corresponding to the five application scenarios described in step 101.
  • the working mode is set to a fixed socket working mode
  • the application scenario is a broadband interface application scenario, setting the working mode to a broadband interface working mode
  • the application scenario is an in-vehicle application scenario, setting the working mode to an in-vehicle working mode
  • the PC application scenario is fixed, the working mode is set to be fixed in the PC working mode;
  • the application scenario is a portable mobile application scenario, the working mode is set to a portable mobile working mode.
  • each working mode has its own characteristics.
  • the mobile terminal in the vehicle working mode, the mobile terminal has functions such as telephone voice; in the portable mobile working mode, the mobile terminal has a carry-on function; when the fixed socket is in the working mode, the mobile terminal
  • the utility model has the functions of charging or powering with large current and no need for battery operation; when fixed in the PC working mode, the mobile terminal has the function of charging or powering a small current, and does not need the battery to work, and has the PC can directly access the mobile terminal through the USB bus.
  • the function of the broadband interface is that the mobile terminal has the function of accessing the Internet through the broadband, or has the function of providing the Internet access to the external device through the network cable.
  • Each of the above modes of operation is independent of each other. When a certain working mode is turned on, other working modes are turned off.
  • the embodiment of the present invention detects the signal state of the interface of the mobile terminal, and determines the application scenario in which the mobile terminal is currently located according to the detected signal state, and then sets the working mode of the mobile terminal corresponding to the determined application scenario, so that The mobile terminal actively detects the application scenario in which the mobile terminal is currently located, and then sets the corresponding working mode, thereby avoiding the problem that the mobile terminal has a single function and a single application scenario, so that the functions of the mobile terminal are more diversified, and the applicability of the mobile terminal is more wide.
  • FIG. 2 is a schematic flowchart of detecting an application scenario according to an embodiment of the present invention.
  • a signal state of an interface of a mobile terminal is detected, and determined according to the detected signal state.
  • the current application scenario of the mobile terminal mainly includes the following steps:
  • Steps 201-202 after the system of the mobile terminal is powered on, detecting a connection state of the D+ signal line and the D-signal line on the interface;
  • Step 203 When the D+ signal line and the D-signal line are connected, determine that the application scenario where the mobile terminal is currently located is a fixed socket application scenario, and end the processing flow;
  • the fixed socket application scenario may also be referred to as a first application scenario
  • Step 204 When the D+ signal line and the D-signal line are not connected, detecting a level state of the ID pin of the USB bus of the interface;
  • Step 205 When the ID pin is at the first level, determining that the application scenario that the mobile terminal is currently located is a broadband interface application scenario, and ending the processing flow;
  • the application scenario is determined to be an application scenario of the broadband interface
  • the first level may be a low level
  • the broadband interface application scenario may also be referred to as a second application scenario
  • Step 206 When the ID pin is not at the first level, detecting whether the interface receives the vehicle command;
  • the ID pin may be an application scenario connected to one of the in-vehicle, or PC, or portable mobile application scenarios, and it is necessary to further detect whether the interface receives the on-board command;
  • Step 207 when the interface receives the in-vehicle instruction, determining that the application scenario currently in which the mobile terminal is located is an in-vehicle application scenario, and ending the process flow;
  • the vehicle command when it is detected that the vehicle command is received, it indicates that there is an instruction issued by the in-vehicle system, and the vehicle application scenario is determined at this time.
  • the in-vehicle application scenario may also be referred to as a third application scenario
  • Step 208 When the mobile terminal does not receive the onboard command, detecting a level state of the D+ signal line of the interface;
  • the mobile terminal when it does not receive the vehicle instruction, it may be an application scenario connected to one of the PC or the portable mobile application scenario, and further detecting whether the level signal of the D+ signal line of the USB bus is the second level. ;
  • the second level may be a high level
  • Step 209 when the D+ signal line is at the second level, determining that the application scenario that the mobile terminal is currently located is fixed to the PC application scenario, and ending the processing flow;
  • the level signal of the D+ signal line when the level signal of the D+ signal line is high, it indicates that the mobile terminal is connected to the PC type device, and is fixed to the PC application scenario at this time;
  • the fixed application scenario of the PC may also be referred to as a fourth application scenario
  • Step 210 When the D+ signal line is not at the second level, determine that the application scenario where the mobile terminal is currently located is a portable mobile application scenario, and end the process flow;
  • the level signal of the D+ signal line is low, it is consistent with the preset mobile application scenario, and the mobile terminal is in the portable mobile application scenario;
  • the portable mobile application scenario may also be referred to as a fifth application scenario.
  • the step 202 detects the connection state of the D+ signal line and the D-signal line on the interface, and the step 204 is performed.
  • the detection of the level state of the ID pin of the USB bus of the interface, and the detection of whether the interface receives the vehicle command by the step 206, the sequence of execution of the three detection steps can be arbitrarily changed, thereby achieving more Implementation plan.
  • the step of detecting whether the interface receives the vehicle-mounted command may be performed.
  • the interface receives the vehicle-mounted command, determining that the current application scenario of the mobile terminal is an in-vehicle application scenario, ending the present application.
  • Processing flow when the interface does not receive the vehicle
  • the detection of the connection state of the D+ signal line and the D-signal line on the interface is performed.
  • the step of detecting the level state of the ID pin of the USB bus of the interface may be performed first. When the ID pin is at the first level, determining an application scenario where the mobile terminal is currently located. For the broadband interface application scenario, the processing flow is ended.
  • the detection of whether the interface receives the vehicle command or the like is performed, and details are not described herein again.
  • the execution sequence of the above several detection steps is different, and does not affect the implementation of the embodiment of the present invention.
  • the embodiment of the invention detects the state of the signal on the micro USB 3.0-B interface and compares it with various preset application scenarios. When the characteristics of a certain application scenario are met, the mobile terminal is considered to be corresponding. In the application scenario, the detection of the application scenario in which the mobile terminal is located is completed, thereby avoiding a situation in which the application scenario of the mobile terminal is relatively simple, so that the function of the mobile terminal is more diversified and the applicability is stronger.
  • the embodiment of the invention further describes a computer storage medium, wherein the computer storage medium stores a computer program for executing a setting method of the working mode of the mobile terminal shown in FIG. 1 or FIG. 2 .
  • FIG. 3 is a schematic structural diagram of a device for setting a working mode of a mobile terminal according to an embodiment of the present invention.
  • a device for setting a working mode of a mobile terminal according to an embodiment of the present invention includes: a detecting module 31 and a main control module 32;
  • the detecting module 31 is configured to detect a signal state of an interface of the mobile terminal, and determine an application scenario that the mobile terminal is currently located according to the detected signal state;
  • the main control module 32 is configured to set an operation mode corresponding to the current application scenario according to the current application scenario.
  • the interface is a USB 3.0 interface.
  • the detecting module 31 includes: a USB controller, a Micro USB-B cable, and a Micro USB 3.0 interface.
  • Table 1 shows the pin definitions of the standard Micro USB 3.0-B.
  • the setting device completes the work of detecting the application scenario by monitoring the level status of the power cable and the signal line of the Micro USB 3.0-B interface.
  • the Micro USB 3.0-B interface belongs to a standard Micro USB 3.0-B female interface on the mechanical structure, and provides an interface for the Micro USB 3.0-B to connect to the mobile terminal.
  • the standard interface has a total of 10 power lines and signal lines with electrical characteristics, wherein the power line supplies power to the mobile terminal; the other lines are signal lines, providing data transmission or status reporting for the mobile terminal. . After the system of the mobile terminal is powered on, the application scenario in which the mobile terminal is located is detected.
  • Micro USB3.0-B interface is a standard Micro USB3.0-B female interface
  • other devices can have devices or cables with a Micro USB 3.0-B male interface. Normally access the Micro USB3.0-B female interface of the mobile terminal.
  • the detecting module 31 is specifically configured to: detect a connection state of the D+ signal line and the D-signal line on the interface; detect a level state of the ID pin of the USB bus of the interface; and detect whether the interface is Receiving a vehicle command; detecting a level state of the D+ signal line of the interface.
  • the embodiment of the present invention divides the application scenario into: a broadband interface application scenario, and a car.
  • the main control module 32 is a system control module designed for the mobile terminal in combination with the actual use scenario, and is responsible for setting the working mode of the mobile terminal.
  • the main control module 32 is configured to: when the application scenario is a fixed socket application scenario, set the working mode to a fixed socket working mode; and when the application scenario is a broadband interface application scenario, set the working mode.
  • the working mode is set to the in-vehicle working mode; when the application scenario is fixed to the PC application scenario, the working mode is set to be fixed to the PC. a mode; when the application scenario is a portable mobile application scenario, setting the working mode to a portable mobile working mode.
  • the detecting module 31 includes:
  • the detecting unit 311 is configured to detect a connection state of the D+ signal line and the D-signal line on the interface; when the D+ signal line and the D-signal line are not connected, detecting an ID tube of the USB bus of the interface Level state of the foot; when the ID pin is not at the first level, detecting whether the interface receives the vehicle command; when the interface does not receive the vehicle command, detecting the power of the D+ signal line Flat state.
  • a determining unit 312 configured to determine, when the D+ signal line and the D-signal line are connected, an application scenario in which the mobile terminal is currently located as a first application scenario; when the ID pin is at a first level, Determining that the application scenario in which the mobile terminal is currently located is the second application scenario; when the interface receives the in-vehicle instruction, determining that the application scenario currently in which the mobile terminal is located is the third application scenario; when the D+ signal line is powered When the flat signal is at the second level, determining that the application scenario in which the mobile terminal is currently located is the fourth application scenario; when the level signal of the D+ signal line is not at the second level, determining the current application of the mobile terminal The scenario is the fifth application scenario.
  • the apparatus for setting a working mode of the mobile terminal further includes: a radio frequency module 33, a database module 34, a network module 35, a telephone module 36, a message module 37, an instruction module 38, and The upgrade module 39, after the mobile terminal sets the working mode, the foregoing modules cooperate with the main control module 32 to complete the functions of the mobile terminal in the current working mode.
  • the RF module 33 is The four working modes except the broadband interface working mode are in the working state; only in the broadband interface working mode, when accessing the network through the broadband network port, the radio frequency module 33 stops working.
  • the function of the unit 312 may be a Central Processing Unit (CPU) located on the mobile terminal, or a Micro Processor Unit (MPU), or a Digital Signal Processing (DSP), or a programmable gate. Array (FPGA, Field-Programmable Gate Array) implementation.
  • FIG. 4 is a schematic diagram of a broadband interface application connected by a Micro USB 3.0-B connector according to an embodiment of the present invention; as shown in FIG. 4, the RJ45 interface is generally used for data transmission, and the most common application is a network card interface, RJ45-USB.
  • the module's USB3.0-A male connector is connected to the battery's Micro USB-B male connector through the USB shield cable.
  • the battery's Micro USB3.0-B male connector is also connected to the mobile terminal's Micro USB3.0-B female connector. The connection enables the data to be sent to the mobile terminal through the RJ45-USB interface, thereby completing the data transmission function of the mobile terminal accessing the Internet through the Micro USB 3.0.
  • FIG. 5 is a schematic diagram of an application of connecting a micro USB 3.0-B connector to an in-vehicle system according to an embodiment of the present invention
  • a USB 3.0-A male connector of the vehicle system passes a USB shielded cable, an SPK line, and The MIC cable is connected to the Micro USB-B male connector of the mobile terminal.
  • the USB 2.0 bus continues to be used as a signal for transmitting the USB protocol, and the remaining signal lines are used.
  • a custom signal line capable of transmitting analog voice is used; FIG.
  • FIG. 5b is a schematic diagram of a telephone function connected to an in-vehicle system through a Micro USB 3.0-B connector according to an embodiment of the present invention
  • FIG. 5c is a schematic diagram of The Micro USB3.0-B connector is connected to the voice function diagram of the in-vehicle system; as shown in Figure 5b and Figure 5c, the car's own audio and microphone system is combined with the voice processing function of the mobile terminal to complete the car.
  • the voice function of the phone; the voice control command is controlled by the AT command via USB, and the voice data is completed by the customized SPK and MIC lines.
  • the data function can be completed on the car through the standard USB2.0 protocol on the Micro USB3.0 connector, thus completing the data access function of the mobile terminal to the Internet.
  • SPK line and MIC line refer to audio line
  • SPK is the abbreviation of Speaker
  • Chinese name is “horn”
  • MIC is the abbreviation of Microphone
  • Chinese name is "microphone”.
  • AT is an abbreviation of Attention, and AT commands are generally applied to the connection and communication between a terminal device and a PC application.
  • FIG. 6 is a schematic diagram of an application of connecting to a battery through a Micro USB 3.0-B connector according to an embodiment of the present invention.
  • an application connected to a battery through a Micro USB 3.0-B connector is a mobile terminal.
  • the battery can be connected to the Micro USB 3.0-B female of the mobile terminal through the Micro USB 3.0-B male connector.
  • FIG. 7 is a schematic diagram of an application of connecting a charger to a charger through a Micro USB 3.0-B connector according to an embodiment of the present invention.
  • the USB-A male of the charger passes through a USB shielded cable and a Micro USB of a battery.
  • the B male connector is connected, and the battery's Micro USB3.0-B male connector is connected to the mobile terminal's Micro USB3.0-B female connector.
  • the application schematic is the fixed socket application scenario. condition. It should be noted that, in this scenario, if the charger is disconnected, because the battery is connected to the mobile terminal and supplies power to the mobile terminal, the detection process can continue, and the connected battery is detected, thereby determining the current state of the mobile terminal.
  • the application scenario is a portable mobile application scenario, that is, an application schematic diagram as shown in FIG. 6.
  • FIG. 8 is a schematic diagram of an application of a PC connected through a Micro USB 3.0-B connector according to an embodiment of the present invention.
  • a USB-A male of a PC device passes a USB shielded cable and a Micro USB of a battery.
  • the B male connector is connected, and the battery's Micro USB3.0-B male connector is connected to the mobile terminal's Micro USB3.0-B female connector, which is fixed in the PC application scenario.
  • the signal state of the interface of the mobile terminal is detected, and the application scenario in which the mobile terminal is currently located is determined according to the detected signal state; and the application scenario corresponding to the current application scenario is set according to the current application scenario.
  • Operating mode In this way, the problem that the mobile terminal has a single function and a single application scenario can be avoided, and the functions of the mobile terminal are more diverse; the application range is higher, and the working mode of the mobile terminal can be changed according to the application scenario, thereby improving the applicability of the mobile terminal.

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Abstract

La présente invention concerne un procédé pour régler un mode de fonctionnement de terminal mobile, ledit procédé consistant à : détecter l'état de signal d'un port d'un terminal mobile ; selon l'état de signal détecté, déterminer le scénario d'utilisation courant du terminal mobile ; selon le scénario d'utilisation courant, régler un mode de fonctionnement correspondant au scénario d'utilisation courant. La présente invention concerne également un dispositif et un support de stockage informatique pour régler un mode de fonctionnement de terminal mobile.
PCT/CN2015/075963 2014-09-28 2015-04-07 Procédé, dispositif et support de stockage informatique pour régler un mode de fonctionnement de terminal mobile WO2016045346A1 (fr)

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CN201410510528.3A CN105450843A (zh) 2014-09-28 2014-09-28 移动终端工作模式的设置方法和装置

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