CN105511280B - A kind of indoor remote intelligent control system and method based on human body positioning - Google Patents

Abstract

This application discloses a kind of indoor remote intelligent control systems based on human body positioning and method, the system to include：Trigger, for when current time is consistent with preset next moment, generating corresponding orientation triggering and controlling signal；Human body positioning tracker, under the control that orientation triggering controls signal, starting the real time position locating and tracking to hand-held intelligent terminal, obtaining user's After Hours corresponding human body real-time tracking route；Proportion calculator is calculated in real time for the identical ratio between human body real-time tracking route and preset route of coming home from work, and obtains corresponding route identical ratio in real time；Remote control signal generator, for when route coincide ratio more than default identical ratio in real time, generating remote signal, and remote signal is sent to the intelligent home equipment in user residence.The application further increases the convenience that people live at home, has built a more hommization and intelligentized home environment.

Description

Indoor remote intelligent control system and method based on human body positioning

Technical Field

The invention relates to the technical field of remote control, in particular to an indoor remote intelligent control system and method based on human body positioning.

Background

With the development of social economy and the improvement of living standard of people, the quality of life of people at home is better and better, and various hardware supporting facilities are more and more perfect.

However, for many employees in the workplace now, especially for single-or dual-worker households, the household electrical equipment can be started after the employees return to the home every day through the laborious work, so as to construct a comfortable home life rest environment, such as making a pot of delicious rice by starting an electric rice cooker, making the indoor temperature consistent with the comfortable temperature of the human body by starting an air conditioner, or boiling a barrel of hot water for bathing by starting a water heater, etc. However, the working process of any of the above electrical devices consumes a certain amount of time, and people are tired enough during work and when they are running on the way to home from work, and can start the relevant electrical device after home and need to wait for a certain amount of time, which obviously does not benefit the convenience of people's home life.

In conclusion, how to further improve the convenience of the people's home life to create a more humanized home environment is a problem to be solved at present.

Disclosure of Invention

In view of this, the present invention provides an indoor remote intelligent control system and method based on human body positioning, which further improve the convenience of people's home life, thereby creating a more humanized home environment. The specific scheme is as follows:

an indoor remote intelligent control system based on human body positioning comprises a trigger, a human body positioning tracker, a proportion calculator and a remote control signal generator which are all arranged in a user handheld intelligent terminal; wherein,

the trigger is used for generating a corresponding positioning trigger control signal when the current time displayed on the handheld intelligent terminal is consistent with the preset off-duty time;

the human body positioning tracker is used for starting the real-time position positioning tracking of the handheld intelligent terminal under the control of the positioning trigger control signal to obtain a corresponding human body real-time tracking route of the user after work;

the proportion calculator is used for calculating the coincidence proportion between the human body real-time tracking route and a preset off-duty returning route in real time to obtain the corresponding route real-time coincidence proportion;

and the remote control signal generator is used for generating a remote control signal when the real-time matching proportion of the route is greater than a preset matching proportion, and sending the remote control signal to the intelligent household equipment in the residence of the user so as to remotely control the intelligent household equipment to start a corresponding working mode.

Preferably, the indoor remote intelligent control system further includes:

and the positioning closing device is used for generating a corresponding positioning closing control signal after the human body real-time tracking route acquired by the human body positioning tracker shows that the user arrives at home, so as to control the human body positioning tracker to stop positioning and tracking the handheld intelligent terminal.

Preferably, the ratio calculator includes:

the first proportion calculator is used for calculating the coincidence proportion between the real-time human body tracking route and a preset first off-duty returning route in real time to obtain a corresponding first real-time coincidence proportion; the first off-duty returning route is an off-duty route for driving a self-service automobile to return home;

the second proportion calculator is used for calculating the matching proportion between the human body real-time tracking route and a preset second off-duty returning route in real time to obtain a corresponding second real-time matching proportion; wherein the second off-duty returning route is an off-duty route for returning home by taking public transportation;

the third proportion calculator is used for calculating the coincidence proportion between the human body real-time tracking route and a preset third off-duty returning route in real time to obtain a corresponding third real-time coincidence proportion; wherein, the third off-duty returning route is an off-duty route for walking or riding a bicycle to return home;

and the comparator is used for determining the real-time coincidence proportion with the maximum proportion value in the first real-time coincidence proportion, the second real-time coincidence proportion and the third real-time coincidence proportion as the route real-time coincidence proportion.

Preferably, the remote control signal generator includes:

and the first remote control signal generator is used for generating a first remote control signal when the real-time matching proportion of the route is greater than a first preset matching proportion, and sending the first remote control signal to the intelligent electric cooker in the residence of the user so as to remotely control the intelligent electric cooker to start the cooking mode.

Preferably, the remote control signal generator further comprises:

and the second remote control signal generator is used for generating a second remote control signal when the real-time matching proportion of the route is greater than a second preset matching proportion, and sending the second remote control signal to the intelligent water heater in the user residence so as to remotely control the intelligent water heater to start the heating mode.

Preferably, the remote control signal generator further comprises:

and the third remote control signal generator is used for generating a third remote control signal when the real-time matching proportion of the route is larger than a third preset matching proportion, and sending the third remote control signal to the intelligent room temperature adjusting equipment in the user residence so as to remotely control the intelligent room temperature adjusting equipment to start a room temperature adjusting mode.

Preferably, the intelligent room temperature adjusting device comprises an intelligent air conditioner, an intelligent triple-constant system device or an intelligent geothermal device.

The invention also discloses an indoor remote intelligent control method based on human body positioning, which comprises the following steps:

when the current time displayed on the handheld intelligent terminal of the user is consistent with the preset off-duty time, generating a corresponding positioning trigger control signal;

under the control of the positioning trigger control signal, starting the real-time position positioning tracking of the handheld intelligent terminal to obtain a corresponding human body real-time tracking route of the user after work;

calculating the coincidence proportion between the real-time human body tracking route and a preset off-duty returning route in real time to obtain the corresponding real-time coincidence proportion of the routes;

and when the real-time matching proportion of the route is larger than the preset matching proportion, generating a remote control signal, and sending the remote control signal to the intelligent household equipment in the residence of the user so as to remotely control the intelligent household equipment to start a corresponding working mode.

Preferably, the process of calculating the matching proportion between the real-time human body tracking route and the preset route from work to home in real time to obtain the corresponding real-time matching proportion of the route includes:

calculating the coincidence proportion between the real-time human body tracking route and a preset first off-duty returning route in real time to obtain a corresponding first real-time coincidence proportion; the first off-duty returning route is an off-duty route for driving a self-service automobile to return home;

calculating the coincidence proportion between the human body real-time tracking route and a preset second off-duty returning route in real time to obtain a corresponding second real-time coincidence proportion; wherein the second off-duty returning route is an off-duty route for returning home by taking public transportation;

calculating the coincidence proportion between the real-time human body tracking route and a preset third off-duty returning route in real time to obtain a corresponding third real-time coincidence proportion; wherein, the third off-duty returning route is an off-duty route for walking or riding a bicycle to return home;

and determining the real-time coincidence proportion with the maximum proportion value in the first real-time coincidence proportion, the second real-time coincidence proportion and the third real-time coincidence proportion as the route real-time coincidence proportion.

Preferably, the process of generating a remote control signal and sending the remote control signal to the smart home device in the residence of the user when the real-time matching proportion of the route is greater than a preset matching proportion so as to remotely control the smart home device to start a corresponding working mode includes:

when the real-time matching proportion of the route is larger than a first preset matching proportion, generating a first remote control signal, and sending the first remote control signal to an intelligent electric cooker in a user residence so as to remotely control the intelligent electric cooker to start a cooking mode;

when the real-time matching proportion of the route is larger than a second preset matching proportion, generating a second remote control signal, and sending the second remote control signal to an intelligent water heater in a user residence so as to remotely control the intelligent water heater to start a heating mode;

when the real-time matching proportion of the route is larger than a third preset matching proportion, generating a third remote control signal, and sending the third remote control signal to intelligent room temperature adjusting equipment in a user residence so as to remotely control the intelligent room temperature adjusting equipment to start a room temperature adjusting mode; the intelligent room temperature adjusting device comprises an intelligent air conditioner, an intelligent three-constant system device or an intelligent geothermal device.

The invention relates to an indoor remote intelligent control system, which comprises a trigger, a human body positioning tracker, a proportion calculator and a remote control signal generator which are all arranged in a user handheld intelligent terminal; the trigger is used for generating a corresponding positioning trigger control signal when the current time displayed on the handheld intelligent terminal is consistent with the preset off-duty time; the human body positioning tracker is used for starting the real-time position positioning tracking of the handheld intelligent terminal under the control of the positioning trigger control signal to obtain a corresponding human body real-time tracking route of the user after work; the proportion calculator is used for calculating the coincidence proportion between the real-time human body tracking route and a preset route going home from work in real time to obtain the corresponding real-time coincidence proportion of the routes; and the remote control signal generator is used for generating a remote control signal when the real-time matching proportion of the route is greater than the preset matching proportion, and sending the remote control signal to the intelligent household equipment in the residence of the user so as to remotely control the intelligent household equipment to start a corresponding working mode. Therefore, in the invention, the remote control signal generator can obtain the real-time matching proportion of the route calculated by the proportion calculator in real time, and when the real-time matching proportion of the route is greater than the preset matching proportion, the remote control signal can be generated to remotely control the corresponding intelligent household equipment to start the corresponding working mode, so that the intelligent household equipment in a house can be remotely controlled by the remote control signal generated by the remote control signal generator before people return home, the convenience of the home life of people is further improved, and a more humanized and intelligent home environment is created.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an indoor remote intelligent control system based on human body positioning according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a specific indoor remote intelligent control system based on human body positioning according to an embodiment of the present invention;

fig. 3 is a flowchart of an indoor remote intelligent control method based on human body positioning according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention discloses an indoor remote intelligent control system based on human body positioning, which comprises a trigger 11, a human body positioning tracker 12, a proportion calculator 13 and a remote control signal generator 14, wherein the trigger 11, the human body positioning tracker 12, the proportion calculator 13 and the remote control signal generator 14 are all arranged in a handheld intelligent terminal of a user; wherein,

the trigger 11 is used for generating a corresponding positioning trigger control signal when the current time displayed on the handheld intelligent terminal is consistent with a preset off-duty time;

the human body positioning tracker 12 is used for starting real-time position positioning tracking of the handheld intelligent terminal under the control of the positioning trigger control signal to obtain a corresponding human body real-time tracking route of the user after work;

the proportion calculator 13 is used for calculating the coincidence proportion between the real-time human body tracking route and a preset route going home from work in real time to obtain the corresponding real-time coincidence proportion of the routes;

and the remote control signal generator 14 is used for generating a remote control signal when the real-time matching proportion of the route is greater than the preset matching proportion, and sending the remote control signal to the intelligent household equipment in the residence of the user so as to remotely control the intelligent household equipment to start a corresponding working mode.

The real-time matching proportion of the routes substantially refers to the coincidence degree of the human body real-time tracking route and a preset route going home from work, and the larger the value of the coincidence degree is, the closer the user is to the home at the moment. For example, when the real-time matching ratio of the route is 30%, it means that the user has left 70% of the total distance from the residence, and when the real-time matching ratio of the route is 90%, it means that the user has left 10% of the total distance from the residence.

It will be appreciated that the flip-flop 11 described above is essentially a timing flip-flop; the human body positioning tracker 12 may specifically include a positioning chip for detecting a real-time human body tracking route and a memory for storing the real-time human body tracking route, wherein the positioning chip may be a common positioning chip such as a GPS chip or a beidou chip; the proportion calculator 13 is a calculating unit integrated on a CPU of the handheld intelligent terminal; the remote control signal generator 14 may specifically include a signal generating circuit for generating a remote control signal, a signal encoding circuit for encoding the remote control signal generated by the signal generating circuit, and a wireless data transmitting circuit for remotely transmitting encoded information output by the signal encoding circuit through a mobile communication network.

In the embodiment of the invention, the indoor remote intelligent control system comprises a trigger, a human body positioning tracker, a proportion calculator and a remote control signal generator which are all arranged in a user handheld intelligent terminal; the trigger is used for generating a corresponding positioning trigger control signal when the current time displayed on the handheld intelligent terminal is consistent with the preset off-duty time; the human body positioning tracker is used for starting the real-time position positioning tracking of the handheld intelligent terminal under the control of the positioning trigger control signal to obtain a corresponding human body real-time tracking route of the user after work; the proportion calculator is used for calculating the coincidence proportion between the real-time human body tracking route and a preset route going home from work in real time to obtain the corresponding real-time coincidence proportion of the routes; and the remote control signal generator is used for generating a remote control signal when the real-time matching proportion of the route is greater than the preset matching proportion, and sending the remote control signal to the intelligent household equipment in the residence of the user so as to remotely control the intelligent household equipment to start a corresponding working mode.

Therefore, in the embodiment of the invention, the remote control signal generator can obtain the real-time matching proportion of the route calculated by the proportion calculator in real time, and when the real-time matching proportion of the route is greater than the preset matching proportion, the remote control signal can be generated to remotely control the corresponding intelligent household equipment to start the corresponding working mode, so that the intelligent household equipment in a house can be remotely controlled by the remote control signal generated by the remote control signal generator before people return home, the convenience of the home life of people is further improved, and a more humanized and intelligent home environment is created.

The embodiment of the invention discloses a specific indoor remote intelligent control system based on human body positioning, and compared with the previous embodiment, the embodiment further explains and optimizes the technical scheme. Specifically, the method comprises the following steps:

in order to avoid a large amount of power consumption of the handheld intelligent terminal when the user has arrived at home, in this embodiment, the indoor remote intelligent control system may further include: and the positioning closing device is used for generating a corresponding positioning closing control signal after the human body real-time tracking route acquired by the human body positioning tracker shows that the user has arrived at home so as to control the human body positioning tracker to stop positioning and tracking the handheld intelligent terminal.

Considering that the home-returning modes adopted by people after work in ordinary times may be different, such as taking a subway, a bus, self-driving, riding a bicycle or walking, etc., the time spent in different home-returning modes is obviously different. Correspondingly, in this embodiment, referring to fig. 2, the ratio calculator 13 may specifically include a first ratio calculator 131, a second ratio calculator 132, a third ratio calculator 133, and a comparator 134; wherein,

the first proportion calculator 131 is used for calculating the coincidence proportion between the real-time human body tracking route and a preset first trip route in real time to obtain a corresponding first real-time coincidence proportion; the first off-duty returning route is an off-duty route for driving a self-service automobile to return home;

the second proportion calculator 132 is configured to calculate an coincidence proportion between the real-time human body tracking route and a preset second leaving-home route in real time, so as to obtain a corresponding second real-time coincidence proportion; the second off-duty returning route is an off-duty route for taking public transportation to return home;

a third proportion calculator 133, configured to calculate an agreement proportion between the real-time human body tracking route and a preset third leaving-home route in real time, so as to obtain a corresponding third real-time agreement proportion; wherein the third off-duty returning route is an off-duty route for walking or riding a bicycle to return home;

and a comparator 134 for determining a real-time matching proportion with the largest proportion value among the first real-time matching proportion, the second real-time matching proportion and the third real-time matching proportion as the route real-time matching proportion.

Further, in consideration of the difference between the time required for the working processes of different smart home devices, in this embodiment, the remote control signal generator 14 may specifically include a first remote control signal generator 141, a second remote control signal generator 142, and a third remote control signal generator 143; wherein,

and the first remote control signal generator 141 is configured to generate a first remote control signal when the real-time matching ratio of the route is greater than a first preset matching ratio, and send the first remote control signal to the intelligent electric cooker in the user's residence so as to remotely control the intelligent electric cooker to start the cooking mode.

And the second remote control signal generator 142 is configured to generate a second remote control signal when the real-time matching proportion of the route is greater than a second preset matching proportion, and send the second remote control signal to the intelligent water heater in the user's residence so as to remotely control the intelligent water heater to start the heating mode.

And the third remote control signal generator 143 is configured to generate a third remote control signal when the real-time matching ratio of the route is greater than a third preset matching ratio, and send the third remote control signal to the intelligent room temperature adjusting device in the user's residence, so as to remotely control the intelligent room temperature adjusting device to start the room temperature adjusting mode.

Wherein, above-mentioned intelligence room temperature regulation equipment specifically includes three permanent system's of intelligence air conditioner, intelligence equipment or intelligent geothermal equipment, of course, also can include hanging heating stove etc..

The above is merely a specific example of the remote control signal generator 14, and one may remotely control an indoor air cleaner, a cleaning robot, a heating mattress, an indoor ventilator, or the like through the remote control signal generator.

In addition, it can be understood that the intelligent household devices such as the intelligent electric cooker, the intelligent water heater, the intelligent room temperature adjusting device, the air purifier, the cleaning robot and the like all comprise corresponding signal receiving circuits, signal decoding circuits and control chips which perform corresponding action responses according to signals decoded by the signal decoding circuits.

The embodiment of the invention also discloses an indoor remote intelligent control method based on human body positioning, which is shown in figure 3 and comprises the following steps:

step S31: when the current time displayed on the handheld intelligent terminal of the user is consistent with the preset off-duty time, generating a corresponding positioning trigger control signal;

step S32: under the control of the positioning trigger control signal, starting the real-time position positioning and tracking of the handheld intelligent terminal to obtain a corresponding human body real-time tracking route of the user after work;

step S33: calculating the coincidence proportion between the real-time tracking route of the human body and a preset route of going home from work in real time to obtain the corresponding real-time coincidence proportion of the routes;

step S34: and when the real-time matching proportion of the route is larger than the preset matching proportion, generating a remote control signal, and sending the remote control signal to the intelligent household equipment in the residence of the user so as to remotely control the intelligent household equipment to start a corresponding working mode.

Wherein, the step S33 specifically includes:

step S331: calculating the coincidence proportion between the real-time human body tracking route and a preset first off-duty returning route in real time to obtain a corresponding first real-time coincidence proportion; the first off-duty returning route is an off-duty route for driving a self-service automobile to return home;

step S332: calculating the coincidence proportion between the real-time human body tracking route and a preset second off-duty returning route in real time to obtain a corresponding second real-time coincidence proportion; the second off-duty returning route is an off-duty route for taking public transportation to return home;

step S333: calculating the coincidence proportion between the real-time human body tracking route and a preset third off-duty returning route in real time to obtain a corresponding third real-time coincidence proportion; wherein the third off-duty returning route is an off-duty route for walking or riding a bicycle to return home;

step S334: and determining one real-time coincidence proportion with the largest proportion value in the first real-time coincidence proportion, the second real-time coincidence proportion and the third real-time coincidence proportion as the route real-time coincidence proportion.

Further, considering that the time required for the working process of different smart home devices may be different, the specific process of step S34 includes:

step S341: when the real-time matching proportion of the route is larger than a first preset matching proportion, generating a first remote control signal, and sending the first remote control signal to the intelligent electric cooker in the residence of the user so as to remotely control the intelligent electric cooker to start a cooking mode;

step S342: when the real-time matching proportion of the route is larger than a second preset matching proportion, generating a second remote control signal, and sending the second remote control signal to the intelligent water heater in the user residence so as to remotely control the intelligent water heater to start a heating mode;

step S343: when the real-time matching proportion of the route is larger than a third preset matching proportion, generating a third remote control signal, and sending the third remote control signal to intelligent room temperature adjusting equipment in a user residence so as to remotely control the intelligent room temperature adjusting equipment to start a room temperature adjusting mode; the intelligent room temperature adjusting device comprises an intelligent air conditioner, an intelligent three-constant system device or an intelligent geothermal device.

Therefore, in the embodiment of the invention, the real-time matching proportion of the calculated route is obtained, and when the real-time matching proportion of the route is greater than the preset matching proportion, the remote control signal is generated to remotely control the corresponding intelligent household equipment to start the corresponding working mode through the remote control signal, so that the intelligent household equipment in a house can be remotely controlled by people before the people return home, the convenience of the family life of the people is further improved, and a more humanized and intelligent home environment is created.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The above detailed description is provided for the indoor remote intelligent control system and method based on human body positioning, and the specific examples are applied in the description to explain the principle and implementation of the present invention, and the description of the above embodiments is only used to help understanding the method and the core idea of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (8)

1. An indoor remote intelligent control system based on human body positioning is characterized by comprising a trigger, a human body positioning tracker, a proportion calculator and a remote control signal generator which are all arranged in a user handheld intelligent terminal; wherein,

the trigger is used for generating a corresponding positioning trigger control signal when the current time displayed on the handheld intelligent terminal is consistent with the preset off-duty time;

the human body positioning tracker is used for starting the real-time position positioning tracking of the handheld intelligent terminal under the control of the positioning trigger control signal to obtain a corresponding human body real-time tracking route of the user after work;

the proportion calculator is used for calculating the coincidence proportion between the human body real-time tracking route and a preset off-duty returning route in real time to obtain the corresponding route real-time coincidence proportion;

the remote control signal generator is used for generating a remote control signal when the real-time matching proportion of the route is larger than a preset matching proportion, and sending the remote control signal to the intelligent household equipment in the residence of the user so as to remotely control the intelligent household equipment to start a corresponding working mode;

wherein the ratio calculator includes:

the first proportion calculator is used for calculating the coincidence proportion between the real-time human body tracking route and a preset first off-duty returning route in real time to obtain a corresponding first real-time coincidence proportion; the first off-duty returning route is an off-duty route for driving a self-service automobile to return home;

the second proportion calculator is used for calculating the matching proportion between the human body real-time tracking route and a preset second off-duty returning route in real time to obtain a corresponding second real-time matching proportion; wherein the second off-duty returning route is an off-duty route for returning home by taking public transportation;

the third proportion calculator is used for calculating the coincidence proportion between the human body real-time tracking route and a preset third off-duty returning route in real time to obtain a corresponding third real-time coincidence proportion; wherein, the third off-duty returning route is an off-duty route for walking or riding a bicycle to return home;

and the comparator is used for determining the real-time coincidence proportion with the maximum proportion value in the first real-time coincidence proportion, the second real-time coincidence proportion and the third real-time coincidence proportion as the route real-time coincidence proportion.

2. The indoor remote intelligent control system based on human body positioning as claimed in claim 1, further comprising:

and the positioning closing device is used for generating a corresponding positioning closing control signal after the human body real-time tracking route acquired by the human body positioning tracker shows that the user arrives at home, so as to control the human body positioning tracker to stop positioning and tracking the handheld intelligent terminal.

3. The human body positioning-based indoor remote intelligent control system according to claim 1 or 2, wherein the remote control signal generator comprises:

and the first remote control signal generator is used for generating a first remote control signal when the real-time matching proportion of the route is greater than a first preset matching proportion, and sending the first remote control signal to the intelligent electric cooker in the residence of the user so as to remotely control the intelligent electric cooker to start the cooking mode.

4. The human body positioning-based indoor remote intelligent control system of claim 3, wherein the remote control signal generator further comprises:

and the second remote control signal generator is used for generating a second remote control signal when the real-time matching proportion of the route is greater than a second preset matching proportion, and sending the second remote control signal to the intelligent water heater in the user residence so as to remotely control the intelligent water heater to start the heating mode.

5. The human body positioning-based indoor remote intelligent control system according to claim 4, wherein the remote control signal generator further comprises:

and the third remote control signal generator is used for generating a third remote control signal when the real-time matching proportion of the route is larger than a third preset matching proportion, and sending the third remote control signal to the intelligent room temperature adjusting equipment in the user residence so as to remotely control the intelligent room temperature adjusting equipment to start a room temperature adjusting mode.

6. The human positioning-based indoor remote intelligent control system of claim 5, wherein the intelligent room temperature adjusting device comprises an intelligent air conditioner, an intelligent triple system device or an intelligent geothermal device.

7. An indoor remote intelligent control method based on human body positioning is characterized by comprising the following steps:

when the current time displayed on the handheld intelligent terminal of the user is consistent with the preset off-duty time, generating a corresponding positioning trigger control signal;

under the control of the positioning trigger control signal, starting the real-time position positioning tracking of the handheld intelligent terminal to obtain a corresponding human body real-time tracking route of the user after work;

calculating the coincidence proportion between the real-time human body tracking route and a preset off-duty returning route in real time to obtain the corresponding real-time coincidence proportion of the routes;

when the real-time matching proportion of the route is larger than the preset matching proportion, generating a remote control signal, and sending the remote control signal to the intelligent household equipment in the residence of the user so as to remotely control the intelligent household equipment to start a corresponding working mode;

the process of calculating the coincidence proportion between the human body real-time tracking route and the preset route going home from work in real time to obtain the corresponding route real-time coincidence proportion comprises the following steps:

calculating the coincidence proportion between the real-time human body tracking route and a preset first off-duty returning route in real time to obtain a corresponding first real-time coincidence proportion; the first off-duty returning route is an off-duty route for driving a self-service automobile to return home;

calculating the coincidence proportion between the human body real-time tracking route and a preset second off-duty returning route in real time to obtain a corresponding second real-time coincidence proportion; wherein the second off-duty returning route is an off-duty route for returning home by taking public transportation;

calculating the coincidence proportion between the real-time human body tracking route and a preset third off-duty returning route in real time to obtain a corresponding third real-time coincidence proportion; wherein, the third off-duty returning route is an off-duty route for walking or riding a bicycle to return home;

and determining the real-time coincidence proportion with the maximum proportion value in the first real-time coincidence proportion, the second real-time coincidence proportion and the third real-time coincidence proportion as the route real-time coincidence proportion.

8. The human body positioning-based indoor remote intelligent control method according to claim 7, wherein the process of generating a remote control signal and sending the remote control signal to the smart home devices in the user's residence to remotely control the smart home devices to start the corresponding working mode when the real-time matching ratio of the route is greater than the preset matching ratio comprises:

when the real-time matching proportion of the route is larger than a first preset matching proportion, generating a first remote control signal, and sending the first remote control signal to an intelligent electric cooker in a user residence so as to remotely control the intelligent electric cooker to start a cooking mode;

when the real-time matching proportion of the route is larger than a second preset matching proportion, generating a second remote control signal, and sending the second remote control signal to an intelligent water heater in a user residence so as to remotely control the intelligent water heater to start a heating mode;

when the real-time matching proportion of the route is larger than a third preset matching proportion, generating a third remote control signal, and sending the third remote control signal to intelligent room temperature adjusting equipment in a user residence so as to remotely control the intelligent room temperature adjusting equipment to start a room temperature adjusting mode; the intelligent room temperature adjusting device comprises an intelligent air conditioner, an intelligent three-constant system device or an intelligent geothermal device.