CN113965460B - Method and device for preventing error reset, intelligent device and storage medium - Google Patents

Abstract

The application discloses a method and device for preventing error reset, intelligent equipment and a storage medium. The method for preventing the error reset comprises the following steps: receiving a reset instruction; when the reset instruction is a first reset instruction, acquiring a switch state of the error reset prevention function based on the first reset instruction, wherein the switch state of the error reset prevention function is in an open state under the abnormal state of the intelligent equipment, and the abnormal state comprises: the intelligent device comprises hardware components in abnormal states and/or network connection in abnormal states; if the switch state of the error-reset-preventing function is an open state, the first reset instruction is not responded. Therefore, the intelligent device automatically starts the anti-misoperation reset function under the abnormal state, so that the situation that the intelligent device is reset due to misoperation of the intelligent device by a user can be avoided, and the probability that the user has an misoperation phenomenon under the abnormal state of the intelligent device is effectively reduced.

Description

Method and device for preventing error reset, intelligent device and storage medium

Technical Field

The application relates to the technical field of intelligent home, in particular to a method and device for preventing false reset, intelligent equipment and storage medium.

Background

Along with the rapid development of the internet of things technology, intelligent equipment (such as intelligent voice assistants, intelligent video playing equipment, intelligent lighting equipment, intelligent air conditioners, intelligent security equipment and the like) are connected together through the internet of things technology, so that the functions of household appliance control, lighting control, temperature control, anti-theft alarm and the like can be realized, and the household comfort level of a user is improved.

When the user uses the intelligent device, the intelligent device is added to the unified intelligent device account system. Taking the example of using a smart light, after the smart light is added to the smart device account system, a user may implement functions of controlling the on and off of the smart light, changing the mode and brightness of illumination, and setting the on time period through an application program on a mobile terminal (e.g., a smart phone) or a terminal control panel.

However, in daily use of the smart device, a phenomenon that a user misoperates the smart device to cause a false reset thereof may occur. After the error reset occurs, the user needs to add the intelligent device to the intelligent device account system again, which causes a certain trouble to the use of the user.

Disclosure of Invention

The embodiment of the application provides a method and device for preventing error reset, intelligent equipment and a storage medium.

In a first aspect, some embodiments of the present application provide a method for preventing a false reset, which is applied to an intelligent device, and the method includes: receiving a reset instruction; when the reset instruction is a first reset instruction, acquiring a switch state of the error reset prevention function based on the first reset instruction, wherein the switch state of the error reset prevention function is in an open state under the abnormal state of the intelligent equipment, and the abnormal state comprises: the intelligent device comprises hardware components in abnormal states and/or network connection in abnormal states; if the switch state of the error-reset-preventing function is an open state, the first reset instruction is not responded.

In a second aspect, some embodiments of the present application further provide a method for preventing a false reset, which is applied to a mobile terminal, and the method includes: receiving notification information sent by the intelligent device after the anti-misoperation function is set to be in an open state, wherein the notification information is used for indicating that the anti-misoperation function is in the open state, the intelligent device is used for opening the anti-misoperation function in an abnormal state, and the abnormal state comprises the following steps of: the intelligent device comprises hardware components in abnormal states and/or network connection in abnormal states; displaying inquiry information, wherein the inquiry information is used for inquiring whether to close the error-preventing reset function; and in response to the confirmation indication for the inquiry information, sending a closing indication to the intelligent device, wherein the closing indication is used for indicating the intelligent device to close the error-preventing reset function.

In a third aspect, some embodiments of the present application further provide an apparatus for preventing a false reset, where the apparatus is applied to an intelligent device, and the apparatus includes: the instruction receiving module is used for receiving a reset instruction; the switch state obtaining module is configured to obtain, when the reset instruction is a first reset instruction, a switch state of the error reset prevention function based on the first reset instruction, where the switch state of the error reset prevention function is in an open state under an abnormal state of the intelligent device, and the abnormal state includes: the intelligent device comprises hardware components in abnormal states and/or network connection in abnormal states; and the execution module is used for not responding to the first reset instruction if the switch state of the error reset prevention function is an on state.

In a fourth aspect, some embodiments of the present application further provide an apparatus for preventing a false reset, which is applied to a mobile terminal, where the apparatus includes: the information receiving module is used for receiving notification information sent by the intelligent device after the anti-misoperation function is set to be in an open state, the notification information is used for indicating that the anti-misoperation function is in the open state, the intelligent device is used for opening the anti-misoperation function in an abnormal state, and the abnormal state comprises the following steps of: the intelligent device comprises hardware components in abnormal states and/or network connection in abnormal states; the information display module is used for displaying inquiry information, wherein the inquiry information is used for inquiring whether to close the error-preventing reset function; and the indication sending module is used for responding to the confirmation indication aiming at the inquiry information and sending a closing indication to the intelligent device, wherein the closing indication is used for indicating the intelligent device to close the error-preventing reset function.

In a fifth aspect, some embodiments of the present application further provide an intelligent device, including: one or more processors; a memory; one or more applications, wherein the one or more applications are stored in memory and configured to be executed by the one or more processors, the one or more applications configured to perform the above-described method of preventing false resets.

In a sixth aspect, an embodiment of the present application further provides a computer readable storage medium storing program code, where the above-described method of preventing a false reset is performed when the program code is executed by a processor.

In a seventh aspect, an embodiment of the present application further provides a computer program product, which when executed, implements the above-mentioned method for preventing a false reset.

The application provides a method, a device, intelligent equipment and a storage medium for preventing error reset, wherein the intelligent equipment is provided with a switch with an error reset preventing function, and the switch can be opened when the intelligent equipment is in an abnormal state, for example, the hardware component of the intelligent equipment is abnormal, or the network connection of the intelligent equipment is abnormal; when the error-resetting prevention function is in an open state, the intelligent device cannot respond to a reset instruction triggered by a user, so that the situation that the intelligent device is reset due to the misoperation of the intelligent device when the intelligent device is in an abnormal state or a network is abnormal can be avoided, and the probability that the error-resetting phenomenon occurs when the intelligent device is in an abnormal state by the user is effectively reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 shows a schematic diagram of an intelligent home system according to an embodiment of the present application.

Fig. 2 is a flowchart of a method for preventing a false reset according to a first embodiment of the present application.

Fig. 3 is a flowchart of a method for preventing a false reset according to a second embodiment of the present application.

Fig. 4 is a flowchart of a method for preventing a false reset according to a third embodiment of the present application.

Fig. 5 is a schematic diagram of a scenario in which a mobile terminal displays query information according to an embodiment of the present application.

Fig. 6 is a flowchart of a method for preventing a false reset according to a fourth embodiment of the present application.

Fig. 7 is a block diagram of an apparatus for preventing erroneous reset according to an embodiment of the present application.

Fig. 8 is a block diagram of another device for preventing erroneous reset according to an embodiment of the present application.

Fig. 9 shows a block diagram of a smart device according to an embodiment of the present application.

Fig. 10 shows a block diagram of a computer-readable storage medium according to an embodiment of the present application.

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present application and are not to be construed as limiting the present application.

In order to enable those skilled in the art to better understand the solution of the present application, the following description will make clear and complete descriptions of the technical solution of the present application in the embodiments of the present application with reference to the accompanying drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In daily use of the smart device, the smart device cannot respond to the user operation due to an abnormality in the smart device (for example, a malfunction in hardware of the smart device itself, an abnormality in network connection). At this time, the user may restore the intelligent device by pressing the button on the intelligent device a plurality of times, and in this case, the operation of the user may exactly correspond to the reset operation of the intelligent device, so that the phenomenon that the intelligent device is reset by mistake due to the misoperation of the user occurs. Taking the control intelligent lamp as an example, the reset operation of the intelligent lamp is more than three times of continuous switch operations, when the intelligent lamp is abnormal, a user may try to make the intelligent lamp recover to be normal by clicking the switch of the intelligent lamp for multiple times, and at this time, the reset instruction of the intelligent lamp may be triggered by the operation of switching the intelligent lamp for multiple times by the user, so that the intelligent lamp is reset. When the user needs to control the intelligent lamp in the follow-up, the intelligent lamp needs to be set again, and inconvenience is caused to the use of the user.

In view of the above problems, the present application provides a method, an apparatus, an intelligent device, and a storage medium for preventing a false reset, where the intelligent device is provided with a switch with a false reset preventing function, and the switch is turned on when the intelligent device is in an abnormal state, for example, a hardware component of the intelligent device is abnormal, or a network connection of the intelligent device is abnormal; when the error-resetting prevention function is in an open state, the intelligent device cannot respond to a reset instruction triggered by a user, so that the situation that the intelligent device is reset due to the misoperation of the intelligent device when the intelligent device is in an abnormal state or a network is abnormal can be avoided, and the probability that the error-resetting phenomenon occurs when the intelligent device is in an abnormal state by the user is effectively reduced.

For the purpose of illustrating the application in detail, the application environment in the embodiments of the application will be described with reference to the accompanying drawings.

Referring to fig. 1, fig. 1 is a schematic view of an application environment of an error reset prevention method according to an embodiment of the present application, where the error reset prevention method according to the embodiment of the present application can be applied to an intelligent home system 100 shown in the drawings, and the intelligent home system 100 includes: one or more intelligent devices 10, gateway device 20, mobile terminal 30, server 40.

The smart device 10 is a product of networking, informatization and intellectualization of conventional home electronics, and a user can remotely control and monitor the smart device 10 through the mobile terminal 30. The intelligent device 10 may include a body sensor, a door and window sensor, a temperature and humidity sensor, a natural gas alarm, a smoke alarm, a wall switch, a wall socket, an intelligent socket, a wireless switch, a wireless wall-mounted switch, a magic cube controller, a curtain motor, an air conditioning partner, and the like. The specific type of smart device 10 is not limited by the embodiments of the present application.

The gateway device 20 is a device that provides a data conversion service between a plurality of networks. In the smart home system 100, the gateway device 20 is a bridge between each smart device 10 in the home and various services outside the home. Specifically, in the home, the gateway device 20 connects the respective smart devices 10 through a local area network, and outside the home, the gateway device 20 connects the respective service providers through the internet. Gateway device 20 may be a router or a modem. In some embodiments, gateway device 20 connects each smart device 10 through a wireless local area network (Wireless Local Area Network, WLAN). In other embodiments, gateway device 20 builds a local area network based on the Bluetooth protocol to connect individual smart devices 10.

The mobile terminal 30 can establish communication connection with the gateway device 20 through 2G/3G/4G/5G, wi-Fi and other modes so as to realize data interaction. Optionally, the mobile terminal 30 is provided with an intelligent home application program, and after the intelligent home application program logs in the designated user account and the binding relationship is established between the designated user account and each intelligent device 10, the user controls each intelligent device 10 through the intelligent home application program. The mobile terminal 30 may be a personal computer (Personal Computer, PC), a tablet, a smart phone, a smart wearable device, a smart control panel, etc.

The server 40 may be one server 40, a server cluster formed by a plurality of servers 40, or a cloud computing service center. In some embodiments, the server 40 is a backend server 40 corresponding to a smart home application installed by the mobile terminal 30. The communication connection is established between the mobile terminal 30 and the server 40 by a wired or wireless means.

As shown in fig. 2, fig. 2 schematically illustrates a method for preventing erroneous reset according to a first embodiment of the present application. The method is applied to the smart device in fig. 1, and may include the following steps S110 to S130.

Step S110: and receiving a reset instruction.

The reset instruction refers to an instruction to reset the smart device, which is triggered by a user. When the smart device resets, the initial settings of the smart device are restored and the local data at the smart device is deleted. The local data includes, but is not limited to: setting data of the intelligent equipment, login data of a connection local area network, binding data of a designated user account logged in by the intelligent home application program and the like. Because the smart device deletes the local data after being reset, the smart device cannot be connected to the local network due to the missing login data, that is, the smart device is in an offline state after being reset, and the mobile terminal cannot remotely control the smart device.

The reset instructions may be classified into a first reset instruction and a second reset instruction according to the priorities of the reset instructions, the priorities of the second reset instruction being higher than the priorities of the first reset instruction.

In the embodiment of the application, the intelligent device does not respond to the first reset instruction but responds to the second reset instruction under the condition that the error-preventing function is in an on state. That is, when the anti-misoperation switch is in an on state, the user can forcedly reset the intelligent device by triggering the second reset instruction. When the intelligent device is returned to goods or is repaired by faults, a maintainer has a demand for restoring factory settings of the intelligent device, however, when an error-preventing reset function in the intelligent device is in an open state, the maintainer cannot reset the intelligent device through a first reset instruction, and in this case, the maintainer can reset the intelligent device through a second reset instruction, so that factory settings of the intelligent device are restored.

In some embodiments, the complexity of the second reset operation corresponding to the second reset instruction is higher than the complexity of the first reset operation corresponding to the first reset instruction. The complexity of the reset operation may be determined according to the number of presses of the reset operation, the duration of the presses, and the like. Alternatively, the greater the number of presses of the reset operation, the greater the complexity; the fewer the number of presses of the reset operation, the lower the complexity. Alternatively, the longer the pressing duration of the reset operation, the higher the complexity; the shorter the pressing duration of the reset operation, the lower the complexity.

Taking the intelligent lamp as an example, the first reset operation may be set to be that after the first preset number of times of continuous power-on and power-off, when the intelligent lamp is turned on again, the intelligent device receives the first reset instruction. The first preset times are set by default by the intelligent device or are set by user definition. Taking the first preset times equal to 5 as an example, the corresponding first reset operation is that when the intelligent lamp is continuously powered on and off for 5 times and then the intelligent lamp is started for 6 times, the intelligent device receives a first reset instruction.

Also taking the intelligent lamp as an example, the second reset operation can be set to continuously turn on and off for a second preset number of times, and then the intelligent device receives the second reset instruction when the intelligent lamp is turned on again. The second preset times are larger than the first preset times. For example, the second preset number of times is 10, that is, the corresponding second reset operation may be set such that the smart device receives the second reset instruction when the smart lamp is turned on 11 th time after the smart lamp is continuously turned on and off 10 times.

In some embodiments, the smart device is provided with a dedicated reset button to receive the reset instruction. When the intelligent device receives a first specified operation signal aiming at the reset button, a reset instruction is received. The designation operation signal may be a single press operation signal, a long press operation signal, or the like. Taking the designated operation signal as a long-press operation signal as an example, after the user presses the reset button for a long time, the intelligent device receives a reset instruction. In other embodiments, the smart device may also receive a reset instruction by designating a button. And when the intelligent equipment receives an electric signal corresponding to the reset operation of the specified button, receiving a reset instruction. The specified button may be a switch button of the intelligent device, and the specific type of the specified button is not limited in the embodiment of the present application.

Step S120: when the reset instruction is a first reset instruction, the switch state of the error-preventing function is acquired based on the first reset instruction.

When the intelligent equipment receives a reset instruction, the intelligent equipment matches an electric signal generated by the reset instruction with a first electric signal characteristic corresponding to a first reset operation, and if the matching is successful, the current instruction is a first reset instruction; if the match fails, it indicates that the instruction is not the first reset instruction.

The switch states of the error reset prevention function include an on state and an off state. When the switch state of the error-reset-preventing function is in an open state, the intelligent equipment does not respond to the first reset instruction; when the switch state of the error-reset-preventing function is in the off state, the intelligent device responds to the first reset instruction.

In the embodiment of the application, the switch state of the error reset prevention function is in an open state when the intelligent equipment is in an abnormal state, and the abnormal state comprises: the intelligent device comprises hardware components in abnormal states and/or network connection in abnormal states. The intelligent device is started or periodically checks whether the intelligent device is in an abnormal state, and when the intelligent device detects that the intelligent device is in the abnormal state, the switch state of the error reset prevention function is automatically set to be in an open state. By the mode, when the intelligent equipment is abnormal or the network is abnormal, the situation that the intelligent equipment is reset due to misoperation of the intelligent equipment is avoided, and the probability that the user has the error reset phenomenon in the abnormal state of the intelligent equipment is effectively reduced.

The hardware components of the intelligent device include: control chip, power supply unit, executive component, etc. Different smart devices include different execution components. For example, the smart device is a smart light and the executing component is lighting hardware. For another example, the smart device is a smart window covering and the actuator is a motor. The abnormal state of the hardware component included in the intelligent device refers to a state that any hardware component fails, such as that the power supply component cannot supply power, the execution component cannot work, and the like. Taking an intelligent lamp as an example, the lighting hardware of the intelligent lamp cannot work. The abnormal network connection state of the intelligent device means that the intelligent device cannot communicate with other devices (such as gateway device and mobile terminal). The flow of detecting whether the smart device is in an abnormal state will be described in the following embodiments.

In some embodiments, the switch state of the anti-false reset function is characterized by the value of the anti-false reset flag bit. In this embodiment, acquiring the switch state of the error-reset prevention function may include the steps of: and obtaining the value of the error-reset-preventing flag bit.

The value of the anti-misoperation flag bit is used for indicating the switch state of the anti-misoperation function. When the value of the error-reset-preventing flag bit is a preset value, the switch state of the error-reset-preventing function is determined to be an on state. When the value of the error-reset-preventing flag bit is not a preset value, determining that the switch state of the error-reset-preventing function is in a closed state.

The preset value is set by default by the smart device. In some embodiments, the anti-error reset flag bit may be represented by a Byte (Byte) in the memory of the control chip of the smart device, where the Byte is a binary 8-bit unsigned number, and the range is 00000000 ～ 11111111. For example, the preset value of the anti-false reset flag bit may be set to 11111111.

Step S130: if the switch state of the error-reset-preventing function is an open state, the first reset instruction is not responded.

When the intelligent equipment determines that the switch state of the error-reset-preventing function is an on state, the first reset instruction is not responded, namely the intelligent equipment does not perform reset operation; if the switch state of the error-reset-preventing function is determined to be the off state, responding to a first reset instruction, namely resetting the intelligent equipment. By the mode, the situation that the intelligent device is reset due to misoperation of the intelligent device when the intelligent device is abnormal or the network is abnormal can be avoided, and the probability that the user has the error reset phenomenon in the abnormal state of the intelligent device is effectively reduced.

Optionally, after step S130, the smart device may display the alert information. The reminding information is used for reminding the user to reset the intelligent device through the second reset instruction, and the reminding information can be a voice prompt sent by a loudspeaker on the intelligent device or a text prompt displayed by a display screen on the intelligent device. The user can trigger a second reset instruction according to the reminding information, and the intelligent device can be reset directly after receiving the second reset instruction. By the mode, the requirement of resetting the intelligent device when the intelligent device is in an abnormal state is met.

In the embodiment of the application, the intelligent equipment is provided with the switch with the error reset prevention function, and the switch can be opened when the intelligent equipment is in an abnormal state, for example, the hardware component of the intelligent equipment is abnormal, or the network connection of the intelligent equipment is abnormal; when the error-resetting prevention function is in an open state, the intelligent device cannot respond to a reset instruction triggered by a user, so that the situation that the intelligent device is reset due to the misoperation of the intelligent device when the intelligent device is in an abnormal state or a network is abnormal can be avoided, and the probability that the error-resetting phenomenon occurs when the intelligent device is in an abnormal state by the user is effectively reduced.

The following describes a case of detecting whether the smart device is in an abnormal state.

In some embodiments, in an alternative embodiment provided based on the embodiment shown in fig. 2, the method for preventing a false reset may further include the steps of: in response to an open indication for the smart device, it is detected whether the smart device is in an abnormal state. If the intelligent equipment is in an abnormal state, the error-reset-preventing function is started. If the intelligent equipment is in a normal state, the error-preventing reset function is not opened.

The opening instruction is used for triggering the intelligent equipment to enter a working state, and when the power supply of the intelligent equipment is started and a control chip in the intelligent equipment is in an electrified state, the intelligent equipment receives the opening instruction. After the intelligent device receives the opening instruction, whether the intelligent device is in an abnormal state or not is detected, and whether an error-preventing reset function is opened or not is further determined.

As an embodiment, a device abnormal state determination program may be built in the control chip of the smart device to detect whether the smart device is in an abnormal state. Optionally, the control chip sends a detection instruction to each hardware component of the intelligent device, each intelligent component carries out self-test based on the detection instruction, if the test result is normal, a confirmation normal signal is returned to the control chip, if the control chip does not receive the confirmation normal signal sent by the hardware component within a preset time, the hardware component is determined to be abnormal, that is, the intelligent device is in an abnormal state, and at the moment, the control chip generates a control signal to set the value of the error-reset-prevention flag bit to be a preset value.

Taking an example that an intelligent sweeping robot with a laser navigation function cannot advance due to motor faults, a driving component in the intelligent sweeping robot transmits laser after receiving a detection instruction sent by a control chip, and then judges the distance between the intelligent sweeping robot and an obstacle according to the time of reflecting the laser to reach the obstacle after transmitting the laser, so that the relative position is judged, and if the relative position is kept unchanged for a period of time, the operation of the current intelligent sweeping robot is indicated to be faulty. Under the condition, if the control chip does not receive the normal confirming signal sent by the driving component within the preset time, the hardware component is determined to be abnormal, namely the intelligent sweeping robot is in an abnormal state, and at the moment, the control chip can generate a control signal to set the value of the error-reset-preventing flag bit to be a preset value.

As one embodiment, a network abnormal state determination program is built in a control chip of the smart device to detect whether a network connection is in an abnormal state. The network abnormal state judging program can detect whether the intelligent equipment is in a communication state with the gateway in real time or periodically, if the intelligent setting judges that communication with the gateway cannot be established currently, the network connection is indicated to be in an abnormal state, and at the moment, the control chip can generate a control signal to set the value of the error-reset-prevention zone bit to be a preset value.

In other embodiments, in an alternative embodiment provided based on the embodiment shown in fig. 2, the method for preventing a false reset may further include the steps of: detecting whether the intelligent device is in an abnormal state or not at preset time intervals. If the intelligent equipment is in an abnormal state, the error-reset-preventing function is started. If the intelligent equipment is in a normal state, the error-preventing reset function is not opened.

The preset duration is set by default by the intelligent device or by user definition. Specifically, the preset duration may be 0.5h, 1h, 2h, 5h, etc., taking the preset duration equal to 2h as an example, in the on state of the intelligent device, whether the intelligent device is in an abnormal state is detected every 2 h.

In the above embodiments, it was mentioned that the switch state of the anti-misoperation function is characterized by an anti-misoperation flag bit on the built-in control chip of the intelligent device. When the intelligent equipment is in an abnormal state, the intelligent equipment sets the error-preventing reset flag bit as a preset value; when the intelligent device is in a normal state, the intelligent device does not change the original value of the error-preventing reset flag bit.

Optionally, after the anti-error reset function on the intelligent device is turned on, the reminding information is displayed to remind the user to reset the intelligent device through the second reset instruction, and the reminding information can be a voice prompt sent by a speaker on the intelligent device, a text prompt displayed by a display screen on the intelligent device, and the like.

In the embodiment of the application, the intelligent device is provided with the switch with the error reset prevention function, and the intelligent device can detect whether the intelligent device is in an abnormal state or not at regular intervals when being started, and timely detect whether the intelligent device is in the abnormal state, and timely open the error reset prevention function under the abnormal state, at the moment, the reset instruction triggered by the misoperation of the user due to the abnormal state of the intelligent device is not responded, and the probability of the error reset phenomenon of the user under the abnormal state of the intelligent device is effectively reduced.

As shown in fig. 3, fig. 3 schematically illustrates a method for preventing erroneous reset according to a second embodiment of the present application. The method is applied to the smart device in fig. 1, and may include the following steps S210 to S260.

Step S210: and receiving a reset instruction.

In this embodiment, the implementation of step S210 may refer to the description of step S110 provided in the above embodiment, and will not be described in detail herein.

Step S220: and when the reset instruction is a second reset instruction, resetting the intelligent device based on the second reset instruction.

When the intelligent equipment receives the reset instruction, the intelligent equipment matches the electric signal generated by the reset instruction with a second electric signal characteristic corresponding to a second reset operation, and if the matching is successful, the current instruction is indicated to be the second reset instruction; if the match fails, it indicates that the instruction is not a second reset instruction. Further, if the current reset instruction is the second reset instruction, the intelligent device is forcedly reset.

Step S230: after the intelligent device is reset, the operation data of the intelligent device are reserved.

After the intelligent device resets itself, corresponding operation data are reserved, and the operation data include, but are not limited to: setting data of the intelligent device, binding data of the intelligent device, login data of the connected local area network and the like. Taking the intelligent sweeping robot as an example, the operation data can be user-defined sweeping path data, automatic starting time data, sweeping mode data and the like.

Step S240: and acquiring a binding instruction.

The binding indication is used for indicating that a first binding relationship is established between the intelligent device and the first user account. The binding indication includes an account identification of the first user account. In order to realize remote control of the intelligent device, the binding relationship needs to be reestablished after the intelligent device is reset. After the intelligent device is started, the mobile terminal can find the intelligent device, then the intelligent device is displayed, and if the user triggers the device identifier of the intelligent device on the mobile terminal, the mobile terminal sends a binding instruction to the intelligent device.

Step S250: and if the first user account is different from the second user account, deleting the operation data of the intelligent equipment.

The second user account is a user account bound before the smart device resets. After the intelligent device establishes a binding relation with the first user account according to the binding instruction, the intelligent device can judge whether the current binding user account (namely the first user account) is the same as an account (namely a second user account) which establishes the binding relation with the intelligent device before the intelligent device is reset.

If the first user account is different from the second user account, it indicates that the smart device may be used by other families or other users, and at this time, the operation data of the smart device reserved in step S230 is deleted, so that on one hand, the memory occupation of the smart device is reduced, and on the other hand, the situation that the data is confused is avoided.

Step S260: and if the first user account is the same as the second user account, reserving the operation data of the intelligent equipment.

If the first user account is the same as the second user account, the operation data of the intelligent device are reserved, and inquiry information is sent to the mobile terminal to inquire whether the reserved operation data are adopted, so that the intelligent device is helpful to help the user to quickly recover the original setting of the intelligent device under the condition that the intelligent device is reset by misoperation of the user, and the trouble caused by the misoperation of the intelligent device is reduced.

In the embodiment of the application, under the condition that the intelligent equipment cannot respond to the first reset instruction due to the opening of the error-preventing reset function, the intelligent equipment can be forcedly reset through the second reset instruction, so that the problem that the intelligent equipment cannot be reset under the condition that the error-preventing reset function is opened is solved. After the intelligent device is reset, corresponding operation data of the intelligent device are reserved, and after the intelligent device is judged not to be added to the original account, the operation data are deleted; on one hand, the memory occupation of the intelligent equipment is reduced, and on the other hand, the situation of data confusion is avoided. And after the intelligent device is judged to be added to the original account, the original operation data is recovered, so that the user is helped to quickly recover the original setting of the intelligent device under the condition that the intelligent device is reset by mistake due to misoperation of the user, and the trouble caused by the reset of the intelligent device is reduced.

As shown in fig. 4, fig. 4 schematically illustrates a method for preventing erroneous reset according to a third embodiment of the present application. The method is applied to the smart device in fig. 1, and may include the following steps S310 to S360.

Step S310: and receiving a reset instruction.

Step S320: when the reset instruction is a first reset instruction, the switch state of the error-preventing function is acquired based on the first reset instruction.

Step S330: if the switch state of the error-reset-preventing function is an open state, the first reset instruction is not responded.

In this embodiment, the specific implementation of step S310 to step S330 may refer to the descriptions of step S110 to step S130 provided in the above embodiments, and are not described here again.

Step S340: and sending notification information to the mobile terminal.

The notification information is used for notifying that the error-preventing reset function is in an on state. The notification information carries a device identifier of the intelligent device and a switch state of the reset prevention function. The mobile terminal is configured to display inquiry information for inquiring whether to turn off the error-preventing reset function based on the notification information.

In the embodiment of the application, when the intelligent equipment detects that the hardware component of the intelligent equipment is abnormal, notification information is directly sent to the mobile terminal after the error-preventing reset function is started. When the intelligent device detects that the network is abnormal, under the condition of starting the error-preventing reset function, whether the network is normal or not is detected regularly, and after the network is normal, notification information is sent to the mobile terminal.

After the mobile terminal receives the notification information, inquiry information is displayed, and the inquiry information is used for inquiring whether the user turns off the anti-misoperation function at the intelligent device. Specifically, referring to fig. 5, the mobile terminal displays query information 51 "whether the current anti-misoperation function is turned on or not is required to be turned off", and the first control 52 and the second control 53, and the user may trigger the first control 52 to turn off the anti-misoperation function, or trigger the second control 52 to maintain the smart device in an on state.

In other possible implementations, the mobile terminal is also provided with a switch for a false reset prevention function. When the intelligent device can communicate with the mobile terminal, if the intelligent device detects that the error-reset-preventing function is in an open state, a synchronous request is sent to the mobile terminal, and the mobile terminal opens a switch of the error-reset-preventing function according to the synchronous request. After the mobile terminal receives the notification information of the intelligent device, the user can synchronously close the switch of the anti-misoperation function at the intelligent device by closing the switch of the anti-misoperation function at the mobile terminal.

Optionally, if the user does not turn off the switch of the anti-error reset function at the intelligent device after the mobile terminal receives the notification information, the intelligent device may send the notification information to the mobile terminal at intervals of a fixed duration, and the mobile terminal may also choose not to receive the notification information any more.

Step S350: and receiving a closing instruction sent by the mobile terminal after receiving the confirmation instruction corresponding to the inquiry information.

When the user selects the option of closing the anti-misoperation reset under the condition that the mobile terminal displays the inquiry information, the intelligent device receives the confirmation indication corresponding to the inquiry information. The confirmation indication may be an electrical signal, and after the control chip at the mobile terminal captures the electrical signal, a shutdown indication is generated, where the shutdown indication is used to notify the smart device to shutdown the anti-error reset function.

In other possible implementations, the mobile terminal includes a switch for an anti-false reset function. When the anti-misoperation reset switch of the mobile terminal is in an on state and a trigger signal for the switch is received, the mobile terminal generates a closing instruction and sends the closing instruction to the intelligent device.

Step S360: and closing the error-preventing reset function according to the closing instruction.

And after the intelligent equipment receives the closing instruction sent by the mobile terminal, setting the switch state of the error-resetting prevention function to be a closing state. In some embodiments, the smart device sets the value of the anti-false reset flag bit to a value other than the preset value. For example, the value of the anti-false reset flag bit may be set to 00000000 when the switch state of the anti-false reset function is in the off state.

In some embodiments, the intelligent device automatically turns off the anti-false reset function after a set period of time after the anti-false reset function is turned on. The set duration may be set by default by the smart device, or/and, may be set by user-definition. Specifically, the value of the set duration may be 0.5h, 1h, 2h, 5h, etc., taking the case that the set duration is equal to 2h as an example, when the intelligent device is in the on state after 2h after the anti-misoperation function is started, the anti-misoperation function is automatically closed. When the intelligent device is in a fault state for a long time, a user needs to reset the intelligent device to enable the intelligent device to recover to normal work, and under the condition, the intelligent device automatically closes an error reset prevention function so that the user can reset the intelligent device normally.

In other embodiments, after a set period of time after the reset prevention function is turned on, the intelligent device displays prompt information, where the prompt information is used to prompt whether to turn off the reset prevention function, and the user may select to turn off the reset prevention function or maintain the reset prevention function in an on state according to his own needs, so as to meet a requirement that the user resets the intelligent device under a condition that the intelligent device is in a long-time fault.

In the embodiment of the application, after the switch of the anti-misoperation resetting function of the intelligent equipment is turned on, the notification information is sent to the mobile terminal for inquiring whether to turn off the anti-misoperation resetting function, so that the inconvenience brought to the follow-up user for resetting the intelligent equipment due to the anti-misoperation resetting function which is turned on when the intelligent equipment is in an abnormal state can be reduced.

As shown in fig. 6, fig. 6 schematically illustrates a method for preventing erroneous reset according to a fourth embodiment of the present application. The method is applied to the mobile terminal in fig. 1, and may include the following steps S410 to S430.

Step S410: and receiving notification information sent by the intelligent device after the error-preventing reset function is set to be in an on state.

In the embodiment of the present application, the notification information is used to indicate that the anti-error reset function is in an on state, the intelligent device is used to open the anti-error reset function in an abnormal state, and when the anti-error reset function is in the on state, the first reset instruction is not responded, and the abnormal state includes: the intelligent device comprises hardware components in abnormal states and/or network connection in abnormal states.

Step S420: and displaying the inquiry information.

In the embodiment of the application, the inquiry information is used for inquiring whether to close the error-preventing reset function.

Step S430: in response to the confirmation indication for the query information, a shutdown indication is sent to the smart device.

In the embodiment of the application, the closing instruction is used for indicating the intelligent equipment to close the error-reset-preventing function.

In the embodiment of the application, after the switch of the anti-misoperation reset function of the intelligent equipment is turned on, the mobile terminal receives the notification information of the turn-on of the anti-misoperation reset switch at the intelligent equipment, and inquires whether to turn off the anti-misoperation reset function by further displaying the inquiry information, so that the inconvenience brought to the follow-up user for resetting the intelligent equipment by the turned-on anti-misoperation reset function when the intelligent equipment is in an abnormal state can be reduced.

Referring to fig. 7, a block diagram of an apparatus 700 for preventing erroneous reset according to an embodiment of the application is shown. The apparatus 700 for preventing erroneous reset is applied to an intelligent device, and the apparatus 700 includes: an instruction receiving module 710, a switch state obtaining module 720 and an executing module 730. The instruction receiving module 710 is configured to receive a reset instruction. The switch state obtaining module 720 is configured to obtain, when the reset instruction is a first reset instruction, a switch state of the anti-error reset function based on the first reset instruction, where the switch state of the anti-error reset function is in an open state under an abnormal state of the smart device, and the abnormal state includes: the intelligent device comprises hardware components in abnormal states and/or network connection in abnormal states. The execution module 730 is configured to not respond to the first reset instruction if the switch state of the anti-error reset function is an on state.

The application provides a device for preventing error reset, wherein an intelligent device is provided with a switch with an error reset preventing function, and the switch can be opened when the intelligent device is in an abnormal state, for example, the hardware component of the intelligent device is abnormal, or the network connection of the intelligent device is abnormal; when the error-resetting prevention function is in an open state, the intelligent device cannot respond to a reset instruction triggered by a user, so that the situation that the intelligent device is reset due to the misoperation of the intelligent device when the intelligent device is in an abnormal state or a network is abnormal can be avoided, and the probability that the error-resetting phenomenon occurs when the intelligent device is in an abnormal state by the user is effectively reduced.

In some embodiments, the apparatus 700 further comprises: an abnormal state detection module (not shown in the figure) is used for detecting whether the intelligent device is in an abnormal state or not in response to an opening instruction for the intelligent device; and/or detecting whether the intelligent device is in an abnormal state or not every preset time length. The anti-misoperation function opening module (not shown in the figure) is used for opening the anti-misoperation function if the intelligent device is in an abnormal state.

In some embodiments, a flag bit value obtaining module (not shown in the figure) is configured to obtain a value of an anti-error reset flag bit, where the value of the anti-error reset flag bit is used to indicate a switch state of the anti-error reset function. The anti-misoperation function determining module (not shown in the figure) is used for determining that the switch state of the anti-misoperation function is an open state in response to the value of the anti-misoperation flag bit being a preset value.

In some embodiments, the smart device reset module (not shown in the figure) is configured to reset the smart device based on the second reset instruction when the reset instruction is the second reset instruction, the second reset instruction having a higher priority than the first reset instruction.

In some embodiments, the apparatus 700 further comprises: the notification information transmitting module (not shown in the figure) is configured to transmit notification information for notifying that the error-reset prevention function is in an on state to the mobile terminal, the mobile terminal is configured to display inquiry information for inquiring whether to turn off the error-reset prevention function based on the notification information. The closing instruction receiving module (not shown in the figure) is configured to receive a closing instruction sent by the mobile terminal after receiving an acknowledgement instruction corresponding to the inquiry information. A function shutdown module (not shown in the figure) is used to shut down the error-preventing reset function according to a shutdown instruction.

In some embodiments, the apparatus 700 further comprises: an operation data retention module (not shown in the figure) is used for retaining the operation data of the intelligent device after the intelligent device is reset.

In some embodiments, the apparatus 700 further comprises: a binding indication obtaining module (not shown in the figure) is configured to obtain a binding indication, where the binding indication is used to indicate that a first binding relationship is established between the smart device and the first user account. The data deleting module (not shown in the figure) is configured to delete the operation data of the intelligent device if the first user account is different from the second user account, where the second user account is an account that establishes a binding relationship with the intelligent device before resetting the intelligent device. The data retention module (not shown in the figure) is configured to retain operation data of the intelligent device if the first user account is the same as the second user account.

Referring to fig. 8, a block diagram of another device 800 for preventing error reset according to an embodiment of the application is shown. The apparatus 800 for preventing the false reset is applied to a mobile terminal, and the apparatus 800 includes: an information receiving module 810, an information display module 820, and an indication transmitting module 830. The information receiving module 810 is configured to receive notification information sent by the smart device after the anti-error reset function is set to an on state, where the notification information is used to indicate that the anti-error reset function is in the on state, and the smart device is configured to open the anti-error reset function in an abnormal state, and not respond to the first reset instruction when the anti-error reset function is in the on state, where the abnormal state includes: the intelligent device comprises hardware components in abnormal states and/or network connection in abnormal states. The information display module 820 is used for displaying inquiry information for inquiring whether to turn off the anti-error reset function. The indication sending module 830 is configured to send a shutdown indication to the smart device in response to the acknowledgement indication for the query information, where the shutdown indication is used to instruct the smart device to shutdown the anti-error reset function.

It will be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working process of the apparatus and modules described above may refer to the corresponding process in the foregoing method embodiment, which is not repeated herein.

In several embodiments provided by the present application, the coupling of the modules to each other may be electrical, mechanical, or other.

In addition, each functional module in each embodiment of the present application may be integrated into one processing module, or each module may exist alone physically, or two or more modules may be integrated into one module. The integrated modules may be implemented in hardware or in software functional modules.

According to the scheme provided by the application, the intelligent equipment is provided with the switch with the error reset prevention function, and the switch can be opened when the intelligent equipment is in an abnormal state. The abnormal state includes: the hardware components of the intelligent device are abnormal, and the network connection of the intelligent device is abnormal. By opening the error-reset-preventing function in the abnormal state, the user can be prevented from triggering the reset function of the intelligent device by error caused by the operation of the intelligent device when the intelligent device is in the abnormal state or the network is abnormal. Therefore, as the intelligent device automatically starts the error-reset-preventing function in the abnormal state, a reset instruction triggered by the misoperation of the user cannot be responded, and the probability of error reset phenomenon of the user in the abnormal state of the intelligent device is effectively reduced.

Referring to fig. 9, it is shown that an embodiment of the present application further provides an intelligent device 900, where the intelligent device 900 includes: one or more processors 910; a memory 920; one or more applications, wherein the one or more applications are stored in memory and configured to be executed by the one or more processors, the one or more applications configured to perform the above-described method of preventing false resets.

Processor 910 may include one or more processing cores. The processor 910 utilizes various interfaces and lines to connect various portions of the overall battery management system, perform various functions of the battery management system, and process data by executing or executing instructions, programs, code sets, or instruction sets stored in the memory 920, and invoking data stored in the memory 920. Alternatively, the processor 910 may be implemented in hardware in at least one of digital signal Processing (DIGITAL SIGNAL Processing, DSP), field-Programmable gate array (Field-Programmable GATE ARRAY, FPGA), programmable logic array (Programmable Logic Array, PLA). The processor 910 may integrate one or a combination of several of a central processor 910 (Central Processing Unit, CPU), an image processor 910 (Graphics Processing Unit, GPU), and a modem, etc. The CPU mainly processes an operating system, a user interface, an application program and the like; the GPU is used for being responsible for rendering and drawing of display content; the modem is used to handle wireless communications. It will be appreciated that the modem may not be integrated into the processor 910 and may be implemented solely by a single communication chip.

The Memory 920 may include a random access Memory 920 (Random Access Memory, RAM) or may include a Read-Only Memory 920. Memory 920 may be used to store instructions, programs, code, sets of codes, or instruction sets. The memory 920 may include a stored program area and a stored data area, wherein the stored program area may store instructions for implementing an operating system, instructions for implementing at least one function (such as a touch function, a sound playing function, an image playing function, etc.), instructions for implementing various method embodiments described below, and the like. The storage data area may also store data created by the electronic device map in use (e.g., phonebook, audiovisual data, chat log data), and the like.

Referring to fig. 10, an embodiment of the present application is further provided with a computer readable storage medium 1000, where the computer readable storage medium 1000 stores computer program code 1010, and the computer program code 1010 may be invoked by a processor to perform the method described in the above embodiment.

The computer readable storage medium may be an electronic memory such as a flash memory, an EEPROM (electrically erasable programmable read only memory), an EPROM, a hard disk, or a ROM. Optionally, the computer readable storage medium comprises a non-volatile computer readable storage medium (non-transitory computer-readable storage medium). The computer readable storage medium 1000 has storage space for program code to perform any of the method steps described above. The program code can be read from or written to one or more computer program products. The program code may be compressed, for example, in a suitable form.

Although the present application has been described in terms of the preferred embodiments, it should be understood that the present application is not limited to the specific embodiments, but is capable of numerous modifications and equivalents, and alternative embodiments and modifications of the embodiments described above, without departing from the spirit and scope of the present application.

Claims (10)

1. A method for preventing false resets, characterized in that it is applied to an intelligent device in an intelligent home system, said method comprising:

receiving a reset instruction;

When the reset instruction is a first reset instruction, acquiring a switch state of an anti-misoperation function based on the first reset instruction, wherein the switch state of the anti-misoperation function is in an open state when the intelligent equipment is in an abnormal state, and the abnormal state comprises: the intelligent device comprises hardware components in abnormal states and/or network connection in abnormal states;

And if the switch state of the error-reset-preventing function is the open state, not responding to the first reset instruction.

2. The method for preventing a false reset according to claim 1, further comprising, prior to receiving a reset instruction:

detecting whether the intelligent device is in the abnormal state in response to an opening instruction for the intelligent device;

and/or detecting whether the intelligent device is in the abnormal state or not at preset time intervals;

and if the intelligent equipment is in the abnormal state, opening the error-reset-preventing function.

3. The method for preventing a false reset according to claim 1, wherein said obtaining a switch state of a false reset preventing function based on the first reset instruction includes:

acquiring the value of an anti-misoperation reset flag bit, wherein the value of the anti-misoperation reset flag bit is used for indicating the switch state of the anti-misoperation reset function;

and when the value of the error-reset-preventing flag bit is a preset value, determining the switch state of the error-reset-preventing function as the open state.

4. The method of preventing a false reset of claim 1, further comprising:

And when the reset instruction is a second reset instruction, resetting the intelligent equipment based on the second reset instruction, wherein the priority of the second reset instruction is higher than that of the first reset instruction.

5. A method of preventing false resets according to any one of the claims 1 to 4, characterized in that said method further comprises:

The method comprises the steps that notification information is sent to a mobile terminal, the notification information is used for notifying that the error-preventing reset function is in an open state, the mobile terminal is used for displaying inquiry information based on the notification information, and the inquiry information is used for inquiring whether the error-preventing reset function is closed or not;

Receiving a closing instruction sent by the mobile terminal after receiving a confirmation instruction corresponding to the inquiry information;

And closing the error reset prevention function according to the closing instruction.

6. A method of preventing false resets according to any one of the claims 1 to 4, characterized in that said method further comprises:

and after resetting the intelligent equipment, reserving the operation data of the intelligent equipment.

7. The method for preventing a false reset according to claim 6, further comprising, after said reserving the operation data of the smart device:

acquiring a binding instruction, wherein the binding instruction is used for indicating that a first binding relationship is established between the intelligent equipment and a first user account;

If the first user account is different from a second user account, deleting the operation data of the intelligent equipment, wherein the second user account is an account which establishes a binding relation with the intelligent equipment before resetting the intelligent equipment;

and if the first user account is the same as the second user account, reserving the operation data of the intelligent equipment.

8. A method for preventing false resets, which is applied to a mobile terminal in an intelligent home system, the method comprising:

Receiving notification information sent by an intelligent device after an anti-misoperation function is set to be in an open state, wherein the notification information is used for indicating that the anti-misoperation function is in the open state, the intelligent device is used for opening the anti-misoperation function in an abnormal state, and a first reset instruction is not responded under the condition that the anti-misoperation function is in the open state, and the abnormal state comprises: the intelligent device comprises hardware components in abnormal states and/or network connection in abnormal states;

displaying inquiry information, wherein the inquiry information is used for inquiring whether to close the error-preventing reset function;

And responding to the confirmation indication for the inquiry information, and sending a closing indication to the intelligent device, wherein the closing indication is used for indicating the intelligent device to close the error-preventing reset function.

9. An apparatus for preventing false resets, characterized in that it is applied to an intelligent device in an intelligent home system, said apparatus comprising:

The instruction receiving module is used for receiving a reset instruction;

The switch state obtaining module is configured to obtain, when the reset instruction is a first reset instruction, a switch state of an anti-error reset function based on the first reset instruction, where the switch state of the anti-error reset function is in an on state in an abnormal state of the intelligent device, and the abnormal state includes: the intelligent device comprises hardware components in abnormal states and/or network connection in abnormal states;

and the execution module is used for not responding to the first reset instruction if the switch state of the error reset prevention function is the open state.

10. An apparatus for preventing false reset, which is applied to a mobile terminal in an intelligent home system, the apparatus comprising:

The information receiving module is used for receiving notification information sent by the intelligent device after the anti-misoperation function is set to be in an open state, the notification information is used for indicating that the anti-misoperation function is in the open state, the intelligent device is used for opening the anti-misoperation function in an abnormal state, and the first reset instruction is not responded under the condition that the anti-misoperation function is in the open state, and the abnormal state comprises: the intelligent device comprises hardware components in abnormal states and/or network connection in abnormal states;

The information display module is used for displaying inquiry information, and the inquiry information is used for inquiring whether the error-preventing reset function is closed or not;

And the instruction sending module is used for responding to the confirmation instruction aiming at the inquiry information and sending a closing instruction to the intelligent equipment, wherein the closing instruction is used for indicating the intelligent equipment to close the error-preventing reset function.