CN113552809A - State signal processing method, device, server and storage medium - Google Patents

Abstract

The embodiment of the application discloses a state signal processing method, a state signal processing device, a server and a storage medium. The method comprises the following steps: acquiring the state of the trigger equipment in real time; indicating that the abnormal state of the trigger equipment is not confirmed through a first signal within the duration that the state of the trigger equipment meets a preset state condition; monitoring a confirmation instruction of a user; when a confirmation instruction of the user is monitored or the state of the trigger equipment is changed, a signal different from the first signal is generated to indicate the state of the trigger equipment and whether the user confirms the state of the trigger equipment. The state of the trigger equipment and the confirmation condition of the user on the state of the equipment are output as signals by monitoring the state of the trigger equipment and the confirmation instruction of the user, so that the user can intuitively master the state of the trigger equipment and the change condition of the state conveniently.

Description

State signal processing method, device, server and storage medium

Technical Field

The present application relates to the field of smart home technologies, and in particular, to a method and an apparatus for processing a status signal, a server, and a storage medium.

Background

The intelligent home is a living environment of people, a home is taken as a platform, facilities related to home life are integrated by utilizing a comprehensive wiring technology, a network communication technology, an intelligent home-system design scheme safety precaution technology, an automatic control technology and an audio and video technology, an efficient management system of home facilities and family schedule practices is constructed, home safety, convenience, comfortableness and artistry are improved, and an environment-friendly and energy-saving living environment is realized.

Along with the development of smart homes, more and more smart home products have walked into the user's house, and when the state of smart home product changed, the user can not in time learn the change of its state to experience to the smart home has caused not good influence.

Disclosure of Invention

The embodiment of the application provides a state signal processing method, a state signal processing device, a server and a storage medium, so as to solve the problems.

In a first aspect, an embodiment of the present application provides a method for processing a status signal, where the method includes: acquiring the state of the trigger equipment in real time; indicating that the abnormal state of the trigger equipment is not confirmed through a first signal within the duration that the state of the trigger equipment meets a preset state condition; monitoring a confirmation instruction of a user; when a confirmation instruction of the user is monitored or the state of the trigger equipment is changed, a signal different from the first signal is generated and used for indicating the state of the trigger equipment and whether the user confirms the state of the trigger equipment or not.

In a second aspect, an embodiment of the present application provides a status signal processing system, where the system includes a trigger device, a server, and a terminal device; the server is used for acquiring the state of the trigger equipment in real time; the server is also used for indicating that the abnormal state of the trigger equipment is not confirmed through a first signal within the duration that the state of the trigger equipment meets the preset state condition; the server is also used for monitoring the confirmation instruction of the user; the server is also used for generating a signal different from the first signal when a confirmation instruction of the user or the state change of the trigger equipment is monitored, and the signal is used for indicating the state of the trigger equipment and whether the user confirms the state of the trigger equipment; the server is also used for sending the first signal to the terminal equipment; the terminal equipment is used for outputting the first signal to instruct a user to execute confirmation operation on the first signal; the terminal equipment is also used for generating a confirmation instruction according to the confirmation operation of the user and sending the confirmation instruction to the server.

In a third aspect, an embodiment of the present application provides a status signal processing apparatus, including: the acquisition module is used for acquiring the state of the trigger equipment in real time; the first generation module is used for indicating that the abnormal state of the trigger equipment is not confirmed through a first signal within the duration that the state of the trigger equipment meets the preset state condition; the monitoring module is used for monitoring the confirmation instruction of the user; and the second generation module is used for generating a signal which is different from the first signal and is used for indicating the state of the trigger equipment and whether the user confirms the state of the trigger equipment when a confirmation instruction of the user is monitored or the state of the trigger equipment is changed.

In a fourth aspect, embodiments of the present application provide a server including one or more processors, a memory, and a computer program stored on the memory and executable on the processors, where the computer program, when executed by the processors, implements the method applied to the server as described above.

In a fifth aspect, the present application provides a computer-readable storage medium, on which a computer program is stored, which, when executed by a processor, implements the method described above.

The method, the device, the server and the storage medium for processing the state signal, provided by the embodiment of the application, are used for acquiring the state of the trigger equipment in real time; indicating that the abnormal state of the trigger equipment is not confirmed through a first signal within the duration that the state of the trigger equipment meets a preset state condition; monitoring a confirmation instruction of a user; when a confirmation instruction of the user is monitored or the state of the trigger equipment is changed, a signal different from the first signal is generated to indicate the state of the trigger equipment and whether the user confirms the state of the trigger equipment. The state of the trigger equipment and the confirmation condition of the user on the state of the equipment are output as signals by monitoring the state of the trigger equipment and the confirmation instruction of the user, so that the user can intuitively master the state of the trigger equipment and the change condition of the state conveniently.

These and other aspects of the present application will be more readily apparent from the following description of the embodiments.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 shows an application environment diagram suitable for the status signal processing method provided by the embodiment of the present application.

Fig. 2 shows a flowchart of a status signal processing method according to an embodiment of the present application.

Fig. 3 is a flowchart illustrating a status signal processing method according to another embodiment of the present application.

Fig. 4 is a flowchart illustrating a status signal processing method according to another embodiment of the present application.

Fig. 5 shows a schematic diagram of the conversion of different signals provided by an embodiment of the present application.

Fig. 6 shows a flowchart of an interaction method of a status signal processing system according to an embodiment of the present application.

Fig. 7 shows a data interaction diagram of a status signal processing system according to an embodiment of the present application.

Fig. 8 shows a schematic diagram of a display of a trigger device in a terminal device according to an embodiment of the present application.

Fig. 9 is a functional block diagram of a status signal processing apparatus according to an embodiment of the present application.

Fig. 10 is a block diagram illustrating a server for executing a status signal processing method according to an embodiment of the present application.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

In general, in an intelligent home, there are various trigger devices, wherein the trigger devices can detect the environment where the trigger devices are located, and when an alarm condition is met, an alarm signal can be triggered. The user can acquire the state of the trigger device in real time through an intelligent terminal such as electronic equipment. For example, when a user leaves home, a human body detector is arranged to trigger an alarm signal when a human body is detected in a living room. When a person intrudes into the room, the corresponding alarm signal can be triggered, when the alarm signal is triggered, the user may not check the state of the human body detector, when the intruder leaves the living room, the alarm signal is not triggered, and if the user checks the state of the human body detector at the moment, the user can see a signal with a normal state. So that the user cannot know that someone has intruded illegally in the house.

The inventor finds in research that the generated alarm signal can be maintained, after the user confirms the alarm signal, different alarm signals are displayed according to the confirmation operation of the user and the state of the trigger device to prompt the user whether the alarm signal is confirmed or not, and the current state of the trigger device, so that the user can clearly know the state of the trigger device at each time, and the abnormal state of the trigger device is avoided being missed.

Therefore, the inventor provides a state signal processing method of the embodiment of the application, which is used for acquiring the state of the trigger equipment in real time; indicating that the abnormal state of the trigger equipment is not confirmed through a first signal within the duration that the state of the trigger equipment meets a preset state condition; monitoring a confirmation instruction of a user; when a confirmation instruction of the user is monitored or the state of the trigger equipment is changed, a signal different from the first signal is generated to indicate the state of the trigger equipment and whether the user confirms the state of the trigger equipment. The state of the trigger equipment and the confirmation condition of the user on the state of the equipment are output as signals by monitoring the state of the trigger equipment and the confirmation instruction of the user, so that the user can intuitively master the state of the trigger equipment and the change condition of the state conveniently.

The embodiments of the present application will be described in detail below with reference to the accompanying drawings.

Referring to fig. 1, fig. 1 illustrates an application environment 10 of a status signal processing method according to an embodiment of the present application. The application environment 10 includes: a local server/cloud server 11, a router 12, a gateway 13, a terminal device 14, and a trigger device 15. The triggering device 15 may be various smart home devices such as a human body detector, a temperature detector, and the like. The terminal device 14 may be a mobile phone, a tablet computer, a pc (personal computer) computer, a notebook computer, a smart television, a vehicle-mounted terminal, or the like. The terminal device 14 may be connected to the local server or the cloud server 11 through a network such as 2G, 3G, 4G, 5G, WIFI, or may be connected to the router 12 through WIFI, so as to communicate with the local server/the cloud server 11 through the router 12. The gateway 13 may be connected to the local server or the cloud server 11 through the router 12, and thus may be connected to the terminal device 14. The gateway 13 and the triggering device 15 may be connected via bluetooth, WiFi, ZigBee, etc. Of course, the connection mode between the devices and the network connection mode of the devices in the embodiment of the present application are not limited. In addition, in this embodiment, the terminal device 14 may be installed with a client for controlling the trigger device 15, and a user may control the trigger device through the client.

The local server/cloud server 11 may acquire the state of the trigger device through the router 12 and the gateway 13, determine whether the state of the trigger device satisfies a preset state condition, generate a first signal when the preset state condition is satisfied, send the first signal to the terminal device 14, and output the first signal by the terminal device 14, where the first signal may be output in a display manner, a sound generation manner, a light emission manner, and the like, and a specific output manner is not limited herein, and the following description will be given by taking the output manner as an example. After the terminal device 14 displays the first signal, so that the user can confirm the state of the trigger device on the terminal device 14 based on the displayed content, the terminal device 14 sends a user confirmation instruction to the local server/cloud server 11, so that the local server/cloud server 11 can generate a signal different from the first signal according to the confirmation instruction and the state of the trigger device to indicate the state of the trigger device and whether the user confirms the state of the trigger device. Therefore, the user can intuitively master the state of the trigger equipment and the state change condition.

Referring to fig. 2, an embodiment of the present application provides a status signal processing method, which may be applied to a server, and the method may include:

step S110: and acquiring the state of the trigger equipment in real time.

The state of the trigger device may change, and the server may then obtain the state of the trigger device in real time.

As an embodiment, the server may obtain the state of the trigger device at intervals of a preset time, and since the state of the trigger device needs to be obtained in real time, the preset time may be set to a smaller value, for example, the preset time may be set to an arbitrary value smaller than 30s, and the preset time may be 5s, 10s, and the like, where the setting of the preset time may be set according to actual needs, and is not limited herein. Specifically, the state of the server acquiring the trigger device may be a state of receiving a transmission from the trigger device.

As another embodiment, the trigger device may send its own state to the server when its own state changes. For example, the state of the trigger device is a first state, and after 5min, the state of the trigger device changes to a second state, and then, when the state of the trigger device changes from the first state to the second state, the second state is sent to the server. And when the server receives the second state sent by the trigger equipment, the state of the trigger equipment is acquired as the second state.

Thus, the server can acquire the state of the trigger device in real time to perform the following steps.

Step S120: and indicating that the abnormal state of the trigger equipment is not confirmed through a first signal within the duration that the state of the trigger equipment meets the preset state condition.

After the state of the trigger device is acquired, the state of the trigger device may be determined, whether the state of the trigger device satisfies a preset state condition is determined, if the preset state condition is satisfied, the state of the trigger device is determined to be an abnormal state, and if the state of the trigger device does not satisfy the preset state condition, the state of the trigger device is determined to be a normal state. And when the state of the trigger equipment meets a preset state condition, triggering a first signal.

Wherein the preset state condition may be preset. Since the trigger device may be a plurality of different intelligent devices, the preset state conditions corresponding to different trigger devices may be different. For example, the preset state condition of the smoke alarm is that the smoke concentration reaches a preset concentration value, and the preset state condition of the temperature alarm may be that the temperature reaches a preset temperature.

The preset state condition may be set by a user on the terminal device for different trigger devices, for example, the trigger device includes a trigger device 1 and a trigger device 2, and the user may set the preset state condition as a condition 1 for the trigger device 1 and set the preset state condition as a condition 2 for the trigger device 2. The terminal device can perform associated storage on the trigger device and the preset state condition, and send the trigger device and the preset state condition to the server.

The preset state condition may be set by the user on the terminal device, and then sent to the server for storage, and the server may store the identifier of the trigger device in association with the preset state condition. Specifically, when the server acquires the state of the trigger device, the server may correspondingly acquire the device identifier of the trigger device, so that the preset state condition corresponding to the trigger device may be found according to the device identifier.

When the server acquires the state of the trigger equipment and the preset state condition corresponding to the trigger equipment, whether the state of the trigger equipment meets the preset state condition corresponding to the trigger equipment or not can be judged, if yes, the state of the trigger equipment is abnormal, and a first signal can be generated to indicate that the abnormal state of the trigger equipment is not confirmed. The server can acquire the state of the trigger device in real time, and if the state of the trigger device meets a preset state condition within a duration, only one first signal can be generated, so that continuous triggering of the signal is avoided.

Specifically, if the state of the trigger device satisfies the preset state condition within the duration, the first signal may be generated when the state of the trigger device is obtained for the first time and satisfies the preset state condition, and if the state of the trigger device still continuously satisfies the preset state condition after satisfying the preset state condition, the first signal is not generated any more and the generated first signal is maintained.

For example, when the state of the trigger device acquired by the server for the first time is state 1 and a preset state condition is met, the first signal is generated, and when the state of the trigger device acquired by the server for the second time is still state 1, the first signal is not generated any more and the generated first signal is maintained. When the state of the trigger device acquired by the server is state 2, the preset state condition is not satisfied, and after that, if the acquired state of the trigger device is state 1, the first signal is generated again.

Step S130: and monitoring the confirmation instruction of the user.

When the acquired state of the trigger equipment meets a preset state condition, the abnormal state of the trigger equipment is indicated to be not confirmed through a first signal, the abnormal state of the trigger equipment is indicated to be abnormal, but the user does not confirm, and the state of the trigger equipment is still abnormal at present. The server can send the first signal to the terminal device for displaying, wherein when the server sends the first signal, the server can carry corresponding confirmation information in the signal, the user can execute a confirmation operation according to the first signal and the confirmation information displayed by the terminal device, and after the user confirms on the terminal device, the terminal device can feed back a confirmation instruction to the server to indicate that the user knows that the state of the trigger device is abnormal, so that the server can determine whether the user knows that the state of the trigger device is abnormal by monitoring the confirmation instruction of the user.

After the server sends the first signal to the terminal device, the terminal device outputs the first signal, and the manner of outputting the first signal may be to display the content of the first signal; the terminal device can be controlled to sound according to the first signal; the flashlight of the terminal equipment can be controlled to be turned on and emit light according to the first signal; any combination of display, sound production and luminescence can be realized. The present application is not limited in the examples, and the setting can be performed according to actual needs.

In some embodiments, the acknowledgement information may be carried in the first signal, and when the server issues the first signal to a terminal device, the terminal device may receive the first signal and the acknowledgement information carried in the first signal.

In some embodiments, the acknowledgement information may be sent to the terminal device independently of the first signal. When the server detects that the state of the trigger equipment meets the preset state condition, a first signal is generated and sent to the terminal equipment, and when the state of the trigger equipment continuously meets the preset state condition and reaches the preset duration, the confirmation information is sent to the terminal equipment, so that the situation that the user repeatedly executes confirmation operation due to the abnormal state of the trigger equipment caused by interference is avoided. Specifically, the timing and the form of the transmission of the acknowledgement information may be selected according to actual needs, and are not specifically limited herein.

Step S140: when a confirmation instruction of the user is monitored or the state of the trigger equipment is changed, a signal different from the first signal is generated and used for indicating the state of the trigger equipment and whether the user confirms the state of the trigger equipment or not.

After the server generates the first signal, the user is required to acknowledge the first signal because the first signal indicates that the abnormal state of the trigger device is not acknowledged.

In some embodiments, after the server generates the first signal, the server may continue to acquire the state of the trigger device and monitor the confirmation instruction of the user, and if the confirmation instruction of the user is monitored and the acquired state of the trigger device is not changed, it is indicated that the user has learned the abnormal state of the trigger device and the state of the trigger device still satisfies the preset state condition, that is, the trigger device is still in the abnormal state, the server may generate a second signal for indicating that the abnormal state of the trigger device is confirmed, that the state of the trigger device was once in the abnormal state and confirmed, and that the state of the trigger device is still in the abnormal state.

In some embodiments, after the server generates the first signal, the server may continue to acquire the state of the trigger device and monitor the confirmation instruction of the user, and if the confirmation instruction of the user is not monitored and the acquired state of the trigger device changes, it indicates that the user does not know the abnormal state of the trigger device and the state of the trigger device does not satisfy the preset state condition, that is, the state of the trigger device is restored from the abnormal state to the normal state, the server may generate a fourth signal for indicating that the normal state of the trigger device is not confirmed, that the abnormal state of the trigger device has occurred, but the user does not confirm and the state of the trigger device is now the normal state.

In some embodiments, after the server generates the first signal, it is acquired that the state of the trigger device changes, that is, the state of the trigger device does not satisfy the preset state condition, and a confirmation instruction of the user is monitored, which indicates that the user knows that the trigger device has an abnormal state, and the trigger device has now recovered to a normal state, the server may generate a third signal, which is used to indicate that the normal state of the trigger device has confirmed that the state of the trigger device has been in the abnormal state and that the user has confirmed that the state of the trigger device is in the normal state.

Therefore, the server monitors the confirmation instruction of the user or the state change of the trigger device, and generates a signal different from the first signal, namely a second signal, a third signal or a fourth signal, which is used for indicating the state of the trigger device and whether the user confirms the state of the trigger device. When the server generates the first signal, the second signal, the third signal and the fourth signal, the generated signals can be sent to the terminal device, and the generated confirmation information can be sent to the terminal device, so that a user can intuitively master the state of the trigger device and the change condition of the state according to different signals, and confirmation operation can be executed on the terminal device to realize confirmation of the signals.

In addition, the server can also generate an alarm action and send the alarm action to an alarm device to instruct the alarm device to alarm, or generate a restoration action and send the restoration action to the alarm device to instruct the alarm device to stop alarming. The alarm device may exist as a single device, or may be integrated with the trigger device, and specifically, the setting of the alarm device is not specifically limited herein.

The state signal processing method provided by the embodiment of the application acquires the state of the trigger equipment in real time; indicating that the abnormal state of the trigger equipment is not confirmed through a first signal within the duration that the state of the trigger equipment meets a preset state condition; monitoring a confirmation instruction of a user; when a confirmation instruction of the user is monitored or the state of the trigger equipment is changed, a signal different from the first signal is generated to indicate the state of the trigger equipment and whether the user confirms the state of the trigger equipment. The state of the trigger equipment and the confirmation condition of the user on the state of the equipment are output as signals by monitoring the state of the trigger equipment and the confirmation instruction of the user, so that the user can intuitively master the state of the trigger equipment and the change condition of the state conveniently.

Referring to fig. 3, another embodiment of the present application provides a method for processing a status signal, where a process of sequentially generating a second signal and a third signal after generating a first signal is described on the basis of the previous embodiment, and the method may include:

step S210: and acquiring the state of the trigger equipment in real time.

Step S220: and indicating that the abnormal state of the trigger equipment is not confirmed through a first signal within the duration that the state of the trigger equipment meets the preset state condition.

Step S230: and monitoring the confirmation instruction of the user.

The steps S210 to S230 refer to corresponding parts of the foregoing embodiments, and are not described herein again.

Step S240: and if a confirmation instruction of the user is monitored and the state of the trigger equipment is not changed, generating a second signal, wherein the second signal is used for indicating that the abnormal state of the trigger equipment is confirmed.

After the first signal is generated, the server may send confirmation information to the terminal device to instruct the user to perform a confirmation operation on the terminal device, and after the terminal device receives the confirmation operation of the user, the server may generate a confirmation instruction to send to the server, so that the server may monitor the confirmation instruction sent by the user through the terminal device, and if the server monitors the confirmation instruction of the user, it indicates that the user has learned the abnormal state of the trigger device. Meanwhile, the server can acquire the state of the trigger equipment at the moment and determine whether the state of the trigger equipment meets the preset state condition. And if the state of the trigger equipment meets the preset state condition, the state of the trigger equipment is not changed relative to the state of the corresponding trigger equipment when the first signal is generated.

When a confirmation instruction from the user is received and the state of the trigger device has not changed, that is, the state of the trigger device still satisfies the preset state condition, indicating that the state of the trigger device is still an abnormal state, but the user has learned the abnormal state, a second signal may be generated to indicate that the abnormal state of the trigger device has been confirmed, indicating that the abnormality of the trigger device has occurred, that the user has confirmed, and that the state of the trigger device is still abnormal now.

When the server generates the first signal, an alarm action can be generated to send an alarm device to alarm. In some embodiments, the alert of the alerting device may be maintained when the second signal is generated, due to a persistent anomaly in the state of the triggering device.

In other embodiments, when the second signal is generated, since the confirmation instruction of the user has been received, which indicates that the user has learned the abnormal state of the trigger device, a recovery action may also be generated and sent to the alarm device, which instructs the alarm device to stop alarming.

Step S250: and monitoring that the state of the trigger equipment is changed, and generating a third signal, wherein the third signal is used for indicating that the normal state of the trigger equipment is confirmed.

When the confirmation instruction of the user is monitored and the state of the trigger device is not changed, a second signal can be generated, and after the second signal is generated, the state of the trigger device can be continuously acquired. When the second signal is generated, the state of the trigger equipment meets the preset state condition, and a confirmation instruction of a user is monitored, which indicates that the trigger equipment is abnormal, the user confirms, and the state of the trigger equipment is still abnormal at present.

As an embodiment, after generating the second signal, since the confirmation instruction of the user has been monitored, the server may temporarily stop monitoring the confirmation instruction of the user until the confirmation instruction of the user is monitored again when the first signal is reproduced. The server may continuously obtain the state of the trigger device, since the state of the trigger device satisfies the preset state condition when the second signal is generated. If the state of the trigger device obtained at this time does not satisfy the preset state condition, it may be considered that the state of the trigger device changes. When the state of the trigger device does not meet the preset state condition, it indicates that the trigger device is restored to the normal state, so that a third signal can be generated to indicate that the normal state of the trigger device is confirmed, which indicates that the trigger device has been abnormal, the user has confirmed, and the state of the trigger device is now in the normal state.

If the state of the trigger device has not changed after the second signal is generated, the second signal may be maintained until a third signal is generated when the state of the trigger device changes. At the same time of generating the third signal, since the state of the trigger device has been restored to the normal state, the server may generate a restoration instruction to send to the alarm device to instruct the alarm device to stop alarming.

The state signal processing method provided by the embodiment of the application acquires the state of the trigger equipment in real time; indicating that the abnormal state of the trigger equipment is not confirmed through a first signal within the duration that the state of the trigger equipment meets a preset state condition; monitoring a confirmation instruction of a user; if a confirmation instruction of a user is monitored and the state of the trigger equipment is not changed, generating a second signal, wherein the second signal is used for indicating that the abnormal state of the trigger equipment is confirmed; after the second signal is generated, if the state of the trigger device is monitored to be changed, a third signal is generated, wherein the third signal is used for indicating that the normal state of the trigger device is confirmed. According to the confirmation instruction of the user and whether the state of the trigger equipment is changed, different signals are generated to indicate the state of the trigger equipment and whether the user confirms the state of the trigger equipment. Therefore, the user can acquire different states and confirmation conditions of the trigger device through different signals, and the user can conveniently and visually master the states of the trigger device and the state change conditions.

Referring to fig. 4, another embodiment of the present application provides a method for processing a status signal, where a process of sequentially generating a fourth signal and a third signal after generating a first signal is described on the basis of the previous embodiment, and the method may include:

step S310: and acquiring the state of the trigger equipment in real time.

Step S320: and indicating that the abnormal state of the trigger equipment is not confirmed through a first signal within the duration that the state of the trigger equipment meets the preset state condition.

Step S330: and monitoring the confirmation instruction of the user.

The steps S310 to S330 can refer to the corresponding parts of the foregoing embodiments, and are not described herein again.

Step S340: and if the confirmation instruction of the user is not monitored and the state of the trigger equipment is changed, generating a fourth signal, wherein the fourth signal is used for indicating that the normal state of the trigger equipment is not confirmed.

Wherein, after generating the first signal, the server may send confirmation information to the terminal device instructing the user to perform a confirmation operation on the terminal device. After receiving the confirmation operation of the user, the terminal device can generate a confirmation instruction and send the confirmation instruction to the server, so that the server can monitor the confirmation instruction sent by the user through the terminal device. If the server does not monitor the confirmation instruction of the user and the state of the trigger device obtained in real time changes, it indicates that the user does not know the abnormal state of the trigger device, and the current state of the trigger device does not meet the preset state condition, i.e., is in the normal state, the server may generate a fourth signal to indicate that the normal state of the trigger device is not confirmed.

When the first signal is generated, the state of the trigger device is an abnormal state, that is, the state of the trigger device meets a preset state condition, and if the state of the trigger device changes, the state of the trigger device acquired by the server does not meet the preset state condition, which indicates that the state of the trigger device has been restored to a normal state. When the state of the trigger device changes, if the confirmation instruction of the user is still not monitored, a fourth signal may be generated, where the fourth signal is used to indicate that the normal state of the trigger device is not confirmed, which indicates that the trigger device has been abnormal, the user has not confirmed, and the state of the trigger device is now restored to the normal state.

At the same time as the fourth signal is generated, since the state of the triggering device has been restored to a normal state, a restoring action may be generated to instruct the alerting device to stop alerting.

Step S350: and if a user confirmation instruction is monitored and the state of the trigger equipment is not changed, generating a third signal, wherein the third signal is used for indicating that the normal state of the trigger equipment is confirmed.

If there is no confirmation instruction of the monitored user after the first signal is generated and the acquired state of the trigger device changes, that is, the state of the trigger device does not satisfy the preset state condition, a fourth signal may be generated to indicate that the normal state of the trigger device is not confirmed. Since the fourth signal indicates that the normal state of the trigger device is not confirmed, it indicates that the user does not know the change of the state of the trigger device. Therefore, the server can continue to monitor the confirmation instruction of the user and acquire the state of the trigger equipment in real time.

In some embodiments, after the fourth signal is generated, if the server does not monitor the confirmation instruction of the user, and the state of the trigger device is not changed from the state of the trigger device corresponding to the time when the fourth signal is generated, that is, the state of the trigger device does not satisfy the preset state condition, indicating that the user still does not know the change of the state of the trigger device, the fourth signal may be maintained.

In some embodiments, after generating the fourth signal, if the server monitors a confirmation instruction of the user, and the state of the trigger device is not changed from the state of the trigger device corresponding to when the fourth signal is generated, that is, the state of the trigger device does not satisfy the preset state condition, indicating that the user has learned the change of the state of the trigger device, and the state of the trigger device has now recovered to the normal state, the server may generate a third signal to indicate that the normal state of the trigger device has been confirmed.

In some embodiments, after the fourth signal is generated, if the server does not monitor a confirmation instruction of the user, and the state of the trigger device changes with respect to the state of the trigger device corresponding to the generation of the fourth signal, that is, the state of the trigger device satisfies a preset state condition, indicating that the user does not know the state change of the trigger device, and the state of the trigger device is an abnormal state, a first signal may be generated to indicate that the abnormal state of the trigger device is not confirmed, and when the first signal is generated, confirmation information may be generated and sent to the terminal device, and an alarm action may be generated and sent to the alarm device for alarm.

The state signal processing method provided by the embodiment of the application acquires the state of the trigger equipment in real time; indicating that the abnormal state of the trigger equipment is not confirmed through a first signal within the duration that the state of the trigger equipment meets a preset state condition; monitoring a confirmation instruction of a user; if the confirmation instruction of the user is not monitored and the state of the trigger equipment is changed, generating a fourth signal, wherein the fourth signal is used for indicating that the normal state of the trigger equipment is not confirmed; after the fourth signal is generated, if a confirmation instruction of a user is monitored and the state of the trigger equipment is changed relative to the state of the trigger equipment when the fourth signal is generated, a third signal is generated, wherein the third signal is used for indicating that the normal state of the trigger equipment is confirmed. According to the confirmation instruction of the user and whether the state of the trigger equipment is changed, different signals are generated to indicate the state of the trigger equipment and whether the user confirms the state of the trigger equipment. Therefore, the user can acquire different states and confirmation conditions of the trigger device through different signals, and the user can conveniently and visually master the states of the trigger device and the state change conditions.

Through the description in the foregoing embodiments, after generating the first signal, the server may generate the second signal, the third signal, and the fourth signal according to the confirmation instruction of the user and the state change of the trigger device. Wherein the first signal indicates that the abnormal state of the trigger device is not confirmed, the second signal indicates that the abnormal state of the trigger device is confirmed, the third signal indicates that the normal state of the trigger device is confirmed, and the fourth signal indicates that the normal state of the trigger device is not confirmed.

Referring to fig. 5, a conversion relationship between four different signals is shown, where a first signal needs to be converted into a second signal to satisfy condition 1, that is, after the first signal is generated, a confirmation instruction of a user is monitored, and when a state of a trigger device is not changed from a state of the trigger device corresponding to the first signal, the second signal is generated.

The condition 2 that the first signal is converted into the fourth signal needs to be satisfied, that is, after the first signal is generated, when no confirmation instruction of the user is monitored and the state of the trigger device is changed from the state of the trigger device corresponding to the first signal, the fourth signal is generated.

The condition 3 needs to be satisfied when the first signal is converted into the third signal, that is, after the first signal is generated, a confirmation instruction of the user is monitored, and the state of the trigger device is changed relative to the state of the corresponding trigger device when the first signal is generated, so that the third signal is generated.

The conversion of the second signal into the third signal needs to satisfy condition 4, that is, the third signal is generated when the state of the trigger device changes after the second signal is generated relative to the state of the trigger device corresponding to the second signal.

The condition 5 is required to be satisfied when the fourth signal is converted into the third signal, that is, after the fourth signal is generated, the confirmation instruction is monitored, and the state of the trigger device is not changed relative to the state of the corresponding trigger device when the fourth signal is generated, so that the third signal is generated. Different signals generated by the server are sent to the terminal equipment, so that a user can acquire different states and confirmation conditions of the trigger equipment through the different signals, and the user can conveniently and visually master the states of the trigger equipment and the state change conditions.

Referring to fig. 6, another embodiment of the present application provides an interaction method in a status signal processing system, which focuses on describing data interaction between devices in the status signal processing system based on the previous embodiment. The system can comprise a server, a trigger device and a terminal device which are connected with each other and can transmit data with each other. Also, referring to fig. 7, an interaction process between the server, the trigger device, and the terminal device is shown. The method can comprise the following steps:

step S410: and the server acquires the state of the trigger equipment in real time.

Step S420: and the server indicates that the abnormal state of the trigger equipment is not confirmed through a first signal within the duration that the state of the trigger equipment meets the preset state condition.

Step S430: the server monitors the confirmation instruction of the user.

Step S440: the server monitors the confirmation instruction of the user or the state change of the trigger equipment, and generates a signal different from the first signal, wherein the signal is used for indicating the state of the trigger equipment and whether the user confirms the state of the trigger equipment.

Step S450: the server is also used for sending the first signal to the terminal equipment.

Step S460: the terminal equipment outputs the first signal to instruct a user to execute confirmation operation on the first signal.

Step S470: and the terminal equipment generates a confirmation instruction according to the confirmation operation of the user and sends the confirmation instruction to the server.

Steps S410 to S470 refer to corresponding parts of the foregoing embodiments, and are not described herein again. It should be noted that the signal generated by the server and different from the first signal may be a second signal, a third signal, and a fourth signal. The server can send the generated signal to the terminal device for output, and the content indicated by the first signal, the second signal, the third signal and the fourth signal is different, so that the signal can be output in different forms on the terminal, and a user can conveniently execute confirmation operation on the terminal, or know the state of the trigger device and determine whether to confirm the state of the trigger device.

The interaction process will be described below with a specific example.

Wherein, the trigger device can be a temperature detector, and the preset state condition is that the temperature is more than 30 ℃. Then, when the state of the trigger device is acquired as 33 degrees by the server, a first signal is generated and sent to the terminal device to indicate that the abnormal state of the trigger device is not confirmed, and when the state of the trigger device is acquired as 32 degrees by the server, confirmation information can be generated and sent to the terminal device, the first signal is maintained, and an alarm action is generated and sent to the alarm device for alarming.

In some embodiments, if the user performs a confirmation operation on the terminal device according to the confirmation information, the terminal device may generate a confirmation instruction to send to the server, the server may monitor the confirmation instruction of the user, and at this time, the server acquires that the state of the trigger device is 32 degrees, that is, the state of the trigger device is not changed and is still in an abnormal state, a second signal may be generated to send to the terminal device to indicate that the abnormal state of the trigger device is confirmed. After the second signal is generated, if the state of the trigger device acquired by the server is 29 degrees, the state of the trigger device does not meet the preset state condition, and a third signal can be generated and sent to the terminal device to indicate that the normal state of the trigger device is confirmed when the state of the corresponding trigger device is changed relative to the state of the trigger device when the second signal is generated, and meanwhile, the server can also generate a reduction action and send the reduction action to the alarm device to indicate the alarm device to stop alarming.

In some embodiments, after the first signal is generated and sent to the terminal device, if the confirmation instruction of the user is not monitored and the state of the trigger device acquired by the server is 29 degrees, the preset state condition is not met, that is, the state of the trigger device corresponding to the time when the first signal is generated changes, a fourth signal may be generated and sent to the terminal device, and the fourth signal indicates that the normal state of the trigger device is not confirmed. At this time, the server can also generate a recovery action to be sent to the alarm device, and instruct the alarm device to stop alarming.

After the fourth signal is generated, two different situations may be addressed. One situation is that after the fourth signal is generated, no confirmation instruction of the user is monitored, and the acquired state of the trigger device is 31 degrees, that is, the preset state condition is met, the server needs to generate the first signal and the confirmation information again and send the generated first signal and the confirmation information to the terminal device, generate an alarm action and send the alarm action to the alarm device to instruct the alarm device to alarm.

At this time, when the user performs the confirmation operation on the terminal device, the first confirmation information and the second confirmation information need to be confirmed, specifically, the first confirmation information and the second confirmation information may be displayed first on the terminal device, and then the second confirmation information may be displayed, or the confirmation information may be displayed twice at the same time, and may be set according to actual needs, which is not limited herein.

Alternatively, after the fourth signal is generated, it may also be that a confirmation instruction of the user is received, and the acquired state of the trigger device is 28 degrees, that is, the preset state condition is not satisfied, and the state of the corresponding trigger device is not changed with respect to the state of the trigger device when the fourth signal is generated, the third signal may be generated to indicate that the normal state of the trigger device is confirmed.

The contents indicated by the first signal, the second signal, the third signal and the fourth signal are different, and the representation forms of the contents on the terminal equipment are also different. Referring to fig. 8, a schematic display diagram of various trigger devices on the mobile terminal is shown. In fig. 8, taking the trigger device 1 as an example, when the terminal device displays the first signal, the area 21 represented by the trigger device 1 may turn red and flash, indicating that the abnormal state of the trigger device 1 is not confirmed; the name of the trigger device 1 may be changed to red while the second signal is displayed to indicate that the abnormal state of the trigger device is confirmed; while displaying the third signal, the display of the trigger device 1 may coincide with the display of the other trigger devices to indicate that the normal state of the trigger device is confirmed; the area 21 represented by the trigger device 1 may turn red when the fourth signal is displayed to indicate that the normal state of the trigger device 1 is not confirmed.

The representation forms of the first signal, the second signal, the third signal and the fourth signal on the terminal device are set to be distinguishable states, and the specific representation forms are not specifically limited herein.

According to the state signal processing method provided by the embodiment of the application, the server acquires the state of the trigger equipment in real time; indicating that the abnormal state of the trigger equipment is not confirmed through a first signal within the duration that the state of the trigger equipment meets a preset state condition; monitoring a confirmation instruction of a user; if a confirmation instruction of a user or the state of the trigger equipment is monitored to be changed, generating a signal different from the first signal; and sending the generated first signal to the trigger device, displaying the first signal by the trigger device to instruct a user to execute a confirmation operation, and generating a confirmation instruction by the terminal device according to the confirmation operation of the user and feeding the confirmation instruction back to the server. Therefore, the user can acquire different states and confirmation conditions of the trigger device through different signals, and the user can conveniently and visually master the states of the trigger device and the state change conditions.

The triggering device, the server and the terminal device in the signal processing system execute corresponding steps according to the method to realize signal processing, so that a user can acquire different states and confirmation conditions of the triggering device through different signals, and the user can conveniently and visually master the states of the triggering device and the state change conditions.

Referring to fig. 9, which illustrates a status signal processing apparatus 500 provided by an embodiment of the present application and applicable to a server, the status signal processing apparatus 500 includes an obtaining module 510, a first generating module 520, a monitoring module 530, and a second generating module 540. The obtaining module 510 is configured to obtain a state of the trigger device in real time; the first generating module 520 is configured to indicate, by a first signal, that the abnormal state of the trigger device is not confirmed within a duration that the state of the trigger device satisfies a preset state condition; the monitoring module 530 is configured to monitor a confirmation instruction of a user; the second generating module 540 is configured to generate a signal different from the first signal when a confirmation instruction of the user is monitored or the state of the trigger device is changed, where the signal is used to indicate the state of the trigger device and whether the user confirms the state of the trigger device.

When a confirmation instruction of the user or the state of the trigger device is monitored to be changed, a signal different from the first signal is generated to represent the state of the trigger device and whether the user confirms the state of the trigger device, so that the user can acquire different states and confirmation conditions of the trigger device according to the first signal and the signal different from the first signal, and the user can conveniently and intuitively master the state of the trigger device and the state change condition.

Further, the second generating module 540 is further configured to generate a second signal if a confirmation instruction of the user is monitored and the state of the trigger device is not changed, where the second signal is used to indicate that the abnormal state of the trigger device is confirmed.

After the first signal is generated, if a confirmation instruction of the user is monitored and the state of the trigger equipment is changed, a second signal is generated, so that the user can know that the trigger equipment is in an abnormal state and confirmed according to the second signal.

Further, after generating the second signal, the second generating module 540 is further configured to generate a third signal if it is monitored that the state of the trigger device changes, where the third signal is used to indicate that the normal state of the trigger device is confirmed.

After the second signal is generated, if the state of the trigger device is monitored to be changed, a third signal is generated, so that a user can know that the trigger device is in a normal state and confirmed according to the third signal.

Further, the second generating module 540 is further configured to generate a fourth signal if the confirmation instruction of the user is not monitored and the state of the trigger device changes, where the fourth signal is used to indicate that the normal state of the trigger device is not confirmed.

After the first signal is generated, if the confirmation instruction of the user is not monitored and the state of the trigger equipment is changed, a fourth signal is generated, so that the user can know that the trigger equipment is in a normal state according to the fourth signal, but the trigger equipment is abnormal and not confirmed.

Further, after generating the fourth signal, the second generating module 540 is further configured to generate a third signal if a user confirmation instruction is monitored and the state of the trigger device is not changed, where the third signal is used to indicate that the normal state of the trigger device is confirmed.

After the fourth signal is generated, if a confirmation instruction of the user is monitored and the state of the trigger device is not changed, a third signal is generated, so that the user can know that the trigger device is in a normal state and confirmed according to the third signal.

Further, the status signal processing apparatus 500 further includes an alarm module, where the alarm module is configured to generate an alarm action, and the alarm action is used to instruct an alarm device to alarm.

Further, after the alarm action is generated, the alarm module is further configured to generate a restoration action when the state of the trigger device does not satisfy the preset state condition, where the restoration action is used to instruct the alarm device to stop alarming.

The server can also generate an alarm action to instruct the alarm device to alarm, and after the alarm action is generated, when the state of the trigger device does not meet the preset state condition, a recovery action is generated to instruct the alarm device to stop alarming so as to realize more complete alarming.

The state signal processing apparatus 500 provided in this embodiment of the application can implement each process of the method for implementing the state signal processing method by the server in the method embodiments of fig. 2 to fig. 5, and is not described here again to avoid repetition.

The present application provides a server, which includes a processor and a memory, where the memory stores at least one instruction, at least one program, a code set, or a set of instructions, and the at least one instruction, the at least one program, the code set, or the set of instructions is loaded and executed by the processor to implement the status signal processing method provided in the above method embodiment.

The memory may be used to store software programs and modules, and the processor may execute various functional applications and information feedback by operating the software programs and modules stored in the memory. The memory can mainly comprise a program storage area and a data storage area, wherein the program storage area can store an operating system, application programs needed by functions and the like; the storage data area may store data created according to use of the apparatus, and the like. Further, the memory may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other volatile solid state storage device. Accordingly, the memory may also include a memory controller to provide the processor access to the memory.

Fig. 10 is a block diagram of a hardware structure of a server according to a method for processing a status signal provided in an embodiment of the present application. As shown in fig. 10, the server 600 may have a relatively large difference due to different configurations or performances, and may include one or more processors (CPUs) 610 (the processors 610 may include but are not limited to Processing devices such as a microprocessor MCU or a programmable logic device FPGA), a memory 630 for storing data, and one or more storage media 620 (e.g., one or more mass storage devices) for storing applications 623 or data 622. Memory 630 and storage medium 620 may be, among other things, transient or persistent storage. The program stored in the storage medium 620 may include one or more modules, each of which may include a series of instruction operations for the electronic device. Further, the processor 610 may be configured to communicate with the storage medium 620 to execute a series of instruction operations in the storage medium 620 on the server 600. The server 600 may also include one or more power supplies 660, one or more wired or wireless network interfaces 650, one or more input-output interfaces 640, and/or one or more operating systems 621, such as Windows Server, MacOSXTM, UnixTM, LinuxTM, FreeBSDTM, and so forth.

The input/output interface 640 may be used to receive or transmit data via a network. Specific examples of the network described above may include a wireless network provided by a communication provider of the server 600. In one example, i/o Interface 640 includes a Network adapter (NIC) that may be coupled to other Network devices via a base station to communicate with the internet. In one example, the input/output interface 640 may be a Radio Frequency (RF) module, which is used for communicating with the internet in a wireless manner.

It will be understood by those skilled in the art that the structure shown in fig. 10 is only an illustration, and is not intended to limit the structure of the server. For example, server 600 may also include more or fewer components than shown in FIG. 10, or have a different configuration than shown in FIG. 10.

The embodiment of the present application further provides a computer-readable storage medium, where a computer program is stored on the computer-readable storage medium, and when the computer program is executed by a processor, the computer program implements each process of the foregoing state signal processing method embodiment, and can achieve the same technical effect, and in order to avoid repetition, details are not repeated here. The computer-readable storage medium may be a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (11)

1. A method of processing a status signal, the method comprising:

acquiring the state of the trigger equipment in real time;

indicating that the abnormal state of the trigger equipment is not confirmed through a first signal within the duration that the state of the trigger equipment meets a preset state condition;

monitoring a confirmation instruction of a user;

when a confirmation instruction of the user is monitored or the state of the trigger equipment is changed, a signal different from the first signal is generated and used for indicating the state of the trigger equipment and whether the user confirms the state of the trigger equipment or not.

2. The method of claim 1, wherein generating a signal different from the first signal when a confirmation instruction of a user or a change in a state of the trigger device is monitored comprises:

and if a confirmation instruction of the user is monitored and the state of the trigger equipment is not changed, generating a second signal, wherein the second signal is used for indicating that the abnormal state of the trigger equipment is confirmed.

3. The method of claim 2, wherein after generating the second signal, further comprising:

and if the state of the trigger equipment is monitored to be changed, generating a third signal, wherein the third signal is used for indicating that the normal state of the trigger equipment is confirmed.

4. The method according to any one of claims 1-3, wherein generating a signal different from the first signal when a confirmation instruction from a user or a change in the state of the trigger device is detected comprises:

and if the confirmation instruction of the user is not monitored and the state of the trigger equipment is changed, generating a fourth signal, wherein the fourth signal is used for indicating that the normal state of the trigger equipment is not confirmed.

5. The method of claim 4, further comprising, after generating the fourth signal:

and if a user confirmation instruction is monitored and the state of the trigger equipment is not changed, generating a third signal, wherein the third signal is used for indicating that the normal state of the trigger equipment is confirmed.

6. The method according to any of claims 1-3, further comprising:

and generating an alarm action, wherein the alarm action is used for indicating an alarm device to alarm.

7. The method of claim 6, after generating the alert action, further comprising:

and when the state of the trigger equipment does not meet the preset state condition, generating a restoration action, wherein the restoration action is used for indicating the alarm equipment to stop alarming.

8. A state signal processing system is characterized by comprising a trigger device, a server and a terminal device;

the server is used for acquiring the state of the trigger equipment in real time;

the server is further used for indicating that the abnormal state of the trigger equipment is not confirmed through a first signal within the duration that the state of the trigger equipment meets the preset state condition;

the server is also used for monitoring the confirmation instruction of the user;

the server is also used for generating a signal different from the first signal when a confirmation instruction of the user or the state change of the trigger equipment is monitored, wherein the signal is used for representing the state of the trigger equipment and whether the user confirms the state of the trigger equipment;

the server is also used for sending the first signal to the terminal equipment;

the terminal equipment is used for outputting the first signal to instruct a user to perform confirmation operation on the first signal;

and the terminal equipment is also used for generating a confirmation instruction according to the confirmation operation of the user and sending the confirmation instruction to the server.

9. A status signal processing apparatus, characterized in that the apparatus comprises:

the acquisition module is used for acquiring the state of the trigger equipment in real time;

the first generation module is used for indicating that the abnormal state of the trigger equipment is not confirmed through a first signal within the duration that the state of the trigger equipment meets the preset state condition;

the monitoring module is used for monitoring the confirmation instruction of the user;

and the second generation module is used for generating a signal which is different from the first signal and is used for indicating the state of the trigger equipment and whether the user confirms the state of the trigger equipment when a confirmation instruction of the user is monitored or the state of the trigger equipment is changed.

10. A server, characterized in that the server comprises:

one or more processors;

a memory electrically connected with the one or more processors;

one or more applications, wherein the one or more applications are stored in the memory and configured to be executed by the one or more processors, the one or more applications configured to perform the method of any of claims 1-7.

11. A computer-readable storage medium, having stored thereon program code that can be invoked by a processor to perform the method according to any one of claims 1 to 7.

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