CN109918273B - Data display method and device, terminal equipment and storage medium - Google Patents

Abstract

The application discloses a data display method, a data display device, a terminal device and a storage medium, wherein the method comprises the following steps: acquiring historical data of a plurality of household devices, wherein the historical data comprises a plurality of timestamps and a plurality of state data of the household devices, the timestamps correspond to the state data one by one, and the timestamp is a time node when the state data changes; generating a state curve of each household device in the plurality of household devices according to the historical data of the plurality of household devices, wherein the state curve is used for representing the state change track of the household devices; and displaying the state curves of the plurality of household equipment on the same interface based on the same time axis. According to the method, historical state display of the intelligent home devices can be achieved on the same interface, so that a user can visually know states of various intelligent home devices and conveniently and quickly analyze the home environment conditions, and user experience of the intelligent home is improved.

Description

Data display method and device, terminal equipment and storage medium

Technical Field

The application relates to the technical field of smart home, in particular to a data display method and device, terminal equipment and a storage medium.

Background

The intelligent home is characterized in that a house is used as a platform, various intelligent home devices (such as audio and video devices, lighting, curtains, air conditioners, refrigerators and the like) are connected together by utilizing an integrated wiring technology, a network communication technology, a safety precaution technology, an automatic control technology and an audio and video technology, so that multiple functions and means such as home appliance control, lighting control, curtain control, environment monitoring, heating and ventilation control, infrared forwarding, programmable timing control and the like are provided, home safety, convenience, comfortableness and artistry are improved, and environment-friendly and energy-saving living bad conditions are realized.

However, with the development of smart homes, various smart home devices in a user's home are more and more, and how to better show the states of the various smart home devices to the user becomes a new challenge.

Disclosure of Invention

In view of the above problems, the present application provides a data display method, apparatus, terminal device and storage medium, so that a user can intuitively know states of various smart home devices, and user experience of smart home is improved.

In a first aspect, an embodiment of the present application provides a data display method, which is applied to a terminal device, and includes: acquiring historical data of a plurality of household devices, wherein the historical data comprises a plurality of timestamps of the household devices and a plurality of state data, the plurality of timestamps correspond to the plurality of state data one by one, and the timestamp is a time node when the state data changes; generating a state curve of each household device in the plurality of household devices according to historical data of the plurality of household devices, wherein the state curve is used for representing a state change track of the household devices; and displaying the state curves of the plurality of household equipment on the same interface based on the same time axis.

In a second aspect, an embodiment of the present application provides a data display apparatus, which is applied to a terminal device, and includes: the system comprises an acquisition module, a processing module and a display module, wherein the acquisition module is used for acquiring historical data of a plurality of household devices, the historical data comprises a plurality of timestamps of the household devices and a plurality of state data, the plurality of timestamps correspond to the plurality of state data one to one, and the timestamp is a time node when the state data changes; the processing module is used for generating a state curve of each household device in the household devices according to historical data of the household devices, wherein the state curve is used for representing a state change track of the household devices; the display module is used for displaying the state curves of the plurality of household equipment on the same interface based on the same time axis.

In a third aspect, an embodiment of the present application provides a terminal device, which includes a memory and a processor, where the memory is coupled to the processor, and the memory stores instructions, and when the instructions are executed by the processor, the processor executes the data display method provided in the first aspect.

In a fourth aspect, an embodiment of the present application provides a computer-readable storage medium having a program code that can be invoked for execution by a processor, where the program code causes the processor to execute the data display method provided in the first aspect.

Compared with the prior art, according to the data display method, the data display device, the terminal device and the storage medium, the state curve of each household device in the household devices is generated by acquiring historical data of the household devices, wherein the historical data comprises a plurality of timestamps of the household devices and a plurality of state data, the timestamps correspond to the state data one by one, the timestamps are time nodes of the state data changing, and the state curves of the household devices are displayed on the same interface based on the same time axis, so that the historical states of the intelligent household devices are displayed on the same interface, a user can not only visually know the states of the intelligent household devices, but also conveniently and quickly analyze the state of the household environment according to the state curves of the household devices, and the experience of the user when the intelligent household devices are used is improved.

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 a schematic diagram of an application environment suitable for the embodiment of the present application.

FIG. 2 shows a flow diagram of a method of displaying data according to one embodiment of the present application.

Fig. 3 shows a display effect diagram according to an embodiment of the application.

Fig. 4 shows another display effect diagram according to an embodiment of the application.

FIG. 5 shows a flow diagram of a method of displaying data according to another embodiment of the present application.

Fig. 6 shows a display effect diagram according to an embodiment of the application.

Fig. 7 shows a flowchart of step S210 in the data display method according to the embodiment of the present application.

Fig. 8 shows another display effect diagram according to an embodiment of the application.

Fig. 9 shows a flowchart of step S230 in the data display method according to the embodiment of the present application.

Fig. 10 shows a flowchart of step S231 in the data display method of the embodiment of the present application.

FIG. 11 shows a block diagram of a data display device according to one embodiment of the present application.

Fig. 12 shows a block diagram of a display module in a data display device according to an embodiment of the present application.

Fig. 13 is a block diagram illustrating a marking unit in a display module in a data display apparatus according to an embodiment of the present application.

Fig. 14 is a block diagram of a terminal device for executing a data display method according to an embodiment of the present application.

Fig. 15 is a storage unit for storing or carrying program codes for implementing a data display 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.

With the rapid development of the smart home industry, more and more smart devices (such as smart air conditioners, smart doors and windows, smart curtains, smart lighting, temperature and humidity sensors, temperature and humidity adjusting devices, and the like) enter a user's home to provide various functions and means such as home appliance control, door and window control, curtain control, lighting control, environment monitoring, heating and ventilation control, infrared forwarding, programmable timing control, and the like.

However, as the number and the types of smart devices increase, the smart display of the state tracks of the smart home devices becomes a difficult problem. For a user, the existing device state display technology can only check the historical state curve of a single intelligent device, and cannot compare the historical states of a plurality of intelligent devices, for example, the existing technology can only check the on-off state of a door and a window and the on-off state of an air conditioner at a certain time point respectively, and cannot check whether the door and the window are in the off state or not when the air conditioner is in the on state, so that the comparison of the current states of the plurality of intelligent devices cannot be checked. Therefore, how to better present the state trajectory of the smart device to the user becomes a need.

In view of the above problems, the inventor has studied for a long time and proposed a data display method, an apparatus, a terminal device, and a computer-readable storage medium provided in the embodiments of the present application, and by generating historical state tracks of a plurality of home devices based on the same time axis and then displaying the historical state tracks on the same page, state comparison and checking of a plurality of smart devices is achieved, so that a user can visually know states of various smart home devices and also can compare states of a plurality of smart devices, and user experience of smart home is improved.

The following first describes an application environment provided in the embodiments of the present application.

Referring to fig. 1, an embodiment of the present application provides an intelligent home furnishing interaction system 10, where the intelligent home furnishing interaction system 10 includes a gateway device 100, a home furnishing device 200 connected in the gateway device 100, a server 300 connected with the gateway device 100, and a terminal device 400 connected with the server 300.

The number of the gateway devices 100 may be at least one, and the number of the home devices 200 may be at least one. When the number of gateway apparatuses 100 is plural, communication connection between different gateway apparatuses 100 is also possible.

In the embodiment of the present application, the gateway device 100 is an intelligent gateway controlled by an intelligent home, and can implement functions such as system information acquisition, information input, information output, centralized control, remote control, and linkage control. The gateway equipment can be responsible for specific security alarm, household appliance control and power utilization information acquisition. The gateway equipment can also perform information interaction with products such as an intelligent interaction terminal and the like in a wireless mode. The gateway equipment also has the wireless routing function, excellent wireless performance, network safety and coverage area.

In this embodiment, the household device 200 may include various intelligent household devices, sensing devices, detection devices, and the like, which are disposed in an indoor space, for example, an intelligent television, an intelligent refrigerator, an intelligent air conditioner, a temperature and humidity sensor, a human body sensor, a door and window sensor, an intelligent switch, and the like. The home devices 200 connected to the gateway device 100 may interact with the gateway device 100 for information and instructions. The gateway device 100 and the home device 200 may be connected through communication manners such as bluetooth, wiFi (Wireless-Fidelity, wireless Fidelity), zigBee (purple peak technology), and the like, and certainly, the connection manner of the gateway device 100 and the home device 200 may not be limited in this embodiment of the application.

In the embodiment of the present application, the server 300 may be a network server, a database server, or the like, and a specific server type may not be limited in the embodiment of the present application. The server 300 connected to the gateway apparatus 100 may wirelessly interact with the gateway apparatus 100. The gateway devices 100 disposed in different indoor spaces may be communicatively connected to the same server 300 through a network to perform information interaction between the server 300 and the gateway device 100.

In the embodiment of the present application, the terminal device 400 may be a Personal Computer (PC), a tablet PC, a smart phone, a Personal Digital Assistant (PDA), or the like. The terminal device 400 connected to the server 300 may interact with the server 300 in a wireless manner such as 2G/3G/4G/5G/WiFi. Of course, the connection mode between the terminal device 400 and the server 300 may not be limited in the embodiment of the present application.

In addition, a user may set different trigger scenarios or automation through the APP of the terminal device 400, the terminal device 400 may upload scenario configuration information or an automation scheme to the server 300, or may send the scenario configuration information or the automation scheme to the gateway device 100 through the server 300, so that when an execution condition of the trigger scenario or the automation is reached, the gateway device 100 may find the home device 200 corresponding to an execution action in the scenario configuration information or the automation scheme according to the stored scenario configuration information or the automation scheme, and notify the home device 200 of the execution action to meet an execution result of the trigger scenario or the automation. Meanwhile, the gateway device 100 feeds back the execution status of the home device 200 to the server 300.

For example, the user opens the automatic light for the door and window through the automatic scene set by the APP of the terminal device 400, and the terminal device 400 sends the scene configuration information to the gateway device 100 through the above manner. When the door and window sensor senses that the door and window is opened, the time and the state data are reported to the gateway, and after the gateway receives the state data and the time of the door and window being opened, the corresponding household equipment for executing the action is found to be the intelligent switch connected with the lamp according to the stored scene configuration information, and the intelligent switch is informed to be opened so as to realize the light turning-on. When the lamp is turned on, a successful lamp turning-on message is fed back to the gateway device 100, after the gateway device 100 knows that the lamp is successfully turned on, the current time, the corresponding scene ID, and the successful or failed message are reported to the server 300, and the server 300 is responsible for storing the current time, the corresponding scene ID, and the successful or failed message.

According to the intelligent home furnishing interaction system, the data display method is applied to the terminal device in the intelligent home furnishing interaction system. Terminal equipment acquires a plurality of home equipment's historical data from the server, wherein, historical data include home equipment's a plurality of timestamps and with a plurality of state data, a plurality of timestamps and a plurality of state data one-to-one, the timestamp is the time node that state data changes, then terminal equipment is according to the precedence order of timestamp, generate every home equipment's in a plurality of home equipment state curve, at last based on same time axis, show a plurality of home equipment's state curve in same interface, so that the user can learn various intelligent home equipment's state and convenient and fast ground analysis family environment situation directly perceivedly. Embodiments in the present application will be described in detail below with reference to the accompanying drawings.

Referring to fig. 2, an embodiment of the present application provides a data display method, which is applicable to a terminal device, and the data display method may include:

step S110: the method comprises the steps of obtaining historical data of a plurality of household devices, wherein the historical data comprise a plurality of timestamps of the household devices and a plurality of state data, the timestamps correspond to the state data one by one, and the timestamps are time nodes of the state data.

In the embodiment of the application, each time the state data of the home equipment is changed, the home equipment uploads a piece of data to the server, the data comprises the changed state data and a timestamp when the state data is changed, and the timestamp is a time node when the state data is changed. For example, the temperature of the temperature and humidity sensor changes four times: the temperature of the temperature and humidity sensor at the 6 point is 18 ℃, the temperature of the temperature and humidity sensor at the 6 point is changed into 19 ℃ in 30 minutes, the temperature of the temperature and humidity sensor at the 7 point is changed into 20 ℃, and the temperature and humidity sensor at the 8 point is changed into 23 ℃, so that the temperature and humidity sensor can upload four data to the server, each data comprises a timestamp of the temperature and humidity sensor when the temperature and the temperature of the temperature and humidity sensor are changed for the time, if one data is the timestamp of the temperature and humidity sensor at the 6 point, the temperature and humidity sensor at the 18 ℃ is adopted. As an implementation manner, the data is uploaded to the server by the home device, where the home device transmits the data to the intelligent gateway through a zigbee protocol, and then the intelligent gateway uploads the data to the server through the connected router network.

After receiving the multiple pieces of data uploaded by different household equipment, the server can classify the data according to the ID of each piece of equipment and store the data in the database, so that when the historical data of certain household equipment needs to be acquired, the data can be rapidly screened from the database.

In the embodiment of the application, since the server stores the data of each household device when the state of each household device changes, when the terminal device needs to display the historical state tracks of the plurality of household devices, a historical data query request may be sent to the server, so as to obtain the historical data of the plurality of household devices from the network access to the current time, or obtain the historical data of the plurality of household devices in the recent period from the server. The historical data comprises a plurality of timestamps of the household equipment and a plurality of state data, wherein the plurality of timestamps correspond to the plurality of state data one by one, and the timestamp is a time node of the state data.

It can be understood that when the terminal device sends the historical data query request to the server, the terminal device may send the IDs of the plurality of home devices to the server as parameters, so that the server may quickly screen out the historical data of the home devices from the database according to the IDs of the home devices, and then the server returns the screened historical data of the plurality of home devices to the terminal device through a network protocol.

In this embodiment, the state data may be an on-off state, a state value, a voltage value, a current value, and the like of the home equipment, for example, the terminal equipment may obtain a historical on-off state of the smart air conditioner from the server, and may also obtain a historical temperature value of the temperature and humidity sensor from the server. The above status data are only examples, and do not represent a limitation on the status data in the embodiments of the present application.

Further, the historical data of the plurality of home devices acquired by the terminal device may be state data of the plurality of home devices after each change and a timestamp when the state data changes. Therefore, when the terminal device acquires the state data corresponding to the previous timestamp and the state data corresponding to the adjacent next timestamp of the home device, the terminal device can also acquire the state data corresponding to the time between the two adjacent timestamps of the home device.

As one mode, the status data corresponding to the time between two adjacent timestamps of the home device may be the status data corresponding to the previous timestamp. For example, referring to fig. 3, if the previous timestamp of the terminal device acquiring the intelligent air conditioner is 11 points, the corresponding status data is in an on state, the next timestamp of the terminal device acquiring the intelligent air conditioner is 16 points and 40 minutes, and the corresponding status data is in an off state, the terminal device may obtain that the status data of the intelligent air conditioner is in an on state in the time between 11 points and 16 points and 40 minutes.

As one mode, the state data corresponding to the time between two adjacent timestamps of the home device may be an intermediate value of the two state data. For example, if the previous timestamp of the temperature and humidity sensor acquired by the terminal device is 8 points, the corresponding temperature is 19 ℃, the next timestamp of the temperature and humidity sensor is 9 points, and the corresponding temperature is 20 ℃, the temperature of the temperature and humidity sensor can be obtained by the terminal device, and the temperature of the temperature and humidity sensor is 19.5 ℃ in the time between 8 points and 9 points.

In the embodiment of the application, after the terminal device obtains the historical data of the plurality of household devices, the current state data of the plurality of household devices can also be obtained. Specifically, since the state data of the plurality of home devices after each change and the timestamp of the change of the state data are stored in the service, the current state data of the plurality of home devices can be obtained according to the state data corresponding to the obtained timestamp closest to the current time.

For example, referring to fig. 3, an arrow indicates the current time, and when the time is 9 am, if the terminal device obtains from the server the historical data of the intelligent air conditioner, the timestamp closest to the time of 9 am is 30 minutes at 8 am, and the corresponding state data is in an on state, the terminal device may obtain that the state data of the intelligent air conditioner at the current time is in the on state.

In the embodiment of the application, the terminal device may further obtain historical data of a single device. Specifically, when the terminal device needs to display a history status track of a certain home device, only the history data of the home device may be acquired from the server. For example, when the terminal device needs to display the history state track of the intelligent air conditioner, only the history data of the intelligent air conditioner can be acquired from the server; when the terminal equipment needs to display the historical state track of the temperature sensor, only the historical data of the temperature sensor can be acquired from the server.

Further, the terminal device may perform an operation of acquiring historical data of a single or multiple home devices according to a selection instruction of the user. The selection instruction is a corresponding instruction generated by the terminal device according to the single or multiple pieces of home equipment selected by the user when the user selects the home equipment to be checked from all the owned home equipment. Specifically, the terminal device may display all home devices currently owned by the user to the user, when the user wants to check the historical states of the single or multiple home devices, the single or multiple home devices needing to be checked may be selected from all the owned home devices, and the terminal device may obtain the historical data of the single or multiple home devices selected by the user from the server according to a selection instruction of the user.

For example, if the home devices currently owned by the user include an intelligent door and window, an intelligent air conditioner, a temperature sensor, an intelligent switch, an air pressure sensor, and the like, please refer to fig. 4, when the user needs to check the historical state of the intelligent air conditioner, the user can select the intelligent air conditioner from all home devices displayed by the terminal device, and then the terminal device obtains the historical data of the intelligent air conditioner from the server according to the selection instruction of the user; when a user needs to check the historical states of the temperature sensor and the intelligent air conditioner, the user can select the temperature sensor and the intelligent air conditioner from all home equipment displayed by the terminal equipment, and then the terminal equipment acquires the historical data of the temperature sensor and the intelligent air conditioner from the server according to a selection instruction of the user.

Step S120: according to the historical data of the plurality of household devices, a state curve of each household device in the plurality of household devices is generated, wherein the state curve is used for representing the state change track of the household devices.

After acquiring the historical data of the plurality of home devices, the terminal device may generate a state curve of each home device according to the historical data of each home device when the historical state tracks of the plurality of home devices need to be displayed, where the state curve is used to represent the state change track of the home device.

In the embodiment of the application, the state curve of each household device in the plurality of household devices may be generated by marking each piece of data in the history data on a page of the terminal device as a point after the terminal device obtains the history data of each household device in the plurality of household devices, and then connecting two adjacent points to form a curve.

Step S130: and displaying the state curves of the plurality of household equipment on the same interface based on the same time axis.

After the terminal device generates the state curve of each household device in the plurality of household devices, when the historical state tracks of the plurality of household devices need to be displayed, the generated state curve of each household device can be displayed on the same time axis and displayed on the same interface. For example, referring to fig. 3, the temperature and the state curve of the smart air conditioner are displayed on the same page, and are based on the same time axis. Therefore, historical state tracks of the plurality of household devices based on the same time axis are placed on the same page for comparison and observation, state comparison and checking of the plurality of intelligent devices are achieved, a user can visually know states of various intelligent household devices, state comparison of the plurality of intelligent devices can be carried out, and user experience of the intelligent household is improved.

According to the data display method, the state curve of each household device in the household devices is generated by acquiring the historical data of the household devices, wherein the historical data comprises a plurality of timestamps of the household devices and a plurality of state data, the timestamps correspond to the state data one by one, the timestamps are time nodes of the state data, and then the historical state tracks of the household devices based on the same time axis are placed on the same page for comparative observation, so that the state comparison and checking of the intelligent devices are realized, a user can visually know the states of various intelligent household devices, the state comparison of the intelligent devices can be carried out, and the user experience of the intelligent household is improved.

Referring to fig. 5, another embodiment of the present application provides a data display method, which is applicable to a terminal device, and the data display method may include:

step S210: the method comprises the steps of obtaining historical data of a plurality of household devices, wherein the historical data comprise a plurality of timestamps of the household devices and a plurality of state data, the timestamps correspond to the state data one by one, and the timestamps are time nodes of the state data.

When the terminal device needs to display the historical state tracks of the plurality of home devices, the historical data of the plurality of home devices can be obtained from the server.

In this embodiment of the present application, the obtaining of the historical data of the multiple pieces of home equipment includes:

detecting the selection operation of a user on a time period; and acquiring historical data of the plurality of household devices in the appointed time period according to the selection operation.

In the embodiment of the application, before acquiring the historical data of the plurality of home devices, the terminal device needs to detect a selection operation of a user on a time period, so as to acquire the historical data of the plurality of home devices in a specified time period according to the selection operation.

In some embodiments, the terminal device detects a user's selection operation of a time slot, including detecting a user's selection operation of a time unit of the time slot. As one way, the specific time unit of the time period may be time, day, week, month, and the like, and for example, please refer to fig. 5, different time units of the time period are displayed on the top of the display interface, when the user needs to obtain the historical data of the multiple household devices on a certain day, the time unit of the middle day may be selected, and when the user needs to obtain the historical data of the multiple household devices on a certain week, the time unit of the middle week may be selected. As another mode, a default time unit of the time period may also be set, for example, when the user enters the history data query interface of the home devices, the default time unit of the time period is a day, and the terminal device acquires history data of a plurality of home devices on the day by default.

In some embodiments, after detecting a selection operation of a user on a time unit of a time period, the terminal device needs to detect the selection operation of the user on the time period, so as to obtain a specific time period selected by the user according to the selection operation of the time period, and thus the terminal device obtains historical data of a plurality of household devices in the specific time period. As one mode, the terminal device detects the selection operation of the user on the time period, which may be displaying a date selection box on the interface, then obtaining the date selected by the user in the date selection box, and obtaining the specified time period of the user, for example, if the time unit of the time period is time of day, please refer to fig. 6, where fig. 6 is an effect diagram of the date selection box, and the user may select a date to be viewed in the date selection box through the date selection box.

In the embodiment of the application, after the terminal device detects the selection operation of the user on the time period, the terminal device obtains the historical data of the plurality of household devices in the specified time period according to the selection operation. The specified time period is a specific time period selected by the user, and may be a specified hour, day, week, month, or the like, or may be a specified plurality of hours, days, weeks, months. For example, the terminal device may obtain historical data of a plurality of household devices on the same day, or obtain historical data of a plurality of household devices within 3 hours from 7 o 'clock to 9 o' clock on the same day.

In the embodiment of the application, when a user needs to check the historical data of a plurality of household devices in a specified time period, the terminal device may obtain the historical data of the plurality of household devices in the specified time period. The terminal device obtains the historical data of the plurality of household devices in the specified time period, may directly obtain the historical data of the plurality of household devices in the specified time period from the server, or may obtain all the historical data of the plurality of household devices from the server, and the terminal device obtains the historical data of the plurality of household devices in the specified time period from all the obtained historical data of the plurality of household devices.

Through the mode, the historical data of the home equipment in the specified time period is acquired by using the specified time period selected by the user, so that the historical data of the home equipment is acquired according to the viewing requirement of the user, the interference of the historical data in other time periods is avoided, and the user experience is effectively improved.

Furthermore, because in a general case, a user only needs to know the historical data of the plurality of home devices in the latest time, and needs to know little historical data of the plurality of home devices in a relatively long time, a default time period can be set so that the user can quickly check the latest states of the plurality of home devices. Specifically, when the terminal device needs to display the state curves of the plurality of home devices, the historical data of the plurality of home devices in the default time period may be directly obtained according to the default time period.

The default time period can be stored in the electronic equipment in advance, and can also be set reasonably according to the specific use condition of the user. The default time period may be set to the last three days, may also be set to the current day, and may also be set to a fixed time period of each day, such as 8 am to 6 pm. Of course, the above default time period setting is only an example, and does not represent a limitation on the default time period setting in the embodiment of the present application.

Through the mode, the historical data of the home equipment in the default time period is acquired by utilizing the set default time period, so that a user can clearly know the historical data of the home equipment in the latest time, the intelligent level of data display is improved, the requirements of the user are met, and the user experience is improved.

Further, the plurality of home devices may be a plurality of home devices in an automation scenario. The automatic scene is a linkage application which is automatically formed between the intelligent gateways or between the sub-devices connected to the intelligent gateways, for example, when the door and the window are opened, automatic linkage is formed between the door and the window and the lamp, when the bedroom lamp is opened, the living room lamp is closed, and automatic linkage is formed between the bedroom lamp and the living room lamp. The above automation scenarios are only examples and do not represent a limitation of the automation scenarios in the embodiments of the present application.

Specifically, when a user needs to analyze and check the automation execution condition in the automation scene, the terminal device may obtain historical data of the multiple home devices in the automation scene, so as to display the historical state curves of the multiple home devices in the automation scene. Therefore, through acquiring historical data of the home devices in the automatic scene, a user can timely master the action condition of each home device in the automatic scene, and then when the home devices are in automatic linkage and have problems, the user can timely find the actions, and the experience of the user when the user uses the intelligent home is improved.

As an embodiment, referring to fig. 7, the automatic scenario may be an automatic scenario selected by a user, and thus, the acquiring historical data of a plurality of home devices includes:

step S211: the method comprises the steps of obtaining a selection instruction of a user to a target scene in a plurality of preset scenes, wherein the preset scenes comprise a plurality of household devices.

In this embodiment, the preset scene is an automatic scene, and a plurality of preset scenes are stored in the terminal device, where the preset scene may include a plurality of home devices, for example, a light is turned on when a door or a window is opened, and the home devices include an intelligent door or a window and an intelligent light; and if the preset scene is that the temperature is higher than the preset temperature, the air conditioner is started, wherein the household equipment comprises a temperature sensor and an intelligent air conditioner. Of course, the preset scenarios above are only examples and do not represent limitations of the preset scenarios in the embodiments of the present application.

In some embodiments, the plurality of preset scenes may be automatically generated by the terminal device or set by the user.

It can be understood that when a user needs to know historical states of multiple pieces of home equipment in a certain preset scene, the user needs to select a target scene from the multiple preset scenes, where the target scene is one preset scene selected by the user from the multiple preset scenes. Therefore, before displaying the historical state curves of the plurality of home devices in the target scene, the terminal device needs to acquire a selection instruction of the user on the target scene in the plurality of preset scenes to determine the target scene selected by the user. In some embodiments, after the terminal device obtains a selection instruction of a user on a target scene in a plurality of preset scenes, the selected target scene may be labeled to remind the user.

For example, please refer to fig. 8, fig. 8 is an effect diagram of target scene selection, where the terminal device displays that a plurality of preset scenes owned by a user are scene 1, scene 2, and scene 3, the target scene selected by the user is scene 1, and the terminal device reminds the user in a dot marking manner after acquiring a selection instruction of the user.

Step S212: and acquiring historical data of the plurality of household devices in the target scene according to the selection instruction.

The terminal equipment can determine the target scene selected by the user after obtaining a selection instruction of the user on the target scene in the plurality of preset scenes, then the terminal equipment can obtain a plurality of household equipment in the target scene according to the target scene, and finally the terminal equipment obtains historical data of the plurality of household equipment in the target scene from the server so that the user can check the historical states of the plurality of household equipment in the selected automatic scene. Therefore, the user does not need to select all home devices related to the automatic scene one by one, and the user can conveniently analyze and check the execution conditions of the home devices related to the automatic scene.

Step S220: according to the historical data of the plurality of household devices, a state curve of each household device in the plurality of household devices is generated, wherein the state curve is used for representing the state change track of the household devices.

Step S230: and displaying the state curves of the plurality of household equipment on the same interface based on the same time axis.

In some embodiments, the contents of step S220 and step S230 may refer to the contents of the above embodiments, and are not described herein again.

In the embodiment of the application, the state curves of the plurality of household devices are displayed on the same interface, and can also be displayed in a labeling manner. Therefore, referring to fig. 9, the displaying the state curves of the multiple home devices on the same interface based on the same time axis includes:

step S231: and marking the historical data meeting the marking conditions on the state curves of the plurality of household devices.

Because the historical data of each household device gradually increases along with the increase of time, a user may not know important information from the displayed state curves of the plurality of household devices in time, and therefore, after the state curves of the plurality of household devices are generated on the basis of the same time axis, the terminal device can mark the historical data meeting the marking condition on the state curves of the plurality of household devices, so that when the historical data meet the marking condition, the terminal device can mark and display the historical data, and the user can be reminded and explained. The mark can be a color highlight, a picture mark or a text frame prompt. Of course, the above labels are merely examples and do not represent limitations of the labels in the embodiments of the present application.

In the embodiment of the present application, the marking condition may be that the state data exceeds a preset value, for example, a temperature value with a temperature exceeding 35 ℃ is marked; or the timestamp meets a preset condition, for example, status data with a timestamp of 9 points is marked; the device linkage condition in the automation scene may also meet a preset condition, for example, status data of successful automation execution is marked. The marking condition can be pre-stored in the terminal device or can be set by the user. Of course, the above labeling conditions are merely examples, and do not represent limitations on the labeling conditions in the examples of the present application.

As an embodiment, the plurality of home devices may be home devices in a target scene, and therefore, history data that satisfies a marking condition may be marked on a state curve of the plurality of home devices in the target scene. Specifically, referring to fig. 10, the marking the historical data meeting the marking condition on the state curves of the plurality of home devices includes:

step S2311: and acquiring an execution rule of the target scene, wherein the execution rule comprises a trigger condition of the trigger equipment.

In the embodiment of the application, when historical data meeting marking conditions need to be marked on the state curves of the plurality of household devices in the target scene, the terminal device may first acquire the execution rule of the target scene to obtain corresponding marking conditions. The execution rule for the terminal device to obtain the target scene may be obtained from a database of the terminal device, may also be obtained from an intelligent gateway in communication connection with the terminal device, and may also be obtained from a server.

The target scene comprises at least one trigger device and at least one controlled device, and the trigger device and the controlled device are in communication connection through an intelligent gateway. The trigger device can be a pressure sensor, a temperature sensor, a humidity sensor, a door and window sensor or a smoke sensor and other sensors, and the controlled device can be a switch, a socket, a lamp, an infrared emitting device or a camera device and the like. For example, when the target scene is that a door and a window are opened and a light is turned on, the triggering device is a door and window sensor in the door and the window, the controlled device is an intelligent switch connected with the lamp, and the door and window sensor is in communication connection with the intelligent switch through the intelligent switch.

The execution rule is a condition required for realizing automation of the target scene, and may include a trigger condition of the trigger device. Specifically, when the trigger device meets the trigger condition, the intelligent gateway controls the controlled device to execute a corresponding action. For example, when the target scene is that the door and window is opened and the lamp is turned on, after the door and window sensor in the door and window senses that the door and window is opened, the intelligent gateway informs the intelligent switch to turn on the lamp, so that the automatic linkage that the lamp is opened when the door and window is opened is realized.

It should be noted that the triggering device and the controlled device may be the same device, for example, the intelligent switch may be both the triggering device and the controlled device, a temperature sensor is disposed in the intelligent switch, and when the intelligent switch detects that the temperature is higher than a preset temperature, the temperature sensor is disposed in the intelligent switch. The intelligent switch is taken as an example here for convenience of description, and the scheme is not limited.

Step S2312: and marking the curve part corresponding to the state data meeting the trigger condition on the state curve of the trigger equipment.

After acquiring the execution rule of the target scene, when the trigger condition of the trigger device in the target scene needs to be marked, the terminal device may mark a curve portion corresponding to the state data that meets the trigger condition on the state curve of the trigger device in the target scene. It can be understood that the marking condition at this time is set to that the trigger device satisfies the trigger condition, so that the terminal device can mark the curve portion corresponding to the state data satisfying the trigger condition on the state curve of the trigger device.

In some embodiments, the marking of the curve portion corresponding to the state data satisfying the trigger condition may be performed by thickening the curve portion corresponding to the state data satisfying the trigger condition, or by highlighting a color, such as green, blue, etc., or by using a text prompt box, such as a text prompt box written with "success", or by using a picture label, such as a picture with a "check mark", and of course, the above marking manner is merely an example and does not represent a limitation on the marking manner in the embodiments of the present application.

Similarly, the marking condition at this time may be set such that the trigger does not satisfy the trigger condition, that is, the curve portion corresponding to the state data that does not satisfy the trigger condition may be marked on the state curve of the trigger. In some embodiments, the marking of the curve portion corresponding to the status data that does not satisfy the trigger condition may be performed by thickening the curve portion corresponding to the status data that does not satisfy the trigger condition, or by highlighting a color, such as red or black, or by a text prompt box, such as a text prompt box written with "fail", or by a picture marking, such as a picture with "x", and of course, the above marking manner is merely an example, and does not represent a limitation on the marking manner in the embodiment of the present application.

In some embodiments, when there are a plurality of trigger devices in the automation scenario, an automation trigger rule in the execution rules of the automation scenario may satisfy a corresponding trigger condition for at least one trigger device, where the execution rules of the automation scenario include an automation trigger rule and an automation execution result. For example, if the triggering device is a door/window sensor or a human body sensor, and the corresponding triggering condition is an open state and a person is detected, the automatic triggering rule may be that when a door/window is opened or a person is in a room, and the automatic execution result may be that a light is turned on.

Therefore, in this embodiment of the present application, when an automation trigger rule in an execution rule of an automation scenario is that at least one trigger device satisfies a corresponding trigger condition, as one mode, the marking a curve portion corresponding to state data satisfying the trigger condition on a state curve of the trigger device includes:

acquiring a starting time period of a target scene; judging whether the target timestamp is in a starting time period, wherein the target timestamp is any one of a plurality of timestamps of the target trigger equipment, and the target trigger equipment is any one of all trigger equipment of the target scene; if the target state data meet the trigger condition corresponding to the target trigger equipment within the starting time period, judging whether the target state data meet the trigger condition corresponding to the target trigger equipment, wherein the target state data are state data corresponding to a target timestamp in historical data of the target trigger equipment; and if the triggering condition corresponding to the target triggering equipment is met, marking the curve part corresponding to the target state data on the state curve of the target triggering equipment.

In this embodiment of the application, the starting time period is a time period for starting an automatic scene, for example, if a user starts to open a door, the time period for starting the automatic scene is from 18 pm to 6 am, and the starting time period acquired by the terminal device is from 18 pm to 6 am. Specifically, since there is a possibility that the user may close the automatic linkage setting of the home device, when labeling the state curve of the trigger device in the target scene, the on-time period of the target scene needs to be acquired.

In this manner, in the embodiment of the present application, since the automation scenario can be triggered when the automation trigger rule in the execution rule of the automation scenario is that at least one trigger device satisfies the corresponding trigger condition, if the automation scenario is triggered, the state data of at least one trigger device satisfies the trigger condition. The terminal device may traverse all the trigger devices of the target scene to mark the trigger condition of the trigger devices in the target scene according to the corresponding trigger condition.

Specifically, the terminal device takes the traversed trigger device as a target trigger device, and the target trigger device is any one of the multiple trigger devices of the target scene. And then the terminal equipment judges whether the target timestamp is in the starting time period or not so as to determine whether the automatic target scene is started or not when the target timestamp is. Wherein the target timestamp is any one of a plurality of timestamps of the target trigger device. And if so, judging whether the target state data meets the trigger condition corresponding to the target trigger equipment to determine whether the target state data meets the marking condition. And the target state data is state data corresponding to the target timestamp in the historical data of the target trigger equipment. If the trigger condition corresponding to the target trigger device is met, it indicates that the automatic trigger rule of the target scene is established at the target timestamp, and the terminal device may mark the curve portion corresponding to the target state data on the state curve of the target trigger device. And if any one of the judgment conditions is not met, taking down one time stamp as the target time stamp to continue judgment. In this way, by marking the curve part meeting the trigger condition, the user can quickly check the trigger conditions of a plurality of trigger devices in the target scene.

For example, the target trigger device is D1, the target timestamp is T1, the target state data corresponding to the target timestamp is V1, the terminal device first determines whether T1 is in the starting time period of the automation scene, and then determines whether V1 meets the trigger condition, if any one of the above determination conditions is not met, the next timestamp is taken to continue the determination, and if all the determination conditions meet the trigger rule indicating that the automation scene is true, the curve portion corresponding to the target state data is marked.

In other embodiments, when there are a plurality of trigger devices in the automation scenario, the automation trigger rule in the execution rule of the automation scenario may be that all trigger devices need to satisfy corresponding trigger conditions. For example, if the triggering device is a temperature sensor or a human body sensor, and the corresponding triggering condition is that the temperature is higher than 28 ℃ and a person is detected, the automatic triggering rule may be that the person is indoors and the temperature is higher than 28 ℃, and the automatic execution result may be that the air conditioner is turned on, that is, the temperature sensor and the human body sensor both need to satisfy the triggering condition, so that an automatic scene of automatically turning on the air conditioner can be realized.

When the automatic triggering rule is that all triggering devices need to satisfy corresponding triggering conditions, the terminal device needs to determine each triggering device, and therefore, marking a curve portion corresponding to state data satisfying the triggering conditions on a state curve of the triggering device includes:

acquiring a starting time period of a target scene; judging whether the target timestamp is in a starting time period, wherein the target timestamp is any one of a plurality of timestamps of the target trigger equipment, and the target trigger equipment is any one of all trigger equipment of the target scene; if the target state data meet the trigger condition corresponding to the target trigger equipment within the starting time period, judging whether the target state data meet the trigger condition corresponding to the target trigger equipment, wherein the target state data are state data corresponding to a target timestamp in historical data of the target trigger equipment; if the trigger condition corresponding to the target trigger equipment is met, judging whether state data corresponding to the target timestamp in historical data of each trigger equipment in other trigger equipment meets the corresponding trigger condition or not, wherein the other equipment is trigger equipment except the target trigger equipment in all trigger equipment of the target scene; and if the state data corresponding to the target timestamp in the historical data of each of the other trigger devices meets the corresponding trigger condition, marking the curve part corresponding to the state data corresponding to the target timestamp on the state curves of all the trigger devices according to the target timestamp.

The step of obtaining the starting time period of the target scene and the step of judging whether the target state data meets the triggering condition corresponding to the target triggering device if the target state data is within the starting time period, where the target state data is the state data corresponding to the target timestamp in the historical data of the target triggering device, and the step of meeting the corresponding step in the corresponding triggering condition for at least one triggering device may refer to the above automatic triggering rule, and is not described again here. In this manner, in the embodiment of the application, since the automation trigger rule in the execution rule of the automation scenario triggers the automation scenario only when all trigger devices need to satisfy the corresponding trigger conditions, if the automation scenario is triggered, the state data of all trigger devices may satisfy the trigger conditions. Therefore, after obtaining the determination result that the target state data meets the trigger condition corresponding to the target trigger device, the terminal device needs to determine whether the state data corresponding to the target timestamp in the history data of each trigger device in the other trigger devices meets the corresponding trigger condition, so as to determine whether all home devices in the target scene meet the corresponding trigger condition. And the other devices are trigger devices except the target trigger device in all the trigger devices of the target scene.

It can be understood that the target timestamp does not necessarily exist in the history data of each of the other trigger devices, and therefore, if the target timestamp exists in the history data of one of the other trigger devices, the state data of the trigger device corresponding to the target timestamp is the state data corresponding to the target timestamp in the history data; if the target timestamp does not exist in the history data of one of the other trigger devices, the state data of the trigger device corresponding to the target timestamp may be obtained from the trigger timestamp adjacent to the target timestamp. For a specific status data obtaining manner of the trigger device corresponding to the target timestamp, reference may be made to the status data obtaining manner corresponding to the time between two adjacent timestamps in the foregoing embodiment.

In this embodiment of the present application, if, in the history data of each of the other trigger devices, the state data corresponding to the target timestamp meets the corresponding trigger condition, it indicates that, at the target timestamp, all the household devices in the target scene meet the corresponding trigger condition, that is, at the target timestamp, the automatic trigger rule of the target scene is true. Then, the terminal device may mark, on the state curve of the target trigger device, a curve portion corresponding to the state data corresponding to the target timestamp. If any one of the judgment conditions is not met, it is indicated that at the target timestamp, the trigger equipment in all home equipment in the target scene does not meet the corresponding trigger condition, that is, at the target timestamp, the automatic trigger rule of the target scene is not established, and therefore, the next timestamp needs to be taken as the target timestamp to continue the judgment. In this way, because the automation trigger rules of the automation scene are different, the marking conditions of the state curves of the trigger devices are also different, so that the user can quickly check the trigger conditions of the trigger devices in the target scenes of different execution rules.

For example, the target trigger device is D1, the target timestamp is T1, the target status data V1 is obtained by first determining whether T1 is in the starting time period of the automation scene, then determining whether V1 meets the corresponding trigger condition, if both the two determination conditions are met, then continuously determining whether the status values of all other trigger devices (except D1) under T1 meet the respective trigger conditions, if any one of the determination conditions is not met, then taking the next timestamp of D1 to continuously determine, and if both the determination conditions are met, indicating that the automatic trigger rule is true, thereby marking the curve portion corresponding to the status data corresponding to the target timestamp on the status curves of all trigger devices.

Step S2313: and when the curve part corresponding to the state data meeting the trigger condition exists, marking the timestamp corresponding to the marked curve part of the trigger equipment on the state curve of the controlled equipment.

In some embodiments, the curve portion corresponding to the state data that satisfies the trigger condition may be a curve portion corresponding to a target timestamp when the target state data satisfies the trigger condition corresponding to the target trigger device when the automatic trigger rule is that at least one trigger device satisfies the corresponding trigger condition, or may be a curve portion corresponding to a target timestamp when the automatic trigger rule is that all trigger devices need to satisfy the corresponding trigger condition, and the state data corresponding to the target timestamp of all trigger devices satisfies the corresponding trigger condition. That is, the timestamp of the execution result corresponding to the controlled device needs to be marked on the state curve of the controlled device after the automatic trigger rule is satisfied.

After the automatic trigger rule is satisfied, when the terminal device needs to mark the execution condition of the controlled device in the target scene, the timestamp corresponding to the marked curve portion of the trigger device may be marked on the state curve of the controlled device in the target scene, that is, the timestamp of the execution result corresponding to the controlled device is marked. It can be understood that, by marking the timestamp corresponding to the marked curve portion of the trigger device, where the timestamp corresponding to the marked curve portion of the trigger device on the curve of the controlled device is the time corresponding to the time on the time axis, the time of the controlled device executing the automation scenario in response to the trigger device can be known to the user.

In some embodiments, the time stamp corresponding to the marked curve portion of the trigger device on the state curve of the controlled device may be thickened, or may be highlighted in color, such as green, blue, red, or the like, or may be a text prompt box, such as a text prompt box written with "success" or "failure", or may be a picture mark, such as a picture with "check mark" or "x", where the above marking is merely an example and does not represent a limitation on the marking in the embodiment of the present application.

In this embodiment of the present application, the execution rule of the target scenario may further include an execution result of the controlled device, that is, the execution rule of the target scenario includes a trigger condition of the trigger device and an execution result of the controlled device. The execution result of the controlled device can be understood as that when the triggering device meets the triggering condition, the intelligent gateway controls the controlled device to execute a corresponding action, so that the controlled device meets the execution result. Therefore, after the terminal device marks the state curves of the plurality of trigger devices in the target scene, the terminal device may mark the state curves of the controlled devices according to the target timestamp. Specifically, when there is a curve portion corresponding to the state data that satisfies the trigger condition, the marking a timestamp corresponding to the marked curve portion of the trigger device on the state curve of the controlled device includes:

judging whether state data corresponding to the target timestamp in historical data of the target controlled equipment meets an execution result corresponding to the target controlled equipment in a preset time period or not according to the target timestamp, wherein the target controlled equipment is any one of all controlled equipment in a target scene; if the execution result corresponding to the target controlled equipment is met, judging whether an execution timestamp exists in historical data of the target controlled equipment within a preset time period, wherein the execution timestamp is a timestamp corresponding to the target controlled equipment which is changed from the condition data which does not meet the execution result to the condition data which meets the execution result within the preset time period; if the execution timestamp exists, performing first marking on the execution timestamp on a state curve of the target controlled equipment; if the execution timestamp does not exist, performing first marking on the target timestamp on the state curve of the target controlled equipment; and if the execution result corresponding to the target controlled equipment is not met, performing second marking on the target timestamp on the state curve of the target controlled equipment.

The automatic execution has delay, so the preset time period is a distance target timestamp, the highest allowable delay of automatic linkage in an automatic scene is prestored in the terminal equipment, and the automatic linkage can be reasonably adjusted according to a specific application environment. In the embodiment of the present application, the preset time period is set to 15s, but of course, the preset time period may also be set to 10s, 20s, and the like, and the above preset time period is only an example and does not represent a limitation on the preset time period in the embodiment of the present application.

In this embodiment of the present application, when the terminal device needs to mark the state curves of the controlled devices in the target scene after marking the state curves of the multiple trigger devices in the target scene, it may first determine whether, within a preset time period from the target timestamp, state data corresponding to the target timestamp in history data of the target controlled device satisfies an execution result corresponding to the target controlled device, so as to determine whether the target controlled device succeeds in executing automation within an allowable automation execution delay time. The target controlled device is any one of all controlled devices of the target scene.

It is understood that the target time stamp does not necessarily exist in the history data of the target controlled device, and therefore, if the target time stamp exists in the history data of the target controlled device, the state data of the target controlled device corresponding to the target time stamp is the state data corresponding to the target time stamp in the history data; if the target time stamp does not exist in the history data of the target controlled device, the status data of the target controlled device corresponding to the target time stamp may be obtained according to a time stamp adjacent to the target time stamp. For a specific status data acquisition manner of the target controlled device corresponding to the target timestamp, reference may be made to the status data acquisition manner corresponding to the time between two adjacent timestamps in the foregoing embodiment.

Specifically, if the state data corresponding to the target timestamp in the historical data of the target controlled device does not satisfy the execution result corresponding to the target controlled device within the preset time period from the target timestamp, it is indicated that the target controlled device fails to execute automation successfully, and the automation execution condition of the target scene fails. If the state data corresponding to the target timestamp in the historical data of the target controlled device meets the execution result corresponding to the target controlled device within the preset time period from the target timestamp, the target controlled device successfully executes automation, and the automatic execution condition of the target scene is successful.

For example, the preset time period is set to 15S, and if the target timestamp is T1, the triggering device satisfies the automation triggering rule, the terminal device may determine whether each controlled device satisfies the corresponding execution result within the time period from T1 to T1+15 seconds. And if the target controlled device is D5, judging whether the state data of the D5 in the time period from T1 to T1+15 seconds meets the execution result corresponding to the D5. If the result is not satisfied, the D5 is shown to fail to successfully execute the automation, and the automatic execution condition of the target scene fails. If the result is satisfied, the D5 is indicated to successfully execute the automation, and the automatic execution condition of the target scene is successful.

In this embodiment of the application, since the state data of the target controlled device may already satisfy the execution result corresponding to the target controlled device before the trigger device is triggered, after the terminal device obtains the state data of the target controlled device corresponding to the target timestamp and satisfies the execution result corresponding to the target controlled device, it needs to determine whether an execution timestamp exists in the history data of the target controlled device within a preset time period, where the execution timestamp is a timestamp corresponding to the execution result changed from a state data of the target controlled device that does not satisfy the execution result within the preset time period. To determine whether the state data of the target controlled device already meets the execution result corresponding to the target controlled device before the trigger device triggers.

It can be understood that, if the execution timestamp exists, the state data of the target controlled device is changed within the preset time period, that is, the target controlled device executes the self-contained action within the preset time period, so that the state data of the target controlled device satisfies the execution result corresponding to the target controlled device in the automation scenario. As a way, the execution timestamp can be first marked on the state curve of the target controlled device, so that the user can visually check the execution condition of the automation scene and the time node really responded by the controlled device in the automation scene.

The first mark represents that the execution of the automation scene is a successful result, and the first mark may be a bold mark, or a color highlight, such as green, blue, or the like, or a text prompt box, such as a text prompt box written with "success", or a picture mark, such as a picture with a "√" symbol, and of course, the first mark is only an example and does not represent a limitation to the first mark in the embodiment of the present application.

Further, since a plurality of execution timestamps may exist in the historical data of the target controlled device within the preset time period, in this embodiment of the application, the terminal device performs the first marking on the execution timestamp on the state curve of the target controlled device, which may be the execution timestamp with the time closest to the target timestamp. For example, the target timestamp is T1, the plurality of execution timestamps are T2 and T3, and if the execution timestamp closest to the time of T1 is T2, the terminal device marks a success on T2.

If the execution timestamp does not exist, the state data of the target controlled device is changed before the trigger device is triggered, that is, the target controlled device already executes the self-contained action before the trigger device is triggered, so that the state data of the target controlled device satisfies the execution result corresponding to the target controlled device in the automation scene in advance. In this case, automation is also successful, and therefore, as a means, a target time stamp may be marked on the state curve of the target controlled device to enable the user to visually see the execution of the automation scenario. For example, the terminal device marks the target timestamp T1 successfully on the target controlled device D5 curve.

And if the execution result corresponding to the target controlled equipment is judged not to be satisfied, performing second marking on the target timestamp on the state curve of the target controlled equipment.

It is understood that the terminal device may perform the second marking on the state curve of the target controlled device when obtaining the result that the target controlled device fails to perform the automation. The second mark is a mark for representing that the execution condition of the automation scene is a failure result and is different from the first mark. The second marking manner may be bold, or color highlighting, such as green, blue, or the like, or may be a text prompt box, such as a text prompt box written with "failure", or may be a picture mark, such as a picture with "x", and of course, the second marking manner is merely an example, and does not represent a limitation on the second marking manner in the embodiment of the present application. For example, on the target controlled device D5 curve, the target timestamp T1 is marked with a "fail" text prompt box.

Therefore, under the condition that the automation triggering rule of the automation scene is established, by the mode, the timestamp meeting the execution result is marked on the state curve of the controlled equipment, so that a user can quickly know the real triggering time of the controlled equipment in the automation scene and the automation execution condition of the automation scene. It should be noted that the state of one controlled device may be changed due to the execution of the automation, or may be triggered by other manners, such as directly controlling the controlled device through an APP, or being triggered by another automation. Therefore, the user can conveniently check the automatic execution condition by marking the state curves of the trigger equipment and the controlled equipment, and can also check whether conflicts exist among a plurality of automatic settings according to the change of the state of the controlled equipment.

As another embodiment, the marking the history data satisfying the marking condition on the state curves of the plurality of home devices includes:

and marking the state data corresponding to the specified time point on the state curve of each household device.

In this embodiment of the application, when a user wants to check data at a certain time point, the terminal device may mark the state data corresponding to the specified time point on the state curve of each piece of home equipment. Therefore, by marking the state data of the appointed time point, the user can quickly check the state of the household equipment at a certain time in a certain day and can quickly analyze and judge the intelligent household equipment.

In some embodiments, the marking of the status data corresponding to the designated time point may be performed by thickening the status data corresponding to the designated time point, or by highlighting a color, such as red, black, or by marking a text box, such as a text box with a timestamp and status data written therein, or by writing a text box with status data written therein. Of course, the above labeling is only exemplary and does not represent a limitation on the labeling in the embodiments of the present application.

It can be understood that, before the terminal device marks the status data corresponding to the specified time point, the terminal device needs to acquire the time point specified by the user. As a mode, a user can click a target time point, then the terminal device obtains the appointed time point of the user, and the state data of each household device at the appointed time point is marked on the interface, so that the user can conveniently find out the state of each household device at a certain moment on a certain day, and the user can analyze and judge the intelligent household device.

Similarly, the terminal device may mark the state data corresponding to the designated time point on the state curve of the selected home device, where the selected home device may be a single home device or multiple home devices. In some embodiments, the terminal device first acquires the home equipment selected by the user, then generates a state curve of the selected home equipment, and the terminal device marks state data corresponding to the designated time point on the state curve of the selected home equipment according to the acquired designated time point of the user.

Step S232: and displaying the marked state curves of the plurality of household equipment on the same interface based on the same time axis.

In the embodiment of the application, after the terminal device marks the historical data meeting the marking condition on the state curves of the plurality of household devices, the marked state curves of the plurality of household devices can be displayed on the same interface based on the same time axis. Therefore, the historical data meeting the marking conditions are marked in the state curves, the state curves of the plurality of household equipment are displayed on the same interface based on the same time axis, and intelligent data display is achieved, so that a user can know important information from the displayed state curves of the plurality of household equipment in time, and the user can make analysis and judgment on the intelligent household equipment.

According to the data display method, historical data which meet the marking conditions in the state curves of the plurality of household devices are marked, the marked state curves of the plurality of household devices are displayed on the same interface on the basis of the same time shaft, the intelligent display of the state data of the household devices is achieved according to the requirements of users, so that the users can intuitively know the states of various intelligent household devices, important information can be known from the displayed state curves of the plurality of household devices in time, and the user experience of the intelligent household is improved.

Referring to fig. 11, a block diagram of a data display apparatus 500 provided in the present application is shown, which is applied to a terminal device, and the apparatus may include: an acquisition module 510, a processing module 520, and a display module 530. The obtaining module 510 is configured to obtain historical data of multiple home devices, where the historical data includes multiple timestamps of the home devices and multiple status data, where the multiple timestamps correspond to the multiple status data one by one, and the timestamp is a time node at which the status data changes; the processing module 520 is configured to generate a state curve of each household device of the plurality of household devices according to historical data of the plurality of household devices, where the state curve is used to represent a state change trajectory of the household device; the display module 530 is configured to display the state curves of the multiple home devices on the same interface based on the same time axis.

In the embodiment of the present application, please refer to fig. 12, the display module 530 may include: a marker unit 531 and a marker display unit 532. The marking unit 531 is configured to mark, on the state curves of the multiple pieces of home equipment, historical data that meet a marking condition; the mark display unit 532 is configured to display the marked state curves of the multiple pieces of home equipment on the same interface based on the same time axis.

In some embodiments, the plurality of home devices are home devices in a target scene, the target scene includes at least one trigger device and at least one controlled device, please refer to fig. 13, and the marking unit 531 may include: a rule acquisition subunit 5311, a trigger flag subunit 5312, and a controlled flag subunit 5313. The rule obtaining subunit 5311 is configured to obtain an execution rule of the target scene, where the execution rule includes a trigger condition of the trigger device; the trigger marking subunit 5312 is configured to mark, on the state curve of the trigger device, a curve portion corresponding to the state data that meets the trigger condition; the controlled labeling subunit 5313 is configured to label, on the state curve of the controlled device, a timestamp corresponding to the labeled curve portion of the trigger device, when there is a curve portion corresponding to the state data that satisfies the trigger condition.

In some embodiments, the trigger flag subunit 5312 may be specifically configured to: acquiring a starting time period of a target scene; judging whether a target timestamp is in a starting time period, wherein the target timestamp is any one timestamp in a plurality of timestamps of a target trigger device, and the target trigger device is any one trigger device in all trigger devices of a target scene; if the target state data meet the trigger condition corresponding to the target trigger equipment within the starting time period, judging whether the target state data meet the trigger condition corresponding to the target trigger equipment, wherein the target state data are state data corresponding to a target timestamp in historical data of the target trigger equipment; and if the triggering condition corresponding to the target triggering equipment is met, marking the curve part corresponding to the target state data on the state curve of the target triggering equipment.

In other embodiments, the trigger flag subunit 5312 may be specifically configured to: : acquiring a starting time period of a target scene; judging whether the target timestamp is in a starting time period, wherein the target timestamp is any one of a plurality of timestamps of the target trigger equipment, and the target trigger equipment is any one of all trigger equipment of the target scene; if the target state data meet the trigger condition corresponding to the target trigger equipment within the starting time period, judging whether the target state data meet the trigger condition corresponding to the target trigger equipment, wherein the target state data are state data corresponding to a target timestamp in historical data of the target trigger equipment; if the trigger condition corresponding to the target trigger equipment is met, judging whether state data corresponding to the target timestamp in historical data of each trigger equipment in other trigger equipment meets the corresponding trigger condition or not, wherein the other equipment is trigger equipment except the target trigger equipment in all trigger equipment of the target scene; and if the state data corresponding to the target timestamp in the historical data of each of the other trigger devices meets the corresponding trigger condition, marking the curve part corresponding to the state data corresponding to the target timestamp on the state curves of all the trigger devices according to the target timestamp.

In this embodiment, the execution rule further includes an execution result of the controlled device, and the controlled flag subunit 5313 may be specifically configured to: judging whether state data corresponding to the target timestamp in historical data of the target controlled equipment meets an execution result corresponding to the target controlled equipment in a preset time period or not according to the target timestamp, wherein the target controlled equipment is any one of all controlled equipment in a target scene; if the execution result corresponding to the target controlled equipment is met, judging whether an execution timestamp exists in the historical data of the target controlled equipment within a preset time period, wherein the execution timestamp is any one timestamp in a plurality of timestamps of the target controlled equipment; if the execution timestamp exists, performing first marking on the execution timestamp on a state curve of the target controlled equipment; if the execution time stamp does not exist, performing first marking on the target time stamp on the state curve of the target controlled equipment; and if the execution result corresponding to the target controlled equipment is not met, performing second marking on the target timestamp on the state curve of the target controlled equipment.

In some embodiments, the marking unit 531 may be specifically configured to: and marking the state data corresponding to the specified time point on the state curve of each household device.

In some embodiments, the obtaining module 510 may be specifically configured to: detecting the selection operation of a user on a time period; and acquiring historical data of the plurality of household devices in the appointed time period according to the selection operation.

In some embodiments, the obtaining module 510 may be specifically configured to: acquiring a selection instruction of a user for a target scene in a plurality of preset scenes, wherein the preset scenes comprise a plurality of household devices; and acquiring historical data of the plurality of household devices in the target scene according to the selection instruction.

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described apparatuses, modules and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, the coupling between the modules may be electrical, mechanical or other type of coupling.

In addition, functional modules in the embodiments of the present application may be integrated into one processing module, or each of the modules may exist alone physically, or two or more modules are integrated into one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode.

To sum up, according to the data display method and apparatus provided by the embodiment of the application, a state curve of each household device in the plurality of household devices is generated by obtaining historical data of the plurality of household devices, wherein the historical data includes a plurality of timestamps of the household devices and a plurality of state data, the timestamp is a time node of the state data, and then historical state tracks of the plurality of household devices based on the same time axis are placed on the same page for comparative observation, so that state comparison and checking of the plurality of intelligent devices are realized, a user can intuitively know states of various intelligent household devices, and meanwhile state comparison of the plurality of intelligent devices can be performed, and user experience of the intelligent household is improved.

Referring to fig. 14, a block diagram of a terminal device according to an embodiment of the present application is shown. The terminal device 400 in the present application may include one or more of the following components: a processor 410, a memory 420, a communication module 430, a screen 440, and one or more applications, wherein the one or more applications may be stored in the memory 420 and configured to be executed by the one or more processors 410, the one or more programs configured to perform the methods as described in the aforementioned method embodiments.

Processor 410 may include one or more processing cores. The processor 410 connects various parts within the overall terminal device 400 using various interfaces and lines, and performs various functions of the intelligent gateway 100 and processes information by executing or executing instructions, programs, code sets, or instruction sets stored in the memory 420 and calling up the information stored in the memory 420. Alternatively, the processor 410 may be implemented in hardware using at least one of Digital Signal Processing (DSP), field-Programmable Gate Array (FPGA), and Programmable Logic Array (PLA). The processor 410 may integrate one or more of a Central Processing Unit (CPU), a Graphics Processing Unit (GPU), a modem, and the like. Wherein, the CPU mainly processes an operating system, a user interface, an application program and the like; the GPU is used for rendering and drawing display content; the modem is used to handle wireless communications. It is understood that the modem may not be integrated into the processor 410, but may be implemented by a communication chip.

The Memory 420 may include a Random Access Memory (RAM) or a Read-Only Memory (Read-Only Memory). The memory 420 may be used to store instructions, programs, code, sets of codes, or sets of instructions. The memory 420 may include a program storage area and an information storage area, wherein the program storage 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 the above-described method embodiments, and the like. The storage information area may also store information (such as detection information, a preset threshold value, a preset time) created by the terminal device 400 in use, and the like.

The communication module 430 is used for receiving and transmitting electromagnetic waves, and implementing interconversion between the electromagnetic waves and electrical signals, so as to communicate with a communication network or other devices. The communication module 430 may include various existing circuit elements for performing these functions, such as an antenna, a radio frequency transceiver, a digital signal processor, an encryption/decryption chip, a Subscriber Identity Module (SIM) card, memory, and so forth. The communication module 430 may communicate with various networks such as the internet, an intranet, a preset type of wireless network, or other devices through a preset type of wireless network. The predetermined type of wireless network may include a cellular telephone network, a wireless local area network, or a metropolitan area network. The Wireless networks of the above-mentioned preset type may use various Communication standards, protocols and technologies, including but not limited to Global System for Mobile Communication (GSM), enhanced Data GSM Environment (EDGE), wideband Code Division Multiple Access (W-CDMA), code Division Multiple Access (CDMA), time Division Multiple Access (TDMA), bluetooth, wireless Fidelity (WiFi) (e.g., IEEE802.11 a, IEEE802.11 b, IEEE802.1 g and/or IEEE802.11 n), voice over Internet protocol (VoIP), worldwide Interoperability for Microwave Access (wimax), and any other suitable short message protocol for instant messaging, as well as any other suitable Communication protocols.

The screen 440 is used to display information input by a user, information provided to the user, and various graphical user interfaces of the electronic device, which may be composed of graphics, text, icons, numbers, video, and any combination thereof, and in one example, the screen may be provided on the display panel so as to be integrated with the display panel.

Referring to fig. 15, a block diagram of a computer-readable storage medium according to an embodiment of the present application is shown. The computer-readable storage medium 800 has stored therein a program code that can be called by a processor to execute the method described in the above-described method embodiments.

The computer-readable storage medium 800 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. Alternatively, the computer-readable storage medium 800 includes a non-volatile computer-readable storage medium. The computer readable storage medium 800 has storage space for program code 810 for performing any of the method steps of the method described above. The program code can be read from or written to one or more computer program products. The program code 810 may be compressed, for example, in a suitable form.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (9)

1. A data display method is applied to terminal equipment and comprises the following steps:

the method comprises the steps of obtaining historical data of a plurality of household devices, wherein the historical data comprises a plurality of timestamps and a plurality of state data of the household devices, the timestamps correspond to the state data one by one, and the timestamps are time nodes of the state data, the household devices are household devices in a target scene, and the target scene comprises at least one trigger device and at least one controlled device;

generating a state curve of each household device in the plurality of household devices according to the historical data of the plurality of household devices, wherein the state curve is used for representing the state change track of the household devices;

acquiring an execution rule of the target scene and an opening time period of the target scene; the execution rule comprises a trigger condition of the trigger device;

judging whether a target timestamp is in the starting time period, wherein the target timestamp is any one timestamp in a plurality of timestamps of a target trigger device, and the target trigger device is any one trigger device in all trigger devices of the target scene;

if so, judging whether target state data meet the trigger condition corresponding to the target trigger equipment, wherein the target state data are state data corresponding to the target timestamp in the historical data of the target trigger equipment;

if the trigger condition corresponding to the target trigger equipment is met, marking a curve part corresponding to the target state data on the state curve of the target trigger equipment;

when a curve part corresponding to the state data meeting the trigger condition exists, marking a timestamp corresponding to the marked curve part of the trigger equipment on the state curve of the controlled equipment;

and displaying the marked state curves of the plurality of household equipment on the same interface based on the same time axis.

2. The method of claim 1, further comprising:

if the trigger condition corresponding to the target trigger device is met, judging whether state data corresponding to the target timestamp in the historical data of each trigger device in other trigger devices meets the corresponding trigger condition, wherein the other devices are trigger devices except the target trigger device in all trigger devices of the target scene;

and if the state data corresponding to the target timestamp in the historical data of each of the other trigger devices meets the corresponding trigger condition, marking the curve part corresponding to the state data corresponding to the target timestamp on the state curves of all the trigger devices according to the target timestamp.

3. The method according to claim 1 or 2, wherein the execution rule further includes an execution result of the controlled device, and the marking a timestamp corresponding to a marked curve portion of the trigger device on the state curve of the controlled device when the curve portion corresponding to the state data meeting the trigger condition exists comprises:

judging whether state data corresponding to the target timestamp in the historical data of target controlled equipment meets the execution result corresponding to the target controlled equipment within a preset time period according to the target timestamp, wherein the target controlled equipment is any one of all controlled equipment of the target scene;

if the execution result corresponding to the target controlled device is met, judging whether an execution timestamp exists in historical data of the target controlled device within the preset time period, wherein the execution timestamp is a timestamp corresponding to the execution result changed from the condition data of the target controlled device within the preset time period from the condition data of the target controlled device not meeting the execution result;

if the execution timestamp exists, performing first marking on the execution timestamp on the state curve of the target controlled device;

if the execution timestamp does not exist, first marking the target timestamp on the state curve of the target controlled equipment;

and if the execution result corresponding to the target controlled equipment is not satisfied, performing second marking on the target timestamp on the state curve of the target controlled equipment.

4. The method of claim 1, further comprising:

and marking the state data corresponding to the specified time point on the state curve of each household device.

5. The method of claim 1, wherein the obtaining historical data of a plurality of household devices comprises:

detecting the selection operation of a user on a time period;

and acquiring historical data of the plurality of household devices in the appointed time period according to the selection operation.

6. The method according to any one of claims 1, 2, 4 and 5, wherein the obtaining historical data of a plurality of household devices comprises:

acquiring a selection instruction of a user for a target scene in a plurality of preset scenes, wherein the preset scenes comprise a plurality of household devices;

and acquiring historical data of the plurality of household devices in the target scene according to the selection instruction.

7. A data display device, applied to a terminal device, includes:

the system comprises an acquisition module, a processing module and a processing module, wherein the acquisition module is used for acquiring historical data of a plurality of household devices, the historical data comprises a plurality of timestamps and a plurality of state data of the household devices, the timestamps correspond to the state data one by one, and the timestamps are time nodes of the state data; the plurality of household devices are household devices in a target scene, and the target scene comprises at least one trigger device and at least one controlled device;

the processing module is used for generating a state curve of each household device in the household devices according to historical data of the household devices, wherein the state curve is used for representing a state change track of the household devices; acquiring an execution rule of the target scene and an opening time period of the target scene; the execution rule comprises a trigger condition of the trigger device; judging whether a target timestamp is in the starting time period, wherein the target timestamp is any one timestamp in a plurality of timestamps of a target trigger device, and the target trigger device is any one trigger device in all trigger devices of the target scene;

the processing module is further configured to determine whether target state data meets the trigger condition corresponding to the target trigger device if the target state data is within the starting time period, where the target state data is state data corresponding to the target timestamp in the historical data of the target trigger device;

if the trigger condition corresponding to the target trigger equipment is met, marking a curve part corresponding to the target state data on the state curve of the target trigger equipment; when a curve part corresponding to the state data meeting the trigger condition exists, marking a timestamp corresponding to the marked curve part of the trigger equipment on the state curve of the controlled equipment;

and the display module is used for displaying the marked state curves of the plurality of household equipment on the same interface based on the same time axis.

8. A terminal device, comprising:

one or more processors;

a memory;

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 programs configured to perform the method of any of claims 1-6.

9. 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 6.

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