CN115059989A - Smart home awakening method and system and storage medium - Google Patents

Abstract

The application discloses a smart home awakening method, a smart home awakening system and a smart home storage medium, which relate to the field of wireless communication and comprise the steps of obtaining outdoor temperature, judging whether the outdoor temperature is within a preset temperature range or not, and obtaining indoor temperature if the outdoor temperature is not within the preset temperature range; generating a first induction coil with the room position as the center of a circle according to the indoor temperature, the preset temperature and the preset regulation rate; the method comprises the steps of periodically obtaining a real-time position of a user, judging whether the real-time position of the user is in a first induction coil, and sending a starting instruction containing a preset temperature to a preset intelligent home if the real-time position of the user is in the first induction coil. Once it needs to adjust to confirm indoor temperature, generate first induction coil according to indoor outer temperature and predetermined temperature regulation rate, then monitor user's real-time position again, after user's real-time position got into first induction coil, open intelligent house to indoor temperature was just in the temperature that the user predetermine when making the user arrive at home as far as possible.

Description

Smart home awakening method and system and storage medium

Technical Field

The present application relates to the field of wireless communication, and in particular, to a method, a system, and a storage medium for waking up a smart home.

Background

Along with the development of science and technology, intelligent home furnishing convenient and fast to live is gradually appeared in the life of people. The intelligent home for controlling the indoor temperature, such as an air conditioner, a floor heating device and the like, can be awakened before a user goes home in a specific awakening mode so as to enable the user to be in an environment with comfortable temperature once the user arrives at home.

The existing smart home is awakened automatically after the preset automatic awakening time is reached, or the smart home is started remotely by a user in a remote control mode.

However, the smart home in the former wake-up mode has a fixed wake-up time, and as the time for the user to go home is uncertain, the smart home is easily turned on too early or too late. The latter awakening mode needs self control of the user, and once the user forgets to operate the intelligent home, the intelligent home is not started. Therefore, a method for waking up smart homes more timely with less manual operation is needed.

Disclosure of Invention

In order to enable the smart furniture to be awakened more timely but with less manual operation, the application provides an awakening method, an awakening system and a storage medium for smart home.

In a first aspect, the present application provides a method for waking up a smart home, which adopts the following technical scheme:

a smart home awakening method comprises the following steps:

acquiring outdoor temperature, judging whether the outdoor temperature is in a preset temperature range or not,

if the outdoor temperature is not within the preset temperature range, acquiring the indoor temperature, and determining the preset temperature and the preset adjusting rate according to the outdoor temperature;

determining the predicted adjusting time according to the indoor temperature, the preset temperature and the preset adjusting rate, and generating a first induction coil with the room position as the center of a circle according to the predicted adjusting time, the preset moving speed and the preset room position;

periodically acquiring the real-time position of the user, judging whether the real-time position of the user is in the first induction coil,

and if the real-time position of the user is in the first induction coil, sending a starting instruction containing a preset temperature to a preset intelligent home.

Through adopting above-mentioned technical scheme, at first confirm whether need adjust indoor temperature according to indoor outer temperature, in case confirm that indoor temperature needs adjust, generate first induction coil according to indoor outer temperature and predetermined temperature regulation rate, then monitor user's real-time position again, after user's real-time position gets into first induction coil, open intelligent house to indoor temperature is in the temperature that the user was preset just in time as far as possible when making the user arrive at home.

Optionally, after a first induction coil with the room position as the center of a circle is generated according to the predicted adjustment time, the preset moving speed and the preset room position, a second induction coil is generated by enlarging the first induction coil;

regularly acquiring the real-time position of the user, and further comprising the following steps:

judging whether the real-time position of the user is in the second induction coil,

if the real-time position of the user is in the second induction coil, acquiring the actual moving speed;

and adjusting the first induction coil according to the actual moving speed.

Optionally, acquiring the actual moving speed includes the following steps:

acquiring a plurality of real-time positions at a preset second time interval;

determining a home-returning path and a short-distance speed according to the plurality of real-time positions, and determining home-returning time according to the home-returning path and the short-distance speed;

and determining the actual moving speed according to the home returning time.

Optionally, adjusting the first induction coil according to the actual moving speed includes the following steps:

generating a third induction coil according to the actual moving speed;

acquiring the real-time position of the current user, and judging whether the real-time position of the current user is in the third induction coil;

if the real-time position of the current user is in the third induction coil, deleting the third induction coil;

and if the real-time position of the current user is not in the third induction coil, deleting the first induction coil and taking the third induction coil as the first induction coil.

Optionally, if the real-time position of the current user is in the third induction coil, deleting the third induction coil, further including the following steps:

calculating the length ratio between the radius of the third induction coil and the radius of the first induction coil;

calculating the product of the length proportion and preset output power, and taking the result as the temporary working power of the intelligent home;

when the real-time position of the user is in the first induction coil, the control terminal controls the smart home to be started and run at the temporary working power.

Optionally, after the real-time position of the user is in the first induction coil, the method further includes the following steps:

comparing whether the current real-time position of the user is farther from a preset house position than a prestored real-time position or not;

if the current user real-time position is farther from the preset house position than the prestored user real-time position, calculating the distance between the current user real-time position and the prestored real-time position, judging whether the distance exceeds the preset length, and if the distance exceeds the preset length, stopping the operation of the intelligent home;

and if the current user real-time position is not farther than the pre-stored user real-time position from the preset house position, updating the current user real-time position to the pre-stored real-time position.

In a second aspect, the present application provides a smart home wake-up system, which adopts the following technical scheme:

the utility model provides a system of awakening up of intelligent house which characterized in that: the system comprises a control terminal and a user terminal;

the user terminal is used for sending the real-time position of the user to the control terminal according to the request sent by the control terminal;

the control terminal is used for acquiring the outdoor temperature and judging whether the outdoor temperature is within a preset temperature range;

if the outdoor temperature is not within the preset temperature range, the control terminal acquires the indoor temperature again, determines the preset temperature and the preset adjusting rate according to the outdoor temperature, determines the predicted adjusting time according to the indoor temperature, the preset temperature and the preset adjusting rate, and generates a first induction coil with the room position as the center of a circle according to the predicted adjusting time, the preset moving speed and the preset room position;

the control terminal sends a request to the user terminal at a preset time interval after reaching a preset time node so as to obtain the real-time position of the user, judges whether the real-time position of the user is in the first induction coil after receiving the real-time position of the user each time,

and if the real-time position of the user is in the first induction coil, sending a starting instruction containing a preset temperature to the smart home.

In a third aspect, the present application provides a computer-readable storage medium, which stores a computer program that can be loaded by a processor and execute any one of the above-mentioned smart home wake-up methods.

In summary, the present application includes at least one of the following beneficial technical effects: whether indoor temperature needs to be adjusted is determined according to indoor and outdoor temperatures, once the indoor temperature needs to be adjusted, a first induction coil is generated according to the indoor and outdoor temperatures and a preset temperature adjusting rate, then the real-time position of a user is monitored, and after the real-time position of the user enters the first induction coil, the smart home is started so that the indoor temperature is just at the preset temperature of the user when the user arrives at home.

Drawings

Fig. 1 is an application scenario diagram according to an embodiment of the present application.

FIG. 2 is a flow chart of steps in an embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to fig. 1-2.

The embodiment of the application discloses a smart home awakening method, which is applied to an intelligent home awakening system, and is shown in figure 1. The awakening system comprises a control terminal and a user terminal, wherein the user terminal is communicated with the control terminal through the Internet, and the control terminal is connected with the intelligent home through a local area network.

And the control terminal is used for acquiring the outdoor temperature and judging whether the outdoor temperature is in a preset temperature range.

If the outdoor temperature is not within the preset temperature range, the control terminal acquires the indoor temperature again, determines the preset temperature and the preset adjusting rate according to the outdoor temperature, determines the predicted adjusting time according to the indoor temperature, the preset temperature and the preset adjusting rate, and generates a first induction coil with the room position as the center of a circle according to the predicted adjusting time, the preset moving speed and the preset room position.

The control terminal periodically acquires the real-time user position provided by the user terminal and judges whether the real-time user position is in the first induction coil,

and if the real-time position of the user is in the first induction coil, sending a starting instruction containing a preset temperature to the smart home.

The control terminal and the smart home are both installed at home of a user, and the user terminal is a user terminal such as a smart watch and a smart phone which is convenient for the user to carry. The smart home can be a device for adjusting indoor temperature, such as an air conditioner, a floor heating device and a heater, but it should be noted that the smart home connected with the control terminal needs to have two functions of heating and refrigerating, for example, the smart home connected with the control terminal is an air conditioner, or the control terminal is connected with the floor heating device and an air cooler simultaneously. For another example, when the smart home connected to the control terminal is a floor heating device having only a heating function and is not equipped with a refrigeration device such as an air conditioner or an air cooler, the control terminal cannot perform indoor cooling control.

A method for waking up a smart home, referring to fig. 2, includes the following steps:

s100, acquiring the outdoor temperature, and judging whether the outdoor temperature is in a preset temperature range.

The time node for acquiring the outdoor temperature exists and is set by the user according to the time of returning home, for example, the user only returns home at night, the time node for acquiring the outdoor temperature can be set at 16 o ' clock of the working day, and the time node for acquiring the outdoor temperature can be set at 11 o ' clock and 16 o ' clock of the working day when the user returns home at noon and night of the working day.

The outdoor temperature can be acquired in a mode that an electronic thermometer is pre-installed outdoors to detect the outdoor temperature in real time, the electronic thermometer is connected with the control terminal through a local area network, and the control terminal can call the outdoor temperature currently detected by the electronic thermometer when the time node is reached; or the control terminal accesses a weather bureau at the place through the internet to acquire the outdoor temperature of the place.

The preset temperature range refers to a temperature range which can make a human body feel comfortable, and generally refers to a temperature range from 16 degrees centigrade to 26 degrees centigrade, although the preset temperature range can also be adjusted according to the preference of the user for hot and cold.

The reason why the outdoor temperature is adopted as the judgment object and the indoor temperature is not adopted as the judgment object is that the fluctuation of the outdoor temperature is larger than that of the indoor temperature, so that whether the current temperature belongs to low temperature or high temperature or not can be judged more accurately, and the control terminal can conveniently judge whether the indoor temperature needs to be adjusted or not.

S200, if the outdoor temperature is not within the preset temperature range, acquiring the indoor temperature, and determining the preset temperature and the preset adjusting rate according to the outdoor temperature.

If the outdoor temperature is within the preset temperature range, the subsequent steps are not performed, and because the outdoor temperature is relatively not changed drastically in a short time, it is not necessary to detect the outdoor temperature again in a short time and determine whether the outdoor temperature is within the preset temperature range.

If the outdoor temperature is not within the preset temperature range, the outdoor temperature is either over-cooled or over-heated, and both the over-cooled outdoor temperature and the over-heated outdoor temperature belong to the conditions that the indoor temperature regulation needs to be started.

Determining a preset temperature and a preset adjusting rate according to the outdoor temperature, wherein the preset temperature is determined according to the outdoor temperature: the preset temperature comprises a summer preset temperature and a winter preset temperature, and when the outdoor temperature exceeds the maximum value of the preset temperature range, the summer preset temperature is selected; and when the outdoor temperature is lower than the minimum value of the preset temperature range, selecting the winter preset temperature.

The determination of the preset adjustment rate is then related to the determined preset temperature. When the summer preset temperature is selected, the preset regulation rate refers to the time required by the intelligent home for cooling to reduce the current indoor temperature by one degree centigrade under the condition of working at the preset output power; when the winter preset temperature is selected, the preset adjusting rate refers to the time required by the intelligent home for heating to increase the current indoor temperature by one degree centigrade under the condition that the intelligent home works at the preset output power. Since the smart home for heating and cooling is determined, the preset adjustment rate is also determined in advance by factory tests, daily use and the like, and the corresponding preset adjustment rate is selected according to different preset temperatures in step S200.

S300, determining expected adjusting time according to the indoor temperature, the preset temperature and the preset adjusting rate, and generating a first induction coil with the room position as a circle center according to the expected adjusting time, the preset moving speed and the preset room position.

The predicted adjusting time is obtained by calculation through a preset formula, and the specific formula is as follows: (indoor temperature-preset temperature)/preset adjustment rate, the expected adjustment time is actually an absolute value of the calculation result due to the fact that there is a negative number of difference between the indoor temperature and the preset temperature.

The first induction coil is generated in a mode that a product of the predicted adjustment time and the preset moving speed is used as a radius, and a circular area is formed on the electronic map by taking the preset house position as a circle center.

S400, regularly acquiring the real-time position of the user, judging whether the real-time position of the user is in the first induction coil, and if the real-time position of the user is in the first induction coil, sending a starting instruction containing a preset temperature to a preset intelligent home.

The step of acquiring the real-time position of the user refers to that the control terminal periodically sends a position request to the user terminal after the first induction coil is generated, and the user terminal acquires the real-time position of the user through GPS positioning according to the received position request and then transmits the real-time position of the user to the control terminal.

The step of periodically acquiring the real-time position of the user refers to the step of acquiring the real-time position of the user by the control terminal at a preset first time interval. The first time interval is set manually, typically 1 minute.

And sending a starting instruction containing a preset temperature to the preset intelligent home to enable the corresponding intelligent home to start working and take the preset temperature as an adjusting target. Of course, if the smart home does not have the temperature detection function, the smart home can be further controlled by the control terminal according to the real-time indoor temperature feedback after the control terminal is set with the corresponding control program.

In addition, if the real-time position of the user is not in the first induction coil, the control terminal does not act.

Since the predicted adjustment time and the preset moving speed adopted when the first induction coil is generated in step S300 are preset values, and have certain deviations with the actual temperature adjustment time and the actual moving speed of the user, respectively, detecting the actual temperature adjustment time and the actual moving speed of the user facilitates generation of a more accurate first induction coil, so that adjustment of the indoor temperature is more timely to reduce energy waste. However, detecting the actual temperature adjustment time requires real-time operation of the smart home, which is contrary to the objective of reducing energy waste, so that the actual moving speed of the user is the object of further detection in practice.

In one embodiment, after the first induction coil with the room position as the center is generated according to the predicted adjusting time, the preset moving speed and the preset room position, the second induction coil is generated by enlarging the first induction coil.

Specifically, the radius of the first induction coil is added with a preset increase length to form the radius of the second induction coil, and the circle center of the first induction coil is used as the circle center of the second induction coil to generate the second induction coil.

The preset increased length is three, and the three travel modes of bicycle, walking and driving are respectively adopted by corresponding users. The length increase corresponding to driving is larger than that of the corresponding bicycle, and the length increase corresponding to the bicycle is larger than that of the corresponding walking. The user determines one of the added lengths as a default added length according to the common travel mode of the user. The radius of the second coil is determined with a default incremental length when the second coil is generated.

In addition, the method for regularly acquiring the real-time position of the user further comprises the following steps:

and S410, judging whether the real-time position of the user is in the second induction coil.

When the real-time position of the user is obtained, whether the real-time position of the user is in the first induction coil or not is preferentially judged, if the real-time position of the user is in the first induction coil, the step of judging whether the real-time position of the user is in the second induction coil or not is skipped, and if the real-time position of the user is not in the first induction coil, whether the real-time position of the user is in the second induction coil or not is judged.

And S420, if the real-time position of the user is in the second induction coil, acquiring the actual moving speed.

And if the user real-time position is not in the second induction coil, continuously acquiring the next user real-time position at the first interval time.

The method for acquiring the actual moving speed comprises the following steps:

and S421, acquiring a plurality of real-time positions at a preset second time interval.

The second time interval is less than the first time interval, and is typically set to 5 seconds. The purpose of setting the first time interval in the step S is to reduce the communication frequency of the user terminal and the control terminal, thereby reducing the energy loss of the user terminal; the purpose of setting the shorter second time interval in step S421 is to increase the communication frequency between the user terminal and the control terminal, so as to acquire a plurality of real-time positions during the short-term movement of the user, thereby facilitating the subsequent reasonable analysis of the short-term movement path and the action path of the user.

S422, determining a home-returning path and a short-distance speed according to the plurality of real-time positions, and determining home-returning time according to the home-returning path and the short-distance speed.

The home-returning path refers to a predicted path from the current position to a preset house position of the user.

The short-distance speed refers to a moving speed of the user under the current path.

The time to return home refers to the time required for the user to complete the return home path at a short distance speed.

Determining a user moving path containing the places according to the plurality of real-time positions, determining the distance between the real-time positions acquired by adjacent intervals according to the user moving path, obtaining the user speed by calculating the quotient of each distance and the second time interval, and taking the average of all the user speeds as the short-distance speed of the user.

And different moving modes of the user correspond to different speed ranges, and the specific moving mode of the user is determined according to the short-distance speed. And determining a home-returning path which is suitable for the moving mode of the user and leads from the current moving path of the user to the preset house position according to the moving mode of the user.

And determining the length to be moved according to the home-returning path, and dividing the length to be moved by the actual moving speed to obtain the home-returning time.

And S423, determining the actual moving speed according to the time of returning home.

The actual moving speed is the speed required for straight-line travel from the current position of the user to the preset house position with the home returning time as the limit. Therefore, in step S423, after the linear distance from the current location of the user to the preset house location is calculated, the linear distance is divided by the time of returning home to obtain the actual moving speed.

And S430, adjusting the first induction coil according to the actual moving speed.

Before adjusting the first induction coil, whether the actual moving speed is consistent with the preset moving speed is judged.

If the actual moving speed is consistent with the preset moving speed, the first induction coil is not adjusted.

The actual moving speed is consistent with the preset moving speed and is not only the same as the index value, but a speed permission range is formed by adding a preset permission error to the preset moving speed, and as long as the actual moving speed is within the speed permission range, the actual moving speed is considered to be consistent with the preset moving speed. And when the actual moving speed is not in the speed allowable range, the actual moving speed is considered to be inconsistent with the preset moving speed.

And if the actual moving speed is not consistent with the preset moving speed, continuously adjusting the first induction coil.

In one embodiment, adjusting the first coil based on the actual moving speed comprises the following steps:

and S431, generating a third induction coil according to the actual moving speed.

The third induction coil is generated in a mode that the product of the predicted adjusting time and the actual moving speed is used as a radius, and a circular area is formed on the electronic map by taking the preset house position as the center of a circle.

S432, acquiring the real-time position of the current user, and judging whether the real-time position of the current user is in the third induction coil.

And S433, if the real-time position of the current user is in the third induction coil, deleting the third induction coil.

When the user moves at a slow speed, the radius of the third induction coil is smaller than that of the first induction coil, and the user cannot enter the third induction coil immediately.

And when user's translation rate was too fast, the radius of third induction coil was greater than the radius of first induction coil, appeared the condition in the user had entered into the third induction coil when control terminal generated the third induction coil easily, just so even start smart home immediately, also probably can't accomplish the regulation of indoor temperature when the user arrives at home, that is to say, the third induction coil has lost the effect, delete the third induction coil can.

After the situation occurs, the possibility of finishing indoor temperature adjustment when a user arrives at home is further improved, and the working power of the smart home can be accelerated.

In one embodiment, if the real-time location of the current user is within the third coil, deleting the third coil, further comprising:

s4331, calculating the length ratio between the radius of the third induction coil and the radius of the first induction coil.

S4332, calculating the product of the length proportion and the preset output power, and taking the result as the temporary working power of the smart home.

S4333, when the real-time position of the user is in the first induction coil, the control terminal controls the smart home to start and operate at the temporary working power.

Because the output power of the smart home is often graded and cannot be flexibly adjusted, in actual use, the control terminal can control the smart home to operate at the shared output power closest to the temporary working power.

And S434, if the real-time position of the current user is not in the third induction coil, deleting the first induction coil, and taking the third induction coil as the first induction coil.

In addition, if the real-time position of the user is in the first induction coil, the method further comprises the following steps:

s310, comparing whether the current real-time position of the user is farther than the pre-stored real-time position from the preset house position.

The purpose of the setting step S310 is to determine whether the user does not go home midway, and further, it is beneficial to make a reasonable arrangement on whether the smart home continues to operate.

When the control terminal reaches the preset time node and judges that the real-time position of the user is in the first induction coil for the first time, the real-time position of the user is stored as a pre-stored real-time position by the control terminal. And after the real-time position of the user reaches the preset house position or the intelligent home stops working, the control terminal clears the pre-stored real-time position.

S320, if the current user real-time position is farther from the preset house position than the prestored user real-time position, calculating the distance between the current user real-time position and the prestored real-time position, judging whether the distance exceeds the preset length, and if the distance exceeds the preset length, stopping the operation of the intelligent home.

And if the distance does not exceed the preset length, continuing to operate the intelligent home.

Under the condition that the user is far away from the preset house position, in order to reduce misjudgment, the control terminal needs to judge whether the user is far enough, namely whether the moving distance exceeds the preset length, and only if the moving distance is far enough, the user is considered as that the user does not go home midway, so that the operation of the smart home is stopped.

The preset length is a parameter set by a person and is typically 5-10 meters.

And S330, if the current user real-time position is not farther than the pre-stored user real-time position from the preset house position, updating the current user real-time position to the pre-stored real-time position.

The embodiment of the application also discloses a wake-up system for smart home, which is shown in fig. 1 and comprises a control terminal and a user terminal.

And the user terminal is used for sending the real-time position of the user to the control terminal according to the request sent by the control terminal.

And the control terminal is used for acquiring the outdoor temperature and judging whether the outdoor temperature is in a preset temperature range.

If the outdoor temperature is not within the preset temperature range, the control terminal acquires the indoor temperature again, determines the preset temperature and the preset adjusting rate according to the outdoor temperature, determines the predicted adjusting time according to the indoor temperature, the preset temperature and the preset adjusting rate, and generates a first induction coil with the room position as the center of a circle according to the predicted adjusting time, the preset moving speed and the preset room position.

The control terminal sends a request to the user terminal at a preset time interval after reaching a preset time node so as to obtain the real-time position of the user, judges whether the real-time position of the user is in the first induction coil after receiving the real-time position of the user each time,

and if the real-time position of the user is in the first induction coil, sending a starting instruction containing a preset temperature to the smart home.

In addition, the control terminal is also used for establishing a second induction coil and judging whether the real-time position of the user is in the second induction coil. And if the real-time position of the user is in the second induction coil, the control terminal adjusts the first induction coil according to the continuous real-time positions of the plurality of users.

An embodiment of the present application further provides a computer-readable storage medium, which stores a computer program that can be loaded by a processor and execute any one of the above-mentioned smart home wake-up methods

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The smart home awakening method is characterized by comprising the following steps:

acquiring outdoor temperature, judging whether the outdoor temperature is in a preset temperature range or not,

if the outdoor temperature is not within the preset temperature range, acquiring the indoor temperature, and determining the preset temperature and the preset adjusting rate according to the outdoor temperature;

determining the predicted adjusting time according to the indoor temperature, the preset temperature and the preset adjusting rate, and generating a first induction coil with the room position as the center of a circle according to the predicted adjusting time, the preset moving speed and the preset room position;

regularly acquiring the real-time position of the user, judging whether the real-time position of the user is in the first induction coil or not,

and if the real-time position of the user is in the first induction coil, sending a starting instruction containing a preset temperature to a preset intelligent home.

2. The smart home awakening method according to claim 1, wherein the method comprises the following steps: generating a first induction coil with the room position as the center of a circle according to the estimated adjusting time, the preset moving speed and the preset room position, and then generating a second induction coil by enlarging the first induction coil;

regularly acquiring the real-time position of the user, and further comprising the following steps:

judging whether the real-time position of the user is in the second induction coil,

if the real-time position of the user is in the second induction coil, acquiring the actual moving speed;

and adjusting the first induction coil according to the actual moving speed.

3. The smart home awakening method according to claim 2, wherein the step of obtaining the actual moving speed comprises the following steps:

acquiring a plurality of real-time positions at a preset second time interval;

determining a home-returning path and a short-distance speed according to the plurality of real-time positions, and determining home-returning time according to the home-returning path and the short-distance speed;

and determining the actual moving speed according to the time of returning home.

4. The smart home awakening method according to claim 2, wherein the first induction coil is adjusted according to the actual moving speed, and the method comprises the following steps:

generating a third induction coil according to the actual moving speed;

acquiring the real-time position of the current user, and judging whether the real-time position of the current user is in the third induction coil;

if the real-time position of the current user is in the third induction coil, deleting the third induction coil;

and if the real-time position of the current user is not in the third induction coil, deleting the first induction coil and taking the third induction coil as the first induction coil.

5. The smart home awakening method according to claim 4, wherein if the real-time position of the current user is in the third induction coil, the third induction coil is deleted, and the method further comprises the following steps:

calculating the length ratio between the radius of the third induction coil and the radius of the first induction coil;

calculating the product of the length proportion and preset output power, and taking the result as the temporary working power of the smart home;

when the real-time position of the user is in the first induction coil, the control terminal controls the smart home to be started and run at the temporary working power.

6. The smart home awakening method according to claim 1, further comprising the following steps of if the real-time position of the user is in the first induction coil:

comparing whether the current real-time position of the user is farther from the preset house position than the prestored real-time position;

if the current user real-time position is farther from the preset house position than the prestored user real-time position, calculating the distance between the current user real-time position and the prestored real-time position, judging whether the distance exceeds the preset length, and if the distance exceeds the preset length, stopping the operation of the intelligent home;

and if the current user real-time position is not farther than the pre-stored user real-time position from the preset house position, updating the current user real-time position to the pre-stored real-time position.

7. The utility model provides a system of awakening up of intelligent house which characterized in that: the system comprises a control terminal and a user terminal;

the user terminal is used for sending the real-time position of the user to the control terminal according to the request sent by the control terminal;

the control terminal is used for acquiring the outdoor temperature and judging whether the outdoor temperature is within a preset temperature range;

if the outdoor temperature is not within the preset temperature range, the control terminal acquires the indoor temperature again, determines the preset temperature and the preset regulation rate according to the outdoor temperature, determines the predicted regulation time according to the indoor temperature, the preset temperature and the preset regulation rate, and generates a first induction coil taking the room position as the circle center according to the predicted regulation time, the preset moving speed and the preset room position;

the control terminal sends a request to the user terminal at a preset time interval after reaching a preset time node so as to obtain the real-time position of the user, judges whether the real-time position of the user is in the first induction coil after receiving the real-time position of the user each time,

and if the real-time position of the user is in the first induction coil, sending a starting instruction containing a preset temperature to the smart home.

8. A computer-readable storage medium, in which a computer program is stored, which can be loaded by a processor and which performs a wake-up method for a smart home according to any one of claims 1 to 6.

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