CN107101326B - Method and system for controlling intelligent air conditioner based on mobile terminal and mobile terminal - Google Patents

Abstract

The invention discloses a method, a system and a mobile terminal for controlling an intelligent air conditioner based on the mobile terminal, wherein the mobile terminal is in communication connection with the intelligent air conditioner in a wireless communication mode; the mobile terminal receives a control instruction of a user through an application and then sends data of the control instruction to the intelligent air conditioner; after receiving the data sent by the mobile terminal, the intelligent air conditioner analyzes the data of the control command, judges the type of the current control command and executes the current control command; and after the mobile terminal sends the control instruction, waiting for the feedback information of the intelligent air conditioner, and when the intelligent air conditioner receives the control instruction, feeding back the execution result information to the mobile terminal. According to the invention, the mobile terminal sends the corresponding control command to the intelligent air conditioner, so that the automatic control of the intelligent air conditioner is realized, manual control can be performed through the interface, a user does not need to find a remote controller, the terminal can automatically turn on the air conditioner equipment, and convenience is provided for the user.

Description

Method and system for controlling intelligent air conditioner based on mobile terminal and mobile terminal

Technical Field

The invention relates to the technical field of intelligent control terminals, in particular to a method and a system for controlling an intelligent air conditioner based on a mobile terminal and the mobile terminal.

Background

With the continuous development of mobile terminals, mobile terminals (mobile phones, tablet and other terminal devices) have become essential items and control centers for users, and users can control home, vehicle-mounted and other devices through the mobile terminals.

In the traditional air conditioner control implementation, a user can only manually establish connection with an intelligent air conditioner through infrared modes, Bluetooth modes and the like, the modes require the user to operate in a short distance, and inconvenience is brought to the user.

The intelligent household appliance control system mainly has a wired mode, a wireless mode and a wired and wireless combined mode from the transmission medium. The intelligent household appliance system in a wired mode is not suitable for being adopted due to the problems of troublesome wiring, complicated circuit, time and labor consumption, higher cost and the like; with the development of wireless technologies such as WLAN, IrDA, bluetooth, ZigBee and HomeRF, the wireless technologies are gradually applied to intelligent household electrical appliance systems, and compared with a wired mode, the wireless mode has low wiring cost and great advantages in the aspects of stability, energy saving, subsequent expansion and the like, and the intelligent household electrical appliance systems adopting the wireless sensor network and the wireless controller become a focus of people.

From the view of a control terminal, firstly, equipment such as a keyboard, an infrared remote controller and the like can be used for terminal control, and the mode needs a controller matched with the equipment, so that the control is more complicated, the cost is not low, and one defect is that the remote control cannot be realized; secondly, the terminal is a computer, and the household appliance system is controlled through the Internet, so that the method has the problems of large volume, incapability of carrying and inflexibility; thirdly, a mobile phone is adopted as a terminal, and along with the wide use of the smart phone, the mobile phone can control a home system through a wireless network such as WiFi and Bluetooth, and the mode is convenient, rapid and flexible. The wiring in most rooms of current intelligent household electrical appliances needs to be laid well before the home decoration, if the home decoration has been accomplished and needs to destroy a part of decoration and then lay the wiring, causes inconvenience and has a part of extra expenses for the resident. The wireless WiFi wireless technology is the best method, the method is not influenced by the structure and decoration of a home house, and the WiFi has the greatest advantage that wiring is not needed. The WiFi signal transmission distance is about 100 meters, and the family requirements can be met. WiFi is always strong at present in a wireless access mode, and is also trending, and at present, WiFi is carried on computers and smart phones of factories and home products, so that the wireless access mode has a good prospect and is a development trend of follow-up intelligent household appliance systems.

Therefore, the prior art is still to be improved and developed for the problem that the air conditioner control can be performed only for a short distance in the prior art.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a method, a system and a mobile terminal for controlling an intelligent air conditioner based on a mobile terminal, aiming at obtaining current information of ambient temperature, weather, humidity and the like by calculating the distance between the mobile terminal and an air conditioner device, comparing the current information with a configuration strategy set by a user, if the strategy condition set by the user is met, sending a corresponding control command to the intelligent air conditioner to realize automatic control of the intelligent air conditioner, and also manually controlling the intelligent air conditioner through an interface.

The technical scheme adopted by the invention for solving the technical problem is as follows:

a method for controlling an intelligent air conditioner based on a mobile terminal comprises the following steps:

step A: the mobile terminal is in communication connection with the intelligent air conditioner in a wireless communication mode;

and B: after receiving a control instruction of a user through the APP, the mobile terminal sends data of the control instruction to the intelligent air conditioner;

and C: after receiving the data sent by the mobile terminal, the intelligent air conditioner analyzes the data of the control command, judges the type of the current control command and executes the current control command;

step D: and after the mobile terminal sends the control instruction, waiting for the feedback information of the intelligent air conditioner, and when the intelligent air conditioner receives the control instruction, feeding back the execution result information to the mobile terminal.

The method for controlling the intelligent air conditioner based on the mobile terminal is characterized in that the wireless communication mode in the step A is WiFi Aware.

The method for controlling the intelligent air conditioner based on the mobile terminal comprises the following steps:

step B1: opening an APP of the mobile terminal, and prompting a configuration strategy according to a UI; the configuration policy includes: setting seasons, setting temperature thresholds, setting temperature and constant temperature, setting wind speed, setting modes, setting switches, setting distance thresholds and setting weather conversion modes;

step B2: the APP of the mobile terminal starts subscription service, specifies the service name of the intelligent air conditioner equipment and is used for receiving service data sent by the intelligent air conditioner through WiFi Aware, and the service name is preset by the mobile terminal and is consistent with the broadcast service name of the intelligent air conditioner;

step B3: the mobile terminal judges whether the MAC address of the broadcast service equipment of the intelligent air conditioner is the MAC address of the intelligent air conditioner, and if so, the relative distance between the mobile terminal and the intelligent air conditioner is calculated; if not, ending the flow;

step B4: and after the relative distance between the mobile terminal and the intelligent air conditioner is calculated, sending a control instruction to the intelligent air conditioner through a WiFi Aware interface to acquire the current state information of the intelligent air conditioner and set parameters of the intelligent air conditioner.

The method for controlling the intelligent air conditioner based on the mobile terminal comprises the following specific steps:

step C1: after the intelligent air conditioner receives a control instruction of a user, feeding back current air conditioner state information of the intelligent air conditioner to the mobile terminal; the current air conditioner state information includes: the method comprises the following steps of switching on and off states, current environment temperature, air conditioner modes, air conditioner set temperature and air conditioner wind speed information;

step C2: the intelligent air conditioner analyzes the data of the control command after receiving the data sent by the mobile terminal and judges the type of the current control command;

step C3: matching the control instruction of the user with the configuration strategy of the user, and if the control instruction of the user is matched with the configuration strategy of the user, not performing any operation on the intelligent air conditioner;

step C4: if some item does not meet the control strategy condition in the matching process, a non-matching result is returned, and then the mobile terminal sends a command in the configuration strategy to the air conditioner and executes the command.

The method for controlling the intelligent air conditioner based on the mobile terminal comprises the following specific steps:

step D1: after the mobile terminal sends a control instruction, waiting for the feedback information of the intelligent air conditioner, and when the intelligent air conditioner receives the control instruction and successfully executes the control instruction, feeding back success information to the mobile terminal;

step D2: and after the mobile terminal sends the control instruction, waiting for the feedback information of the intelligent air conditioner, and when the intelligent air conditioner receives the control instruction and fails to execute, feeding back failure information to the mobile terminal and prompting error information on a UI (user interface).

The method for controlling the intelligent air conditioner based on the mobile terminal comprises the following specific steps of:

step C31: the mobile terminal reads the current air conditioner state information stored in the memory and the corresponding user configuration strategy;

step C32: the mobile terminal judges whether the current air conditioner on-off state meets the on-off requirement in the user configuration strategy; if yes, executing step C34, if no, executing step C33;

step C33: judging whether the current weather humidity condition meets the humidity and the weather value in the configuration strategy, if the weather humidity condition does not match the control strategy, directly returning a mismatching result, and if so, entering the step C34;

step C34: judging whether the mode of the current air conditioner is consistent with the configuration default required in the configuration strategy or not; if not, returning a non-matching result, and if so, entering the step C35;

step C35: and judging whether the current temperature of the intelligent air conditioner meets the air conditioner temperature required in the configuration strategy, if not, returning a mismatching result, and if so, returning a normal matching result.

A system for controlling an intelligent air conditioner based on a mobile terminal, wherein the system comprises:

the communication connection module is used for the communication connection of the mobile terminal and the intelligent air conditioner in a wireless communication mode;

the instruction sending module is used for sending data of a control instruction to the intelligent air conditioner after the mobile terminal receives the control instruction of a user through the APP;

the instruction execution module is used for analyzing the data of the control instruction after the intelligent air conditioner receives the data sent by the mobile terminal, judging the type of the current control instruction and executing the current control instruction;

and the result feedback module is used for waiting for the feedback information of the intelligent air conditioner after the mobile terminal sends the control instruction, and when the intelligent air conditioner receives the control instruction, the execution result information is fed back to the mobile terminal.

The system for controlling the intelligent air conditioner based on the mobile terminal is characterized in that the wireless communication mode is WiFiAware.

The system for controlling the intelligent air conditioner based on the mobile terminal comprises an instruction sending module, a control module and a control module, wherein the instruction sending module specifically comprises:

the configuration strategy setting unit is used for starting the APP of the mobile terminal and prompting a configuration strategy according to the UI; the configuration policy includes: setting seasons, setting temperature thresholds, setting temperature and constant temperature, setting wind speed, setting modes, setting switches, setting distance thresholds and setting weather conversion modes;

the service starting unit is used for starting subscription service by the APP of the mobile terminal, appointing a service name of the intelligent air conditioner equipment, and receiving service data sent by the intelligent air conditioner through WiFi Aware, wherein the service name is preset by the mobile terminal and is consistent with a broadcast service name of the intelligent air conditioner;

the address judgment and distance calculation unit is used for judging whether the MAC address of the mobile terminal passing through the broadcasting service equipment of the intelligent air conditioner is the MAC address of the intelligent air conditioner or not, and if so, calculating the relative distance between the mobile terminal and the intelligent air conditioner; if not, ending the flow;

and the information acquisition and parameter setting unit is used for sending a control instruction to the intelligent air conditioner through a WiFi Aware interface after the relative distance between the mobile terminal and the intelligent air conditioner is calculated, and is used for acquiring the current state information of the intelligent air conditioner and setting the parameters of the intelligent air conditioner.

The system for controlling the intelligent air conditioner based on the mobile terminal comprises an instruction execution module, a control module and a display module, wherein the instruction execution module specifically comprises:

the current information feedback unit is used for feeding back the current air conditioner state information of the intelligent air conditioner to the mobile terminal after the intelligent air conditioner receives a control instruction of a user; the current air conditioner state information includes: the method comprises the following steps of switching on and off states, current environment temperature, air conditioner modes, air conditioner set temperature and air conditioner wind speed information;

the command type judging unit is used for analyzing the data of the control command after the intelligent air conditioner receives the data sent by the mobile terminal and judging the type of the current control command;

the instruction matching unit is used for matching the control instruction of the user with the configuration strategy of the user, and if the control instruction of the user is matched with the configuration strategy of the user, the intelligent air conditioner is not operated;

and the instruction sending and executing unit is used for returning a mismatch result if some item does not meet the control strategy condition in the matching process, and then the mobile terminal sends a command in the configuration strategy to the air conditioner and executes the command.

The system for controlling the intelligent air conditioner based on the mobile terminal comprises a result feedback module, a control module and a display module, wherein the result feedback module specifically comprises:

the first result feedback unit is used for waiting for the feedback information of the intelligent air conditioner after the mobile terminal sends the control command, and feeding back success information to the mobile terminal when the intelligent air conditioner receives the control command and successfully executes the control command;

and the second result feedback and prompt unit is used for waiting for the feedback information of the intelligent air conditioner after the mobile terminal sends the control instruction, feeding back failure information to the mobile terminal when the intelligent air conditioner receives the control instruction but fails to execute, and prompting error information on the UI.

A mobile terminal comprising a computer-readable storage medium having a computer program stored thereon, wherein the computer program, when executed by a processor, implements the mobile terminal-based method of controlling a smart air conditioner.

The invention discloses a method, a system and a mobile terminal for controlling an intelligent air conditioner based on the mobile terminal, wherein the mobile terminal is in communication connection with the intelligent air conditioner in a wireless communication mode; after receiving a control instruction of a user through the APP, the mobile terminal sends data of the control instruction to the intelligent air conditioner; after receiving the data sent by the mobile terminal, the intelligent air conditioner analyzes the data of the control command, judges the type of the current control command and executes the current control command; and after the mobile terminal sends the control instruction, waiting for the feedback information of the intelligent air conditioner, and when the intelligent air conditioner receives the control instruction, feeding back the execution result information to the mobile terminal.

According to the invention, the current information such as the ambient temperature, weather and humidity is obtained by calculating the distance between the mobile terminal and the air conditioning equipment, and is compared with the configuration strategy set by the user, if the strategy condition set by the user is met, a corresponding control command is sent to the intelligent air conditioner, the automatic control of the intelligent air conditioner is realized, manual control can be carried out through an interface, the WiFi Aware technology supports a long transmission distance, the equipment can be automatically detected and connected, so that the air conditioning equipment is more convenient for the user than the technologies such as Bluetooth and infrared, the user does not need to find a remote controller, the terminal can automatically open the air conditioning equipment, and convenience is provided for the user.

Drawings

Fig. 1 is a flowchart of a method for controlling an intelligent air conditioner based on a mobile terminal according to a preferred embodiment of the present invention.

FIG. 2 is a flowchart of a specific process for matching a user's control command with a user's configuration policy according to the present invention.

Fig. 3 is a flowchart of a user performing manual control through an interface in the method for controlling an intelligent air conditioner based on a mobile terminal according to the present invention.

Fig. 4 is a functional block diagram of a preferred embodiment of the system for controlling an intelligent air conditioner based on a mobile terminal according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, a method for controlling an intelligent air conditioner based on a mobile terminal according to a preferred embodiment of the present invention includes the following steps:

and S100, the mobile terminal is in communication connection with the intelligent air conditioner in a wireless communication mode.

Preferably, the wireless communication mode is WiFi Aware, and specifically, WiFi Aware can help WiFi devices to sense surrounding services in advance before establishing, and further meet functional requirements of users for Peer-to-Peer (P2P) messages, games, media sharing, and the like. WiFi Aware is a WiFi authentication service, and the technology is based on daily indispensable WiFi devices such as smart phones and tablet computers, and the devices can mutually sense the existence of each other through the WiFi Aware technology and then are connected together. In some aspects, the WiFi Aware technology is similar to the bluetooth function commonly used by us, and when WiFi devices are close to each other, the information, pictures, videos and other documents of the smart phone can be transmitted to each other. Bluetooth transmissions can be traced back long ago, and transmission over WiFi is a new technology.

The WiFi Aware technology can enable the use of users to be richer, and can show real-time and dynamic surrounding environment for the users.

And step S200, after receiving a control instruction of a user through the APP, the mobile terminal sends data of the control instruction to the intelligent air conditioner.

Preferably, the step S200 specifically includes the following steps:

step S201, starting an APP of the mobile terminal, and prompting a configuration strategy according to a UI; the configuration policy includes: setting seasons, setting temperature thresholds, setting temperature and constant temperature, setting wind speed, setting modes, setting switches, setting distance thresholds and setting weather conversion modes;

step S202, an APP of the mobile terminal starts subscription service, a service name of the intelligent air conditioner equipment is appointed and is used for receiving service data sent by the intelligent air conditioner through WiFi Aware, and the service name is preset by the mobile terminal and is consistent with a broadcast service name of the intelligent air conditioner;

step S203, the mobile terminal judges whether the MAC address of the broadcast service equipment of the intelligent air conditioner is the MAC address of the intelligent air conditioner, if so, the relative distance between the mobile terminal and the intelligent air conditioner is calculated; if not, ending the flow;

and step S204, after the relative distance between the mobile terminal and the intelligent air conditioner is calculated, sending a control instruction to the intelligent air conditioner through a WiFi Aware interface to obtain the current state information of the intelligent air conditioner and set parameters of the intelligent air conditioner.

Specifically, the corresponding configuration policy mainly includes season setting: such as summer and winter; temperature threshold value: for example, when the temperature reaches 40 ℃, the air conditioner is automatically turned on, and when the temperature reaches 20 ℃, the air conditioner is automatically turned off; temperature setting: how many degrees the air conditioner temperature is set to; setting the wind speed: setting the air speed of the air conditioner to what; mode setting: setting the air conditioner to a certain mode, such as an automatic mode, a refrigeration mode, a heating mode, a dehumidification mode, a circulating air supply mode and the like; setting a switch: turning on or off the air conditioner; distance threshold: the automatic control of the air conditioner is realized when the terminal and the air conditioner are far away; weather conditions: the mode is set according to the degree of wetness of the weather, rain, etc.

The APP of the mobile terminal starts subscription service, subscribes a specified service name of the intelligent air conditioner and is used for receiving service data sent by the intelligent air conditioner through WiFi Aware, and the service name is preset by the mobile terminal and is consistent with the broadcast service name of the WiFiAware air conditioner. If the mobile terminal receives the service data broadcasted by the WiFi Aware air-conditioning equipment, the data is firstly analyzed, the RTT (Round-Trip Time: Round-Trip delay Time which is an important performance index in a computer network and represents the Time value from the beginning of sending the data from the sending end to the end of receiving the confirmation from the receiving end (the confirmation is sent immediately after the receiving end receives the data), the total Time delay), the RSSI (Received Signal Strength Indication) of the WiFi Aware equipment, an optional part of a wireless sending layer, the Signal Strength value is used for judging the link quality and increasing the broadcast sending Strength, the equipment MAC address of the broadcast service is judged, whether the equipment MAC address is the MAC address of the intelligent air-conditioning equipment is analyzed or not is judged, if so, the subsequent steps are continued, if not, the flow ends.

And judging whether the service information contains the RTT time value in the 802.11mc protocol or not, and if so, directly calculating the distance according to the value. And if the RTT time value is not contained, calculating the distance through the RSSI value of the entrance guard equipment.

And according to the transmission model of the WiFi, calculating the relative distance between the mobile terminal and the opposite terminal equipment through the RSSI value received by the mobile terminal. The calculation method mainly adopts the formula d =10^ (abs (RSSI) -A)/(10 ^ n)) of the public model of WiFi transmission. Wherein Abs is used for expressing the function of solving the absolute value, a and n parameter need calculate according to sampling to know, the mobile terminal stores the experience value of different platform chips, such as chips of high pass, bock, MTK, etc. Reading the chip type of the mobile terminal, taking different parameter values by different platform chips, and if the parameter value matched with the mobile terminal equipment type cannot be found in the application storage, using a default empirical parameter value. When calculating the corresponding value, the calculation value is not taken once, multiple values are taken according to the actual situation, the highest value and the lowest value obtained by the model are removed firstly, then the corresponding value is calculated on average, and the calculation accuracy is improved.

And step S300, after receiving the data sent by the mobile terminal, the intelligent air conditioner analyzes the data of the control command, judges the type of the current control command and executes the control command.

Preferably, the step S300 specifically includes the following steps:

step S301, after the intelligent air conditioner receives a control instruction of a user, feeding back current air conditioner state information of the intelligent air conditioner to the mobile terminal; the current air conditioner state information includes: the method comprises the following steps of switching on and off states, current environment temperature, air conditioner modes, air conditioner set temperature and air conditioner wind speed information;

step S302, after receiving the data sent by the mobile terminal, the intelligent air conditioner analyzes the data of the control instruction and judges the type of the current control instruction;

step S303, matching the control instruction of the user with the configuration strategy of the user, and if the control instruction of the user is matched with the configuration strategy of the user, not performing any operation on the intelligent air conditioner;

and step S304, if some item does not meet the control strategy condition in the matching process, returning a non-matching result, and then sending a command in the configuration strategy to the air conditioner by the mobile terminal and executing the command.

Specifically, after the distance is calculated, a query message is sent to the intelligent air conditioner through a WiFi Aware Follow up interface to acquire current state information of the intelligent air conditioner, and after the intelligent air conditioner receives the query message, relevant information is fed back and mainly comprises information such as the on-off state of the air conditioner, the current environment temperature, the air conditioner mode, the temperature set by the air conditioner, the air conditioner air speed and the like.

The current longitude and latitude position information of the user is read through a system interface, then the weather information of the current position, including temperature, wind degree, humidity, whether it is rainy and the like, is obtained from a weather website, and the current season is judged according to the current date.

And after the current season is obtained, reading the configuration strategy information of the user for the season, storing the configuration strategy information into a memory, and if no configuration strategy corresponding to the season exists, directly ending the operation. For example, turning on the air conditioner above a certain temperature in summer.

Judging whether the calculated distance value meets the requirement of obtaining the distance value of the configuration strategy, if not, directly ending, and if so, entering the next step; for example, if the requirement in the configuration policy is greater than 20m, the air conditioner is triggered to be turned off, and if the mobile terminal always determines that the distance between the terminal and the air conditioner is greater than 20m within a certain period of time, the air conditioner is triggered to be turned off. Judging whether the current environment temperature is matched with an environment temperature threshold value in a configuration strategy or not, if so, comparing the current information of the air conditioner acquired by the terminal with the information of the user configuration strategy, and if not, judging whether the weather/humidity of the current environment meets the set threshold value or not; for example, if the ambient temperature obtained from the air conditioner is 40 degrees and the configuration policy requires that the air conditioner is turned on at a temperature greater than 35 degrees, the result is a match. If the ambient temperature is 25 degrees, there is no match.

And judging whether the weather/humidity of the current environment meets a set threshold value, if so, comparing the current information of the air conditioner acquired by the terminal with the user configuration strategy information, and if not, directly ending. For example, when the current environment humidity is a value a, the weather is medium rain, and the configuration policy is medium rain, and the humidity is greater than a value B, the dehumidification mode is started.

Comparing the current information of the air conditioner acquired by the terminal with the user configuration policy information, wherein the specific process refers to a comparison policy flow chart, as shown in fig. 2:

the specific process of matching the control instruction of the user with the configuration policy of the user comprises the following steps:

step S1: the mobile terminal reads the current air conditioner state information stored in the memory and the corresponding user configuration strategy;

step S2: the mobile terminal judges whether the current air conditioner on-off state meets the on-off requirement in the user configuration strategy; performing step S4 if satisfied, performing step S3 if not satisfied;

step S3: judging whether the current weather humidity condition meets the humidity and the weather value in the configuration strategy, if the weather humidity condition does not match the control strategy, directly returning a mismatching result, and if so, entering the step S4;

step S4: judging whether the mode of the current air conditioner is consistent with the configuration default required in the configuration strategy or not; if not, returning a non-matching result, and if yes, entering step S5;

step S5: and judging whether the current temperature of the intelligent air conditioner meets the air conditioner temperature required in the configuration strategy, if not, returning a mismatching result, and if so, returning a normal matching result.

Judging whether the on-off state of the current air conditioner meets the on-off requirement in the configuration strategy, if so, continuously judging whether the setting mode of the current air conditioner meets the setting mode in the configuration strategy, if so, continuously judging whether the current setting temperature meets the temperature value in the configuration strategy, if all meet, not doing any operation, and if a certain condition does not meet, sending new configuration strategy information to the intelligent air conditioner.

If the matching meets the configuration strategy information, no operation is performed on the air conditioner, if some item does not meet the strategy condition in the matching process, a mismatching result is returned, and then the mobile terminal sends a command in the configuration strategy to the intelligent air conditioner. For different command types, different flags are used when sending, for example, the flag of the switch command is 1, and the temperature flag is set to 2.

And step S400, after the mobile terminal sends the control command, waiting for the feedback information of the intelligent air conditioner, and when the intelligent air conditioner receives the control command and feeds back the execution result information to the mobile terminal.

Preferably, the step S400 specifically includes the following steps:

step S401, after the mobile terminal sends a control instruction, the mobile terminal waits for the feedback information of the intelligent air conditioner, and when the intelligent air conditioner receives the control instruction and successfully executes, the mobile terminal feeds back success information;

step S402, after the mobile terminal sends the control instruction, the mobile terminal waits for the feedback information of the intelligent air conditioner, when the intelligent air conditioner receives the control instruction but fails to execute, the mobile terminal feeds back failure information, and error information is prompted on the UI.

Specifically, after the command is sent, the mobile terminal waits for the air conditioner to feed back information, and if the air conditioner receives the command and is successfully set, the mobile terminal feeds back successful information to the mobile terminal; if the air conditioner receives the command but the setting is failed, failure information is fed back to the mobile terminal and error information is prompted on a UI (user interface). The success and failure of the feedback information are distinguished from the message flag (programming instruction), denoted by 0, and the failure denoted by-1.

In the invention, if the user is not satisfied with the current air conditioning equipment, manual control can be performed through an interface, as shown in fig. 3, the flow is as follows:

s10, initializing an operation UI (user interface) by the application of the mobile terminal, and providing an operation entrance for a user;

s11, the mobile terminal receives a control instruction issued by a user through the UI, the user issues different control instructions correspondingly through different UIs on the operation interface, and the control instruction issued by the user is packaged according to different instruction types, for example, the flag bit of the air-conditioning-on instruction is 1;

s12, the mobile terminal sends a control command to the intelligent air conditioning equipment through WiFi Aware;

s13, judging whether the air conditioner feeds back a success message, if the feedback is successful, executing S14, and if the feedback command fails, executing S15;

s14, ending the process;

s15, an error message is presented in the UI for prompting the user.

In the invention, after being powered on, the intelligent air conditioner broadcasts self service information to the outside through WiFi Aware, waits for the connection of a mobile terminal, and after receiving a control instruction sent by the mobile terminal, firstly analyzes data, judges whether the current instruction information is one control or multiple controls, for example, if a user sends a temperature control instruction through an interface alone, the first field of a command frame is 1, and the command type information follows; if the multiple control instructions sent by the user include switch control and temperature control, the first field of the command frame is 2, followed by the specific information of the single instruction. If the command is a single command, the control is directly issued, and if the command is a plurality of commands, the single command contained in the command is analyzed and then issued to the air conditioner control. If the instruction control is successful, sending success feedback to the terminal, and if the instruction control is failed, sending failure feedback. The success and failure of the feedback information are distinguished from the message flag, the success is represented by 0, and the failure is represented by-1.

The present invention also provides a system for controlling an intelligent air conditioner based on a mobile terminal, as shown in fig. 4, the system includes:

the communication connection module 210 is used for the mobile terminal to perform communication connection with the intelligent air conditioner in a wireless communication mode; as described above.

The instruction sending module 220 is configured to send data of a control instruction to the intelligent air conditioner after the mobile terminal receives the control instruction of the user through the APP application; as described above.

The instruction execution module 230 is used for analyzing the data of the control instruction after the intelligent air conditioner receives the data sent by the mobile terminal, judging the type of the current control instruction and executing the current control instruction; as described above.

The result feedback module 240 is configured to wait for the intelligent air conditioner to feed back information after the mobile terminal sends the control instruction, and when the intelligent air conditioner receives the control instruction, feed back execution result information to the mobile terminal; as described above.

Further, the system for controlling the intelligent air conditioner based on the mobile terminal is characterized in that the wireless communication mode is WiFi Aware; as described above.

Further, the system for controlling the intelligent air conditioner based on the mobile terminal, wherein the instruction sending module specifically includes:

the configuration strategy setting unit is used for starting the APP of the mobile terminal and prompting a configuration strategy according to the UI; the configuration policy includes: setting seasons, setting temperature thresholds, setting temperature and constant temperature, setting wind speed, setting modes, setting switches, setting distance thresholds and setting weather conversion modes; as described above.

The service starting unit is used for starting subscription service by the APP of the mobile terminal, appointing a service name of the intelligent air conditioner equipment, and receiving service data sent by the intelligent air conditioner through WiFi Aware, wherein the service name is preset by the mobile terminal and is consistent with a broadcast service name of the intelligent air conditioner; as described above.

The address judgment and distance calculation unit is used for judging whether the MAC address of the mobile terminal passing through the broadcasting service equipment of the intelligent air conditioner is the MAC address of the intelligent air conditioner or not, and if so, calculating the relative distance between the mobile terminal and the intelligent air conditioner; if not, ending the flow; as described above.

The information acquisition and parameter setting unit is used for sending a control instruction to the intelligent air conditioner through a WiFi Aware interface after the relative distance between the mobile terminal and the intelligent air conditioner is calculated, and is used for acquiring the current state information of the intelligent air conditioner and setting the parameters of the intelligent air conditioner; as described above.

Further, the system for controlling the intelligent air conditioner based on the mobile terminal, wherein the instruction execution module specifically includes:

the current information feedback unit is used for feeding back the current air conditioner state information of the intelligent air conditioner to the mobile terminal after the intelligent air conditioner receives a control instruction of a user; the current air conditioner state information includes: the method comprises the following steps of switching on and off states, current environment temperature, air conditioner modes, air conditioner set temperature and air conditioner wind speed information; as described above.

The command type judging unit is used for analyzing the data of the control command after the intelligent air conditioner receives the data sent by the mobile terminal and judging the type of the current control command; as described above.

The instruction matching unit is used for matching the control instruction of the user with the configuration strategy of the user, and if the control instruction of the user is matched with the configuration strategy of the user, the intelligent air conditioner is not operated; as described above.

The instruction sending and executing unit is used for returning a mismatching result if a certain item does not meet the control strategy condition in the matching process, and then the mobile terminal sends a command in the configuration strategy to the air conditioner and executes the command; as described above.

Further, the system for controlling the intelligent air conditioner based on the mobile terminal, wherein the result feedback module specifically includes:

the first result feedback unit is used for waiting for the feedback information of the intelligent air conditioner after the mobile terminal sends the control command, and feeding back success information to the mobile terminal when the intelligent air conditioner receives the control command and successfully executes the control command; as described above.

The second result feedback and prompt unit is used for waiting for the feedback information of the intelligent air conditioner after the mobile terminal sends the control instruction, feeding back failure information to the mobile terminal when the intelligent air conditioner receives the control instruction but fails to execute, and prompting error information on a UI (user interface); as described above.

The present invention also provides a mobile terminal including a computer-readable storage medium having a computer program stored thereon, wherein the computer program, when executed by a processor, implements the method for controlling an intelligent air conditioner based on the mobile terminal.

In summary, the present invention provides a method, a system and a mobile terminal for controlling an intelligent air conditioner based on a mobile terminal, wherein the mobile terminal is in communication connection with the intelligent air conditioner in a wireless communication manner; after receiving a control instruction of a user through the APP, the mobile terminal sends data of the control instruction to the intelligent air conditioner; after receiving the data sent by the mobile terminal, the intelligent air conditioner analyzes the data of the control command, judges the type of the current control command and executes the current control command; and after the mobile terminal sends the control instruction, waiting for the feedback information of the intelligent air conditioner, and when the intelligent air conditioner receives the control instruction, feeding back the execution result information to the mobile terminal. According to the invention, the current information such as the ambient temperature, weather and humidity is obtained by calculating the distance between the mobile terminal and the air conditioning equipment, and is compared with the configuration strategy set by the user, if the strategy condition set by the user is met, a corresponding control command is sent to the intelligent air conditioner, the automatic control of the intelligent air conditioner is realized, manual control can be carried out through an interface, the WiFi Aware technology supports a long transmission distance, the equipment can be automatically detected and connected, so that the air conditioning equipment is more convenient for the user than the technologies such as Bluetooth and infrared, the user does not need to find a remote controller, the terminal can automatically open the air conditioning equipment, and convenience is provided for the user.

Of course, it will be understood by those skilled in the art that all or part of the processes of the methods of the above embodiments may be implemented by a computer program instructing relevant hardware (such as a processor, a controller, etc.), and the program may be stored in a computer readable storage medium, and when executed, the program may include the processes of the above method embodiments. The storage medium may be a memory, a magnetic disk, an optical disk, etc.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.

Claims (3)

1. A method for controlling an intelligent air conditioner based on a mobile terminal is characterized by comprising the following steps:

step A: the mobile terminal is in communication connection with the intelligent air conditioner in a wireless communication mode;

the wireless communication mode in the step A is WiFi Aware;

and B: after receiving a control instruction of a user through the APP, the mobile terminal sends data of the control instruction to the intelligent air conditioner;

the step B specifically comprises the following steps:

step B1: opening an APP of the mobile terminal, and prompting a configuration strategy according to a UI; the configuration policy includes: setting seasons, setting temperature thresholds, setting temperature and constant temperature, setting wind speed, setting modes, setting switches, setting distance thresholds and setting weather conversion modes;

step B2: the APP of the mobile terminal starts subscription service, specifies the service name of the intelligent air conditioner equipment and is used for receiving service data sent by the intelligent air conditioner through WiFi Aware, and the service name is preset by the mobile terminal and is consistent with the broadcast service name of the intelligent air conditioner;

step B3: the mobile terminal judges whether the MAC address of the broadcast service equipment of the intelligent air conditioner is the MAC address of the intelligent air conditioner, and if so, the relative distance between the mobile terminal and the intelligent air conditioner is calculated; if not, ending the flow;

step B4: after the relative distance between the mobile terminal and the intelligent air conditioner is calculated, a control instruction is sent to the intelligent air conditioner through a WiFi Aware interface to obtain the current state information of the intelligent air conditioner and set parameters of the intelligent air conditioner;

and C: after receiving the data sent by the mobile terminal, the intelligent air conditioner analyzes the data of the control command, judges the type of the current control command and executes the current control command;

the step C specifically comprises the following steps:

step C1: after the intelligent air conditioner receives a control instruction of a user, feeding back current air conditioner state information of the intelligent air conditioner to the mobile terminal; the current air conditioner state information includes: the method comprises the following steps of switching on and off states, current environment temperature, air conditioner modes, air conditioner set temperature and air conditioner wind speed information;

step C2: the intelligent air conditioner analyzes the data of the control command after receiving the data sent by the mobile terminal and judges the type of the current control command;

step C3: matching the control instruction of the user with the configuration strategy of the user, and if the control instruction of the user is matched with the configuration strategy of the user, not performing any operation on the intelligent air conditioner;

the matching of the control instruction of the user and the configuration policy of the user specifically includes:

step C31: the mobile terminal reads the current air conditioner state information stored in the memory and the corresponding user configuration strategy;

step C32: the mobile terminal judges whether the current air conditioner on-off state meets the on-off requirement in the user configuration strategy; if yes, executing step C34, if no, executing step C33;

step C33: judging whether the current weather humidity condition meets the humidity and the weather value in the configuration strategy, if the weather humidity condition does not match the control strategy, directly returning a mismatching result, and if so, entering the step C34;

step C34: judging whether the mode of the current air conditioner is consistent with the configuration default required in the configuration strategy or not; if not, returning a non-matching result, and if so, entering the step C35;

step C35: judging whether the current temperature of the intelligent air conditioner meets the air conditioner temperature required in the configuration strategy, if not, returning a mismatching result, and if so, returning a matching normal result;

step C4: if a certain item does not meet the control strategy condition in the matching process, returning a mismatching result, and then sending a command in the configuration strategy to the air conditioner by the mobile terminal and executing the command;

step D: after the mobile terminal sends a control instruction, waiting for the feedback information of the intelligent air conditioner, and when the intelligent air conditioner receives the control instruction, feeding back the execution result information to the mobile terminal;

the step D specifically comprises the following steps:

step D1: after the mobile terminal sends a control instruction, waiting for the feedback information of the intelligent air conditioner, and when the intelligent air conditioner receives the control instruction and successfully executes the control instruction, feeding back success information to the mobile terminal;

step D2: after the mobile terminal sends a control instruction, waiting for the feedback information of the intelligent air conditioner, when the intelligent air conditioner receives the control instruction and fails to execute, feeding back failure information to the mobile terminal, and prompting error information on a UI (user interface);

the method comprises the steps that the distance between a mobile terminal and air conditioning equipment is calculated, current ambient temperature, weather and humidity information is obtained and compared with a configuration strategy set by a user, and if the current ambient temperature, weather and humidity information meets the strategy condition set by the user, a corresponding control command is sent to an intelligent air conditioner, so that the intelligent air conditioner is automatically controlled;

the air-conditioning equipment is manually controlled through the interface, and because the transmission distance supported by the WiFi Aware technology is long and the equipment is automatically detected and connected, a user does not need to find a remote controller, the terminal can automatically turn on the air-conditioning equipment, and convenience is provided for the user.

2. The utility model provides a system for control intelligence air conditioner based on mobile terminal which characterized in that, the system includes:

the communication connection module is used for the communication connection of the mobile terminal and the intelligent air conditioner in a wireless communication mode;

the wireless communication mode is WiFi Aware;

the instruction sending module is used for sending data of a control instruction to the intelligent air conditioner after the mobile terminal receives the control instruction of a user through the APP;

the instruction sending module specifically comprises:

the configuration strategy setting unit is used for starting the APP of the mobile terminal and prompting a configuration strategy according to the UI; the configuration policy includes: setting seasons, setting temperature thresholds, setting temperature and constant temperature, setting wind speed, setting modes, setting switches, setting distance thresholds and setting weather conversion modes;

the service starting unit is used for starting subscription service by the APP of the mobile terminal, appointing a service name of the intelligent air conditioner equipment, and receiving service data sent by the intelligent air conditioner through WiFi Aware, wherein the service name is preset by the mobile terminal and is consistent with a broadcast service name of the intelligent air conditioner;

the address judgment and distance calculation unit is used for judging whether the MAC address of the mobile terminal passing through the broadcasting service equipment of the intelligent air conditioner is the MAC address of the intelligent air conditioner or not, and if so, calculating the relative distance between the mobile terminal and the intelligent air conditioner; if not, ending the flow;

the information acquisition and parameter setting unit is used for sending a control instruction to the intelligent air conditioner through a WiFi Aware interface after the relative distance between the mobile terminal and the intelligent air conditioner is calculated, and is used for acquiring the current state information of the intelligent air conditioner and setting the parameters of the intelligent air conditioner;

the instruction execution module is used for analyzing the data of the control instruction after the intelligent air conditioner receives the data sent by the mobile terminal, judging the type of the current control instruction and executing the current control instruction;

the instruction execution module specifically comprises:

the current information feedback unit is used for feeding back the current air conditioner state information of the intelligent air conditioner to the mobile terminal after the intelligent air conditioner receives a control instruction of a user; the current air conditioner state information includes: the method comprises the following steps of switching on and off states, current environment temperature, air conditioner modes, air conditioner set temperature and air conditioner wind speed information;

the command type judging unit is used for analyzing the data of the control command after the intelligent air conditioner receives the data sent by the mobile terminal and judging the type of the current control command;

the instruction matching unit is used for matching the control instruction of the user with the configuration strategy of the user, and if the control instruction of the user is matched with the configuration strategy of the user, the intelligent air conditioner is not operated;

the instruction sending and executing unit is used for returning a mismatching result if a certain item does not meet the control strategy condition in the matching process, and then the mobile terminal sends a command in the configuration strategy to the air conditioner and executes the command;

the result feedback module is used for waiting for the feedback information of the intelligent air conditioner after the mobile terminal sends the control instruction, and when the intelligent air conditioner receives the control instruction, the execution result information is fed back to the mobile terminal;

the result feedback module specifically comprises:

the first result feedback unit is used for waiting for the feedback information of the intelligent air conditioner after the mobile terminal sends the control command, and feeding back success information to the mobile terminal when the intelligent air conditioner receives the control command and successfully executes the control command;

the second result feedback and prompt unit is used for waiting for the feedback information of the intelligent air conditioner after the mobile terminal sends the control instruction, feeding back failure information to the mobile terminal when the intelligent air conditioner receives the control instruction but fails to execute, and prompting error information on a UI (user interface);

the method comprises the steps that the distance between a mobile terminal and air conditioning equipment is calculated, current ambient temperature, weather and humidity information is obtained and compared with a configuration strategy set by a user, and if the current ambient temperature, weather and humidity information meets the strategy condition set by the user, a corresponding control command is sent to an intelligent air conditioner, so that the intelligent air conditioner is automatically controlled;

the air-conditioning equipment is manually controlled through the interface, and because the transmission distance supported by the WiFi Aware technology is long and the equipment is automatically detected and connected, a user does not need to find a remote controller, the terminal can automatically turn on the air-conditioning equipment, and convenience is provided for the user.

3. A mobile terminal comprising a computer-readable storage medium having a computer program stored thereon, wherein the computer program, when executed by a processor, implements the method for controlling a smart air conditioner based on a mobile terminal of claim 1.

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