CN108270649A - A kind of method and device for controlling home appliance - Google Patents

Abstract

The invention discloses a kind of methods for controlling home appliance, according to the mobile terminal current location information and velocity information of acquisition, determine the route arrived at and calculate E.T.A；Compare the E.T.A and the Timing Advance of setting, when determining that the E.T.A is less than or equal to the Timing Advance, send operational order.The present invention further simultaneously discloses a kind of device for controlling home appliance.

Description

Method and device for controlling household electrical appliance

Technical Field

The invention relates to the field of intelligent home furnishing by the Internet of things, in particular to a method and a device for controlling household appliances.

Background

Along with the development of the internet of things, intelligent homes become hot spots, a plurality of household electrical appliances manufacturers are vigorously distributed, the intelligent degree of the existing household electrical appliances is continuously improved, the household electrical appliances such as air conditioners and televisions can be accessed to the internet through a home gateway or a cellular wireless communication module, and users can carry out remote control through mobile terminals such as computers, mobile phones and intelligent wearable devices. Furthermore, besides the user manually controls the household appliances through the mobile terminal, many household appliances also have a self-control function, for example, the air conditioner is automatically turned on and the coffee machine automatically boils coffee when the user arrives at home, and some household appliances can be controlled and adjusted by sensing environmental factors such as temperature, light and the like.

The technical scheme of self-starting of some existing household appliances is that self-starting operation is triggered through a preset time or distance threshold, and the technical scheme has the disadvantage that the time from a user to home cannot be accurately estimated, because the time from the user to home is generally uncertain due to various reasons, if the household appliances are started or controlled at a fixed time or a fixed distance, the actual requirements of the user cannot be met, and the time is possibly ahead or behind the time point required by the user, so that energy waste is caused by early starting, and inconvenience is caused by late starting.

Disclosure of Invention

In view of this, embodiments of the present invention are expected to provide a method and an apparatus for controlling a home appliance, which can control the home appliance more accurately according to a time point required by a user, so as to meet actual requirements of the user.

In order to achieve the above purpose, the technical solution of the embodiment of the present invention is realized as follows:

a method of controlling an appliance device, the method comprising:

determining a route to a destination and calculating predicted arrival time according to the acquired current position information and speed information of the mobile terminal;

and comparing the predicted arrival time with a set time advance, and sending an operation instruction when the predicted arrival time is determined to be less than or equal to the time advance.

In the above technical solution, the determining a route to a destination according to the obtained current location information and speed information of the mobile terminal includes:

and determining a current travel mode according to the speed information, and determining a route to the destination according to the current position information and the travel mode.

In the above technical solution, before the obtaining of the current position information and the current speed information of the mobile terminal, the method further includes:

determining that the current time accords with set time information; or,

and receiving the operation of starting the function key.

In the above technical solution, the calculating the predicted arrival time includes:

and determining the predicted arrival time according to the acquired speed information and the determined route to the destination.

In the above technical solution, the determining the current travel mode according to the speed information includes: and determining the current traveling mode according to the relation between the speed information and the speed threshold value.

An apparatus for controlling an electric home appliance, the apparatus comprising: a positioning module and a judging module; wherein,

the positioning module is used for determining a route to a destination according to the acquired current position information and the speed information of the mobile terminal and calculating predicted arrival time;

and the judging module is used for comparing the predicted arrival time with a set time advance and sending an operation instruction when the predicted arrival time is determined to be less than or equal to the time advance.

In the above technical solution, the positioning module is specifically configured to determine a current travel mode according to the speed information, and determine a route to the destination according to the current position information and the travel mode.

In the above technical solution, the positioning module is further configured to:

determining that the current time accords with set time information; or,

and receiving the operation of starting the function key.

In the above technical solution, the positioning module is specifically configured to:

and determining the predicted arrival time according to the acquired speed information and the determined route to the destination.

In the above technical solution, the positioning module is specifically configured to:

and determining the current traveling mode according to the relation between the speed information and the speed threshold value.

According to the method and the device for controlling the household appliances, the route to the destination is determined and the predicted arrival time is calculated according to the acquired current position information and speed information of the mobile terminal; and comparing the predicted arrival time with a set time advance, and sending an operation instruction when the predicted arrival time is determined to be less than or equal to the time advance. Therefore, the actual route can be obtained through the position information and the traveling mode, so that the more accurate estimated time for reaching the destination can be obtained through calculation, the actual requirements of the user can be better met through the operation of the household appliance, and the energy can be reasonably saved.

Drawings

Fig. 1 is a schematic flow chart illustrating a method for controlling a home appliance according to an embodiment of the present invention;

fig. 2 is a detailed flowchart of a method for controlling a home appliance according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a system for controlling a home appliance according to an embodiment of the present invention;

fig. 4 is a detailed flowchart of a method for controlling a home appliance according to a second embodiment of the present invention;

fig. 5 is a schematic diagram of a component structure of a device for controlling a home appliance according to an embodiment of the present invention.

Detailed Description

At present, some schemes for controlling home appliances set a time range and a distance condition for starting the home appliances on a mobile terminal of a user, where the distance condition includes a destination and a distance threshold; and in a set time range, the mobile terminal starts distance measurement, when the distance between the mobile terminal and a destination is detected to be smaller than a distance threshold value, the mobile terminal transmits a starting instruction to the server, and the server sends the starting instruction to the household appliance, so that the household appliance is started. The method has the disadvantages that the linear distance from the user to the destination may be greatly different from the actual distance, so that the actual time for reaching the destination has large deviation, and the starting of the household appliance is advanced or lagged behind the actual requirement of the user.

In the embodiment of the invention, a route to a destination is determined according to the obtained current position information and speed information of the mobile terminal, and the predicted arrival time T is calculated; comparing the predicted arrival time T with a set time advance T₀Determining that the estimated time of arrival T is less than or equal to the time advance T₀And when the operation instruction is sent. Wherein the calculating the predicted time of arrival T comprises: and determining the predicted arrival time T according to the acquired speed information and the determined route to the destination.

Here, the determining a route to a destination according to the acquired current location information and speed information of the mobile terminal includes: and determining a current travel mode according to the speed information, and determining a route to the destination according to the current position information and the travel mode.

Further, the determining a current travel mode according to the speed information includes: and determining the current traveling mode according to the relation between the speed information and the speed threshold value.

In addition, before obtaining the current position information and the speed information of the mobile terminal, the method further comprises the following steps:

determining that the current time accords with set time information; or receiving the operation of opening the function key.

The method for controlling the household appliance in the embodiment of the invention is shown in the figure 1, and comprises the following steps:

step 101, determining a route to a destination and calculating predicted arrival time T according to the acquired current position information and speed information of the mobile terminal;

here, the user sets in advance the time information for the mobile terminal to start acquiring the current position information and the speed information through input, and when the current time is determined to accord with the time information, the mobile terminal starts acquiring the current position information and the speed information; or when the user needs the operation, the user inputs the operation of starting the function key to the mobile terminal to start the mobile terminal to acquire the current position information and the speed information.

And determining the current traveling mode according to the speed information, calling an Application Programming Interface (API) of a third-party platform to obtain a route from the current position to the destination according to the current position information and the traveling mode, and calculating the predicted arrival time T required for reaching the destination according to the route. The application programs of the third-party platform can be various third-party applications capable of providing map applications, such as maps or APPs for navigation.

The calculating of the estimated time of arrival T includes: and determining the predicted arrival time T according to the acquired speed information and the determined route to the destination.

Step 102, comparing the predicted arrival time with a set time advance T₀Determining that the estimated time of arrival T is less than or equal to the time advance T₀And when the operation instruction is sent.

Here, the estimated arrival time T obtained by calculation and the set time advance T are compared₀Comparing if T is less than or equal to T₀Then an operation instruction is sent. The estimated arrival time T is a time length indicating a time required for an estimated arrival. The operation instruction can be a self-starting instruction, a temperature control instruction and the like.

The present invention will be described in further detail below with reference to the following embodiments, which take the control of the self-starting of the home appliance as an example.

Example one

A detailed flowchart of the method for controlling the home appliance in this embodiment is shown in fig. 2, and includes the following steps:

step 201, the mobile terminal sets and stores the time advance T of the self-starting of the household electrical appliance₀And location information of the destination;

the mobile terminal determines the equipment identification of the household appliance needing to be automatically started, and realizes the association with the household appliance needing to be automatically started; setting and storing time advance T of household electrical appliance needing to be started in advance₀And setting and storing the position information of the place where the household electrical appliance is located as a destination.

The device identifier of the household appliance needing to be automatically started is determined, wherein the device identifier of the household appliance can be obtained by the mobile terminal through interaction with the household appliance needing to be automatically started; or determining the device identification of the home device to be self-started based on the input of the user.

The mobile terminal in the embodiment of the invention includes but is not limited to a mobile phone, a tablet computer, an intelligent wearable device and the like.

Step 202, determining a route to a destination according to the obtained current position information and speed information of the mobile terminal and calculating predicted arrival time T;

the step can be started when the mobile terminal determines that the current time accords with the set time information, and the time information can be preset according to the input of a user; or the mobile terminal receives the input of the function key opened by the user.

Further, the mobile terminal periodically acquires current position information and speed information. The mobile terminal determines a current traveling mode according to the relation between the speed information and the speed threshold, and calls an API of the third-party platform to obtain a route from the current position to the destination according to the current position information and the traveling mode, so that the predicted arrival time T required for reaching the destination is calculated according to the route.

The current position information and the speed information are acquired periodically at intervals of 3 minutes, 5 minutes, and the like.

The determining the current traveling mode according to the relationship between the speed information and the speed threshold may be: if the speed information is not greater than the speed threshold, determining that the travel mode is walking; and if the speed information is not less than the speed threshold value, determining that the traveling mode is driving.

The speed thresholds may include a first speed threshold, such as 5 km/h, and a second speed threshold, such as 15 km/h, the first speed threshold being less than the second speed threshold. The determining the current traveling mode according to the relationship between the speed information and the speed threshold may be: if the speed information is not greater than the first speed threshold, determining that the travel mode is walking; determining that the travel mode is a bicycle if the speed information is between the first speed threshold and the second threshold; and if the speed information is not less than the second speed threshold value, determining that the traveling mode is driving.

The application programs of the third party platform may be various third party applications capable of providing a mapping application.

Step 203, comparing the predicted arrival time T and the time advance T₀If the predicted arrival time T is less than or equal to the time advance T₀And uploading the self-starting instruction to the server.

The mobile terminal calculates the obtained predicted arrival time T and the set time advance T₀Comparing if T is less than or equal to T₀Uploading a self-starting instruction to the server, wherein the self-starting instruction comprises an equipment identifier; and the server receives the self-starting instruction and sends the self-starting instruction to the household appliance corresponding to the equipment identification according to the equipment identification contained in the self-starting instruction.

The self-starting is different from a starting mode that a user manually presses a power switch key.

The technical solution of the method for controlling a home appliance according to the first embodiment of the present invention is further described as follows: in the embodiment of the present invention, the system for controlling the self-start of the home appliance includes a mobile terminal and a server, and the interconnection between the mobile terminal and the server and the connection with the home appliance are realized through a dedicated network such as the Internet, a local area network, a wide area network, and the like, as shown in fig. 3. Wherein,

the mobile terminal is used for storing the time lead T of the self-starting of the household electrical appliance₀And location information of the destination; determining a route to a destination according to the obtained current position information and the obtained speed information so as to obtain an estimated arrival time T, and advancing the estimated arrival time T obtained by calculation and the set time T₀Comparing if T is less than or equal to T₀The self-start command is uploaded to the server.

And the server is used for sending a self-starting instruction to the household appliance so that the household appliance executes the self-starting instruction according to the requirement of the user of the mobile terminal.

The mobile terminal determining that it is required to be startedThe equipment identification of the household electrical appliance realizes the association with the household electrical appliance needing to be self-started and stores the time lead T of the household electrical appliance needing to be self-started in advance₀And setting and storing the position information of the place where the household electrical appliance is located as a destination. The mobile terminal periodically acquires current position and speed information. The GPS chip of the mobile terminal receives GPS satellite signals, and the output data may be in a format of National Marine Electronics Association (NMEA) 0183 standard, including latitude and longitude position and speed information. The NMEA0183 standard is a set of standards set by the international maritime electronics association that defines several formats for output statements of GPS position information, each in independently associated ASCII format, with streams of data that vary in length from 30-100 characters separated by commas, with the output data typically selected at intervals per second, and defines statements including $ GPGGA, $ GPGSA, $ GPGSV, $ GPRMC, $ GPVTG, $ GPGLL, etc., commonly used as $ GPGGA.

The GPGGA statement includes seventeen parameters, which are respectively a statement identification header, a universal time, a latitude hemisphere, a longitude hemisphere, a positioning quality indication, a number of used satellites, a Horizontal precision factor (HDOP), an altitude unit, a geoid height, an altitude unit, a differential GPS data period, a differential reference base station index, and a checksum end flag. Where each parameter is divided by commas.

The following examples are given: $ GPGGA, <1>, <2>, <3>, <4>, <5>, <6>, <7>, <8>, <9>, M, <10>, M, <12> XX < CR > < LF >

Specifically, for example: $ GPGGA, 113210.566, 3256.5589, N, 1133.4324, E, 1, 05, 21.7, 25.7, M,, 0000 x 1F.

Parameter 0: GPGGA is statement ID, which indicates that the statement is GPS positioning information (Global positioning system Fix Data, GGA);

parameter 1: UTC time is expressed in a time-minute-second format, such as hhmms.

Parameter 2: expressing the latitude by adopting a degree division format (if the leading digit is not enough, 0 is supplemented), such as ddmm.mmmm;

parameter 3: representing latitude hemisphere, latitude N (north latitude) or S (south latitude);

parameter 4: expressing longitude, adopting a degree division format (if the leading digit is insufficient, 0 is complemented), and if ddmm.mmmm;

parameter 5: represents the hemisphere of longitude, E (east longitude) or W (west longitude);

parameter 6: indicating the state of the GPS, specifically, 0 indicates no positioning, 1 indicates no differential positioning, 2 indicates differential positioning, 3 indicates a Protocol And Parameter Selection (PPS) request, And 6 indicates estimation;

parameter 7: the number of the used satellites is represented, and the specific value is (00-12) (if the number of the leading digits is insufficient, 0 is complemented);

parameter 8: represents HDOP, and has a specific value of (0.5-99.9);

parameter 9: the altitude is represented, and the specific value is (-9999.9-99999.9) meters;

parameter 10: the height of the geoid, namely the height of the ellipsoid of the earth relative to the geoid, and the unit is meter;

parameter 11: indicating a differential GPS data deadline, i.e., a number of seconds since the last differential signal received, if not the differential fix would be null;

parameter 12: denotes a differential reference base station index, a differential station ID number 0000-;

parameter 13: represents a check value;

for general positioning, only parameters 2-5, namely longitude and latitude data, need to be analyzed.

According to the NMEA0183 standard, current longitude and latitude position information can be obtained through a statement $ GPGGA, and similarly, current speed information can be obtained through a statement $ GPVTG.

In the embodiment of the invention, the speed information can also be obtained through a speed sensor.

The mobile terminal determines the current traveling mode according to the speed information, specifically, the mobile terminal compares the speed information with a speed threshold value, and determines the current traveling mode according to the comparison result. More specifically, if the speed information is not greater than the speed threshold, determining that the travel pattern is walking; and if the speed information is not less than the speed threshold value, determining that the traveling mode is driving. The speed thresholds may include a first speed threshold, such as 5 km/h, and a second speed threshold, such as 15 km/h, the first speed threshold being less than the second speed threshold. The determining the current traveling mode according to the relationship between the speed information and the speed threshold may be: if the speed information is not greater than the first speed threshold, determining that the travel mode is walking; determining that the travel mode is a bicycle if the speed information is between the first speed threshold and the second threshold; and if the speed information is not less than the second speed threshold value, determining that the traveling mode is driving.

In addition, according to the current position information and the traveling mode, an API of a third-party platform is called to obtain a route from the current position to the destination, and the predicted arrival time T of the destination is calculated.

Some third party platforms can provide the API, such as Baidu maps, Tencent maps and the like, and by inputting parameters such as the starting point position, the speed, the traveling mode and the like, the third party platforms can calculate a route and the predicted arrival time T of the route by combining background big data such as a map information database, road conditions and the like. The mobile terminal obtains the predicted time T and the set time advance T through calculation₀Is compared if T is less than or equal to T₀The self-start command is uploaded to the server. And the server sends the self-starting instruction to the household electrical appliance, thereby realizing the self-starting of the corresponding household electrical appliance.

Example two

A detailed flowchart of the method for controlling a home appliance in this embodiment is shown in fig. 4, and includes the following steps:

step 401, receiving and storing the time advance T of the self-starting of the household electrical appliance set by the mobile terminal₀And location information of the destination;

here, the mobile terminal determines the device identifier of the household appliance needing to be started automatically, and realizes the association with the household appliance needing to be started automatically; setting the time advance T of the household electrical appliance needing to be started in advance₀And setting the position information of the place where the household electrical appliance is located as the destination. The device identifier of the household appliance needing to be automatically started is determined, wherein the device identifier of the household appliance can be obtained by the mobile terminal through interaction with the household appliance needing to be automatically started; or determining the device identification of the home device to be self-started based on the input of the user.

Further, the server receives and stores the time advance T of the self-starting of the household electrical appliance from the mobile terminal₀And location information of the destination.

The mobile terminal in the embodiment of the invention includes but is not limited to a mobile phone, a tablet computer, an intelligent wearable device and the like.

Step 402, determining a route to a destination according to the current position information and speed information of the mobile terminal and calculating the predicted arrival time T;

the step can be started when the server determines that the current time accords with the set time information, and the time information can be preset according to the input of a user; or the server receives the input of the function key opened by the user to start.

Further, the server can judge the traveling mode according to the size of the speed uploaded by the mobile terminal, and the server determines the current traveling mode according to the speed information, specifically, the server compares the speed information with a speed threshold value and determines the current traveling mode according to the comparison result. If the speed information is not greater than the speed threshold, determining that the travel mode is walking; and if the speed information is not less than the speed threshold value, determining that the traveling mode is driving.

In addition, the server calls an API of a third-party platform to obtain a route from the current position to the destination according to the current position information and the traveling mode, and then calculates the predicted arrival time T of the destination.

In the embodiment of the present invention, the speed information may be obtained by a GPS chip, a speed sensor, or the like.

Some third party platforms can provide the API, such as Baidu maps, Tencent maps and the like, and by inputting parameters such as the starting point position, the speed, the traveling mode and the like, the third party platforms can calculate a route and the predicted arrival time T of the route by combining background big data such as a map information database, road conditions and the like.

Step 403, comparing the predicted arrival time T with the time advance T₀If the estimated time of arrival T is less than or equal to the time advance T₀Then a self-start command is sent.

The server calculates the estimated arrival time T and the set time advance T₀Comparing if T is less than or equal to T₀Then a self-start command is sent.

The self-starting instruction comprises an equipment identifier, and the server sends the self-starting instruction to the household appliance equipment corresponding to the equipment identifier according to the equipment identifier contained in the self-starting instruction.

The self-starting is different from a starting mode that a user manually presses a power switch key.

In the embodiment of the invention, the system for controlling the self-starting of the household appliances comprises a mobile terminal and a server, and the interconnection of the mobile terminal and the server and the connection with the household appliances are realized through a special network such as the Internet, a local area network, a wide area network and the like, as shown in fig. 3. Wherein,

the mobile terminal is used for carrying out self-starting on the time advance T of the household appliance₀And the position of the destination and uploading to the server; and acquiring current position information and speed information and uploading the current position information and the speed information to a server.

The server is used for receiving and storing the time lead T of the self-starting of the household electrical appliance₀And location information of the destination; determining a route to a destination according to the current position information and speed information of the mobile terminal and calculating predicted arrival time T; and the calculated predicted arrival time T and the set time advance T are compared₀Comparing if T is less than or equal to T₀Then a self-start command is sent. And the self-starting instruction is sent to the household appliance, so that the self-starting of the corresponding household appliance is realized.

In order to implement the method for controlling a home appliance, an embodiment of the present invention further provides a device, where a schematic structural diagram of the device is shown in fig. 5, and the device includes: a positioning module 51 and a discrimination module 52; wherein,

the positioning module 51 is configured to determine a route to a destination according to the acquired current location information and speed information of the mobile terminal, and calculate an expected arrival time T;

the determining module 52 is configured to compare the predicted arrival time T with a set time advance T₀Determining that the estimated time of arrival T is less than or equal to the time advance T₀And when the operation instruction is sent.

Wherein the predicted arrival time T is a time length representing a time required for a predicted arrival.

The operation instruction can be a self-starting instruction, a temperature control instruction and the like.

Here, the device positioning module 51 is further configured to: determining that the current time accords with set time information; or receiving the operation of opening the function key.

The positioning module 51 obtains time information of current position information and speed information according to start input by a user, and starts obtaining the current position information and the speed information when determining that the current time accords with the time information; or, the positioning module 51 receives an operation of opening a function key when the user needs the operation, and starts to acquire the current position information and the speed information.

Here, the positioning module 51 is specifically configured to: and determining a current travel mode according to the speed information, and determining a route to the destination according to the current position information and the travel mode.

The positioning module 51 is specifically configured to: and determining the predicted arrival time according to the acquired speed information and the determined route to the destination.

Further, the positioning module 51 is specifically configured to: and determining the current traveling mode according to the relation between the speed information and the speed threshold value.

In practical applications, the positioning module 51, the distinguishing module 52 and the setting module can be implemented by a Central Processing Unit (CPU), a microprocessor Unit (MPU), a Digital Signal Processor (DSP), a Field Programmable Gate Array (FPGA), or the like located in the mobile terminal or the server.

The household appliances in the embodiment of the invention include, but are not limited to, air conditioners, washing machines, refrigerators, televisions, water heaters, microwave ovens, lamps, door controls and other devices.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention.

Claims (10)

1. A method of controlling an appliance, the method comprising:

determining a route to a destination and calculating predicted arrival time according to the acquired current position information and speed information of the mobile terminal;

and comparing the predicted arrival time with a set time advance, and sending an operation instruction when the predicted arrival time is determined to be less than or equal to the time advance.

2. The method according to claim 1, wherein the determining a route to a destination according to the obtained current position information and speed information of the mobile terminal comprises:

and determining a current travel mode according to the speed information, and determining a route to the destination according to the current position information and the travel mode.

3. The method according to claim 1, wherein before obtaining the current position information and the speed information of the mobile terminal, further comprising:

determining that the current time accords with set time information; or,

and receiving the operation of starting the function key.

4. The method of claim 1 or 2, wherein said calculating an estimated time of arrival comprises:

and determining the predicted arrival time according to the acquired speed information and the determined route to the destination.

5. The method of claim 2, wherein said determining a current travel pattern from said speed information comprises: and determining the current traveling mode according to the relation between the speed information and the speed threshold value.

6. An apparatus for controlling an electric home appliance, the apparatus comprising: a positioning module and a judging module; wherein,

the positioning module is used for determining a route to a destination according to the acquired current position information and the speed information of the mobile terminal and calculating predicted arrival time;

and the judging module is used for comparing the predicted arrival time with a set time advance and sending an operation instruction when the predicted arrival time is determined to be less than or equal to the time advance.

7. The apparatus of claim 6, wherein the location module is specifically configured to determine a current travel mode according to the speed information, and determine a route to the destination according to the current location information and the travel mode.

8. The method of claim 6, wherein the positioning module is further configured to:

determining that the current time accords with set time information; or,

and receiving the operation of starting the function key.

9. The method according to claim 6 or 7, wherein the positioning module is specifically configured to:

and determining the predicted arrival time according to the acquired speed information and the determined route to the destination.

10. The apparatus according to claim 9, wherein the positioning module is specifically configured to:

and determining the current traveling mode according to the relation between the speed information and the speed threshold value.