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CN-122015269-A - Air conditioner control method and device, air conditioner and storage medium

CN122015269ACN 122015269 ACN122015269 ACN 122015269ACN-122015269-A

Abstract

The application relates to a control method and device of an air conditioner, the air conditioner and a storage medium, wherein the method comprises the steps of obtaining physiological data and facial expression data corresponding to a target object, and obtaining environment data of an environment where the target air conditioner to be controlled is located; the method comprises the steps of determining initial control parameters corresponding to a target air conditioner based on physiological data and environment data, determining an emotion state corresponding to a target object based on facial expression data, correcting the initial control parameters by utilizing the emotion state to obtain first control parameters corresponding to the target air conditioner, and controlling the target air conditioner based on the first control parameters. The application avoids the defect that the influence of the emotion state on the comfort level of the body feeling is ignored by controlling only depending on the physiological data and the environmental data, and ensures the comfort level of the environment and the health and safety in the movement process.

Inventors

  • HOU XUAN
  • AN ZHI
  • TANG XUE
  • MO JIANCONG
  • GAO YONGHUI
  • MA BINGQUAN

Assignees

  • 珠海格力电器股份有限公司

Dates

Publication Date
20260512
Application Date
20251230

Claims (10)

  1. 1. A control method of an air conditioner, comprising: Acquiring physiological data and facial expression data corresponding to a target object, and acquiring environmental data of an environment where a target air conditioner to be controlled is located; determining initial control parameters corresponding to the target air conditioner based on the physiological data and the environmental data, and determining an emotional state corresponding to the target object based on the facial expression data; correcting the initial control parameters by using the emotion states to obtain first control parameters corresponding to the target air conditioner; and controlling the target air conditioner based on the first control parameter.
  2. 2. The method of claim 1, wherein the emotional state corresponds to an emotional score; The correcting the initial control parameter by using the emotion state to obtain a first control parameter corresponding to the target air conditioner includes: Determining a target parameter compensation coefficient corresponding to the initial control parameter based on the emotional state; Determining a parameter compensation value corresponding to the initial control parameter based on the target parameter compensation coefficient and the emotion score; and correcting the initial control parameter by using the parameter compensation value to obtain a first control parameter corresponding to the target air conditioner.
  3. 3. The method of claim 2, wherein the physiological data comprises skin temperature and exercise intensity of the target subject, and the environmental data comprises indoor environmental humidity; the determining, based on the emotional state, a target parameter compensation coefficient corresponding to the initial control parameter includes: acquiring an initial parameter compensation coefficient corresponding to the emotion state; determining a target correction factor based on the skin temperature, the exercise intensity, and the indoor ambient humidity; and determining a target parameter compensation coefficient corresponding to the initial control parameter based on the initial parameter compensation coefficient and the target correction factor.
  4. 4. The method of claim 1, wherein the first control parameters include a first temperature, a first wind speed, and a first humidity; After the step of controlling the target air conditioner based on the first control parameter is performed, the method further includes: Determining sweat evaporation efficiency corresponding to a skin surface of the target object; when the sweat evaporation efficiency is in a preset sweat evaporation efficiency interval, continuously controlling the target air conditioner based on the first temperature, the first wind speed and the first humidity; when the sweat evaporation efficiency is not in the preset sweat evaporation efficiency interval, determining a target wind speed compensation value corresponding to the first wind speed and a target humidity compensation value corresponding to the first humidity; Correcting the first wind speed by using the target wind speed compensation value and correcting the first humidity by using the target humidity compensation value; And controlling the target air conditioner based on the first temperature, the corrected first wind speed and the corrected first humidity.
  5. 5. The method of claim 4, wherein determining the target wind speed compensation value for the first wind speed and the target humidity compensation value for the first humidity comprises: determining a target deviation direction of the sweat evaporation efficiency from the preset sweat evaporation efficiency interval based on the sweat evaporation efficiency and the preset sweat evaporation efficiency interval, and a target deviation level of the sweat evaporation efficiency from the preset sweat evaporation efficiency interval in the target deviation direction; determining an initial wind speed compensation value corresponding to the first wind speed and an initial humidity compensation value corresponding to the first humidity based on the target deviation direction and the target deviation grade; determining a target physique type corresponding to the target object, wherein the target physique type is used for representing the physique type of the target object related to thermal comfort; and correcting the initial wind speed compensation value and the initial humidity compensation value based on the target constitution type to obtain a target wind speed compensation value corresponding to the first wind speed and a target humidity compensation value corresponding to the first humidity.
  6. 6. The method of claim 1, wherein the target objects are a plurality of, the first control parameter is a plurality of, the plurality of target objects are in one-to-one correspondence with the plurality of first control parameters, and the physiological data comprises skin temperature and exercise intensity of the target objects; The controlling the target air conditioner based on the first control parameter includes: for each target object, determining a target weight corresponding to the target object based on the skin temperature, the movement intensity and the emotional state corresponding to the target object; Based on the target weights, carrying out weighted average on the first control parameters to obtain first target control parameters corresponding to the target air conditioner; And controlling the target air conditioner based on the first target control parameter.
  7. 7. The method of claim 1, wherein prior to performing the step of controlling the target air conditioner based on the first control parameter, the method further comprises: Acquiring a target material corresponding to clothes worn by the target object; The controlling the target air conditioner based on the first control parameter includes: correcting the initial control parameter by using the target material to obtain a second control parameter corresponding to the target control; Determining a second target control parameter corresponding to the target air conditioner based on the first control parameter and the second control parameter; and controlling the target air conditioner based on the second target control parameter.
  8. 8. A control device of an air conditioner, comprising: The acquisition module is used for acquiring physiological data and facial expression data corresponding to a target object and acquiring environment data of an environment where a target air conditioner to be controlled is located; the determining module is used for determining initial control parameters corresponding to the target air conditioner based on the physiological data and the environment data and determining an emotion state corresponding to the target object based on the facial expression data; The correction module is used for correcting the initial control parameters by using the emotion state so as to obtain first control parameters corresponding to the target air conditioner; And the control module is used for controlling the target air conditioner based on the first control parameter.
  9. 9. An air conditioner comprising a processor and a memory, wherein the processor is configured to execute a control program of the air conditioner stored in the memory, so as to implement the control method of the air conditioner according to any one of claims 1 to 7.
  10. 10. A storage medium storing one or more programs executable by one or more processors to implement the method of controlling an air conditioner of any one of claims 1 to 7.

Description

Air conditioner control method and device, air conditioner and storage medium Technical Field The present application relates to the field of air conditioning technologies, and in particular, to a control method and apparatus for an air conditioner, and a storage medium. Background Along with popularization of healthy living concepts and normalization of indoor sports scenes, users have higher requirements on environmental comfort and health safety guarantee in the sports process. In the prior art, in order to realize personalized air conditioner control, generally, a wearable device of a user is relied on to collect physiological data (such as heart rate, blood oxygen saturation, etc.) of the user in real time, and combine environmental data (such as indoor temperature, indoor environmental humidity, outdoor temperature, etc.) of an environment where an air conditioner is located, and generate an air conditioner control instruction through a machine learning model so as to realize dynamic adjustment of the air conditioner. However, in the above air conditioning control method, the immediate influence of the emotional state of the user on the comfort level of the body is ignored by relying on the physiological data alone, for example, the user's demand for cooling feeling in tension or excited state is enhanced, thus affecting the user experience. Disclosure of Invention The application provides a control method and device of an air conditioner, the air conditioner and a storage medium, and aims to solve the problem that the use experience of a user is affected when the air conditioner is controlled by only using physiological data of the user in the prior art. In a first aspect, the present application provides a control method of an air conditioner, including: Acquiring physiological data and facial expression data corresponding to a target object, and acquiring environmental data of an environment where a target air conditioner to be controlled is located; determining initial control parameters corresponding to the target air conditioner based on the physiological data and the environmental data, and determining an emotional state corresponding to the target object based on the facial expression data; correcting the initial control parameters by using the emotion states to obtain first control parameters corresponding to the target air conditioner; and controlling the target air conditioner based on the first control parameter. In an alternative embodiment, the emotional state corresponds to an emotional score; The correcting the initial control parameter by using the emotion state to obtain a first control parameter corresponding to the target air conditioner includes: Determining a target parameter compensation coefficient corresponding to the initial control parameter based on the emotional state; Determining a parameter compensation value corresponding to the initial control parameter based on the target parameter compensation coefficient and the emotion score; and correcting the initial control parameter by using the parameter compensation value to obtain a first control parameter corresponding to the target air conditioner. In an alternative embodiment, the physiological data includes skin temperature and intensity of motion of the target subject, and the environmental data includes indoor environmental humidity; the determining, based on the emotional state, a target parameter compensation coefficient corresponding to the initial control parameter includes: acquiring an initial parameter compensation coefficient corresponding to the emotion state; determining a target correction factor based on the skin temperature, the exercise intensity, and the indoor ambient humidity; and determining a target parameter compensation coefficient corresponding to the initial control parameter based on the initial parameter compensation coefficient and the target correction factor. In an alternative embodiment, the first control parameter includes a first temperature, a first wind speed, and a first humidity; After the step of controlling the target air conditioner based on the first control parameter is performed, the method further includes: Determining sweat evaporation efficiency corresponding to a skin surface of the target object; when the sweat evaporation efficiency is in a preset sweat evaporation efficiency interval, continuously controlling the target air conditioner based on the first temperature, the first wind speed and the first humidity; when the sweat evaporation efficiency is not in the preset sweat evaporation efficiency interval, determining a target wind speed compensation value corresponding to the first wind speed and a target humidity compensation value corresponding to the first humidity; Correcting the first wind speed by using the target wind speed compensation value and correcting the first humidity by using the target humidity compensation value; And controlling the target air conditio