CN113465155A - Method, system, host and storage medium for reducing quilt kicking behavior of infants - Google Patents
Method, system, host and storage medium for reducing quilt kicking behavior of infants Download PDFInfo
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- CN113465155A CN113465155A CN202110700359.XA CN202110700359A CN113465155A CN 113465155 A CN113465155 A CN 113465155A CN 202110700359 A CN202110700359 A CN 202110700359A CN 113465155 A CN113465155 A CN 113465155A
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/70—Control systems characterised by their outputs; Constructional details thereof
- F24F11/80—Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
- F24F11/65—Electronic processing for selecting an operating mode
- F24F11/66—Sleep mode
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2110/00—Control inputs relating to air properties
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Abstract
The application relates to the field of behavior detection, in particular to a method, a system, a host and a storage medium for reducing quilt kicking behaviors of infants, which comprises the following steps: s1, acquiring the corresponding reference plane image data when the infant just falls asleep; s2, determining unit interval time data, and acquiring real-time planar image information corresponding to the infant sleeping in real time; s3, comparing the real-time plane image information with the reference plane image information, and detecting whether the infant kicks away a quilt; s4, acquiring corresponding indoor temperature data when the infant kicks off the quilt; s5, repeatedly executing S2-S4 for multiple times to obtain an indoor temperature data set corresponding to the indoor temperature data; s6, acquiring the most suitable sleep temperature data; s7, controlling the indoor temperature control equipment to adjust the indoor temperature according to the optimal sleep temperature data; and S8, outputting the sub-selection information. The quilt has the effect of reducing the quilt kicking behavior of the infant in the sleeping process of the infant.
Description
Technical Field
The present application relates to the field of behavior detection, and in particular, to a method, a system, a host and a storage medium for reducing quilt kicking behavior of an infant.
Background
The average daily sleeping time of infants within two years of age is relatively long, so that the sleeping conditions of the infants are the key points of great attention of parents. According to research and investigation, 80% of the infant's diseases, colds and other conditions are caused by catching cold during sleep, and are most commonly caused by kicking quilt by the infant.
Because the sleeping time of the infant is long, and the infant kicks the covered quilt open at any time, but at present, parents cannot always look at the infant bed, if the infant is not covered by the quilt in time, the infant may catch a cold, and for the above-mentioned related problems, a method capable of reducing the behavior of kicking the quilt during the sleeping process of the infant is needed to be provided.
Disclosure of Invention
In order to reduce the quilt kicking behavior of the infant in the sleeping process of the infant, the application provides a method, a system, a host and a storage medium for reducing the quilt kicking behavior of the infant.
The application provides a method for reducing infant quilt kicking behaviors, adopts following technical scheme:
s1, acquiring reference plane image data corresponding to the infant just asleep, wherein the reference plane image information is acquired from the peripheral side;
s2, unit interval time data are determined, real-time plane image information corresponding to the sleeping of the infant is obtained in real time through each unit interval time data, and the real-time plane image information and the reference plane image information are obtained at the same angle;
s3, comparing the real-time plane image information with the reference plane image information, and detecting whether the infant kicks away a quilt;
s4, responding to the operation that the infant kicks off the quilt, and acquiring indoor temperature data corresponding to the infant kicking off the quilt;
s5, repeatedly executing S2, S3 and S4 for multiple times to obtain an indoor temperature data set corresponding to the indoor temperature data;
s6, acquiring indoor temperature data with the least frequency in the indoor temperature data set, and determining the indoor temperature data as the most suitable sleep temperature data;
s7, controlling the indoor temperature control equipment to adjust the indoor temperature according to the optimal sleep temperature data;
and S8, outputting the sub-selection information under the optimal sleep temperature data.
By adopting the technical scheme, when an infant sleeps on a crib, reference plane image data corresponding to the infant when the infant just sleeps are obtained first, reference plane image information is obtained from the peripheral side, then real-time plane image information corresponding to the infant sleeping is obtained at intervals of unit interval time data, wherein the real-time plane image information and the reference plane image information are obtained at the same angle, then the real-time plane image information is compared with the reference plane image information, and whether the infant kicks off a quilt or not is detected; responding to the detected operation that the infant kicks off the quilt, acquiring indoor temperature data corresponding to the indoor environment temperature, acquiring the indoor temperature data, repeatedly executing the operation process, acquiring a large amount of quilt kicking conditions of the infant during sleeping, and acquiring a corresponding indoor temperature data set; then, the frequency of all indoor temperature data in the indoor temperature data set is compared, the indoor temperature data which is least frequently corresponding to the indoor temperature data is determined and is determined as the optimal sleeping temperature data, and therefore the situation that the quilt is less kicked in the sleeping process of the infant at the indoor temperature corresponding to the optimal sleeping temperature data is determined; in summary, in the sleeping process of the infant, the indoor temperature can be controlled at the temperature corresponding to the optimal sleeping temperature data through the indoor temperature control device, and in addition, the quilt selection prompt information is output at the optimal sleeping temperature to prompt the guardian of the infant to select which quilt, so that the situation that the infant kicks the quilt in the sleeping process is reduced.
Optionally, in S3, the method further includes:
s31, obtaining feature point data;
s32, determining the reference position data of the feature point data in the vertical direction on the reference plane image data;
s33, determining the real-time position data of the feature point data in the vertical direction on the real-time plane image data;
s34, acquiring numerical difference data of the reference position data and the real-time position data in the vertical direction;
and S35, comparing the numerical difference data with preset comparison data, if the numerical difference data is larger than the preset comparison data, kicking off the infant, otherwise, continuing to execute S2.
By adopting the above technical scheme, in step S3, feature point data is obtained first, reference position data of the feature point data in the vertical direction on the reference plane image data is determined according to the reference plane image data, real-time position data of the feature point data in the vertical direction on the real-time plane image data is determined according to the real-time plane image data, so that numerical difference data of the feature point data in the vertical direction on the reference plane image data and the real-time plane image data can be calculated, change of the feature point data of the infant can be determined according to the numerical difference data, and the numerical difference data is compared with preset comparison data, if the numerical difference data is larger than the preset comparison data, the infant is kicked away, otherwise, the operation of obtaining the real-time plane image data is continuously performed.
Optionally, when outputting the sub-selection information under the optimal sleep temperature data, the method further includes:
responding to each quilt kicking-off operation of the infant, and acquiring detection quilt image data corresponding to the fact that the infant covers the quilt in real time;
calling a pre-stored quilt image data set, matching the detected quilt image data with each quilt image data in the quilt image data set, and acquiring the number data of matching each quilt image data to the corresponding number data;
and comparing the matched frequency data of all the sub-image data to obtain the sub-image data corresponding to the minimum frequency data, and determining the most suitable sub-image data.
By adopting the technical scheme, a plurality of quilts can be arranged in the infant house, and the quilts covered at different times can be different, when detecting that the infant kicks off the quilt each time, acquiring the image data of the detected quilt corresponding to the infant covering the quilt in real time, then calling the pre-stored image data set of the quilt, wherein the quilt image data set is the corresponding quilt image data of all the quilts in the infant house, and all the quilt image data are collected in advance and stored, then the detected quilt image data are matched with each quilt image data in the quilt image data set, the corresponding times data matched with each quilt image data are obtained, the times data matched with all the quilt image data are compared one by one, the quilt image data corresponding to the minimum numerical value of the times data are obtained, and the quilt image data are determined to be the most suitable quilt data.
Optionally, when acquiring the indoor temperature data set, the method further includes:
in response to the fact that the child is kicked away every time, corresponding time point data are determined for multiple times, and a time point data set is obtained;
dividing the infant sleeping time period into a plurality of time period data with the same time length;
and acquiring easy-to-send time section data according to the time point data set, wherein the easy-to-send time section data is a time section corresponding to the quilt kicked by the infant frequently.
By adopting the technical scheme, when the situation that the quilt is kicked away by the infant is detected each time, the corresponding time point data is obtained, the time point data set related to the time point data is obtained, then the conventional sleeping time of the infant is divided into a plurality of time segment data with the same time length, and the situation that the quilt is kicked away by the infant in the time segment data is more determined according to the corresponding relation between the time point data set and all the time segment data, so that the time segment data easy to send can be determined, and a guardian of the infant can pay more attention to whether the quilt is kicked away by the infant or not in the time segment corresponding to the time segment data easy to send.
Optionally, in the process of acquiring the data of the easy time period, the following process is further included:
matching each time point data in the time point data set with each time period data to obtain frequency data of each time period data matched with the time point data;
and comparing the frequency data corresponding to all the time section data to obtain the time section data corresponding to the maximum frequency data, and determining the time section data as the easy-to-send time section data.
By adopting the technical scheme, when the easy-to-send time period data is determined, all time point data in the time point data set is matched with each time period data, so that the corresponding number of the time point data in each time period data can be determined, the frequency data of each time period data matched with the time point data is obtained, then the frequency data corresponding to each time period data is compared, the time period data corresponding to the frequency data in the maximum is determined, and the easy-to-send time period data can be determined.
Optionally, the method further includes:
and responding to the detected quilt kicking-off operation of the infant, acquiring an alarm message, and conveying the alarm message to the mobile terminal of the guardian.
By adopting the technical scheme, after the quilt is kicked away by the infant, the alarm information can be obtained, and the alarm information is transmitted to the mobile terminal of the guardian corresponding to the infant, so that the guardian can be reminded in real time, and the cover can be covered in time.
The application provides a system for reducing infant and pre-school children's quilt-kicking behavior adopts following technical scheme:
a system for reducing quilt kicking behaviors of infants comprises a reference image acquisition module, a real-time image acquisition module, a comparison module, a real-time temperature acquisition module, an execution module, a counting module, a control module and a prompt module; the reference image acquisition module is used for acquiring corresponding reference plane image data when the infant just falls asleep; the real-time image acquisition module is used for acquiring real-time planar image information corresponding to the sleep of the infant in real time at intervals of unit time data; the comparison module is respectively connected with the reference image acquisition module and the real-time image acquisition module and is used for comparing the real-time plane image information with the reference plane image information, and outputting a temperature acquisition signal if the infant kicks off a quilt; the real-time temperature acquisition module is connected to the control module, receives the temperature acquisition signal and acquires indoor corresponding indoor temperature data; the execution module is connected with the real-time image acquisition module, the control module and the real-time temperature acquisition module and is used for acquiring an indoor temperature data set; the counting module is connected with the execution module and is used for acquiring indoor temperature data with the minimum frequency in the indoor temperature data set and outputting the most suitable sleep temperature data; the control module is connected with the counting module and used for receiving the most suitable sleeping temperature data and controlling the indoor temperature control equipment to adjust the indoor temperature; and the prompting module is connected with the control module and is used for outputting quilt selection information according to the most suitable sleep temperature data.
By adopting the technical scheme, when an infant sleeps on a crib, the reference image acquisition module acquires reference plane image data corresponding to the infant when the infant just sleeps, and then the real-time image acquisition module acquires real-time plane image information corresponding to the infant sleeping at intervals of unit interval time data, wherein the real-time plane image information and the reference plane image information are acquired at the same angle and are acquired from the peripheral side, and the comparison module compares the real-time plane image information with the reference plane image information and detects whether the infant kicks off a quilt or not; in response to the fact that the operation that the infant kicks the quilt away is detected, the real-time temperature acquisition module acquires indoor temperature data corresponding to the indoor environment temperature at the moment, stores the indoor temperature data, and the execution module repeatedly executes the operation process, acquires a large number of conditions that the infant kicks the quilt when sleeping and acquires a corresponding indoor temperature data set; the counting module compares the frequency of all indoor temperature data in the indoor temperature data set, determines the indoor temperature data which is least frequently generated and corresponds to the indoor temperature data and determines the indoor temperature data as the optimal sleeping temperature data, and therefore the situation that the quilt is rarely kicked in the infant sleeping process under the indoor temperature corresponding to the optimal sleeping temperature data is determined; in summary, in the sleeping process of the infant, the control module can control the indoor temperature at the temperature corresponding to the optimal sleeping temperature data through the indoor temperature control device, and in addition, the prompt module outputs quilt selection prompt information at the optimal sleeping temperature to prompt a guardian of the infant to select which quilt, so that the situation that the infant kicks the quilt in the sleeping process is reduced.
Optionally, the comparison module includes a feature point obtaining submodule, a reference position obtaining submodule, a real-time position obtaining submodule, a numerical difference obtaining submodule, and a control submodule; the characteristic point acquisition submodule is used for acquiring characteristic point data; the reference position acquisition submodule is connected to the reference image acquisition module and is used for acquiring reference position data of the feature point data in the vertical direction on the reference plane image data; the real-time position acquisition submodule is connected with the real-time image acquisition module and is used for acquiring real-time position data of the feature point data in the vertical direction on the real-time plane image data; the numerical difference acquisition submodule is respectively connected with the reference position acquisition submodule and is used for acquiring numerical difference data of the reference position data and the real-time position data in the vertical direction; the control submodule is connected with the numerical difference acquisition submodule and compares the numerical difference data with preset comparison data, and if the numerical difference data is larger than the preset comparison data, the infant kicks the quilt open.
By adopting the technical scheme, the characteristic point acquisition submodule firstly acquires characteristic point data, the reference position acquisition submodule determines reference position data of the characteristic point data in the vertical direction on reference plane image data, the real-time position acquisition submodule determines real-time position data of the characteristic point data in the vertical direction on real-time plane image data, the numerical difference acquisition submodule can calculate numerical difference data of the characteristic point data in the vertical direction on the reference plane image data and the real-time plane image data, the control submodule can judge the change of the characteristic point data of the infant according to the numerical difference data and compare the numerical difference data with preset comparison data, if the numerical difference data is larger than the preset comparison data, the infant is indicated to be kicked away by the infant, otherwise, the operation of acquiring the real-time plane image data is continuously executed.
The application provides an intelligent terminal, which comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute the method for reducing the quilt kicking behavior of an infant.
The present application provides a computer readable storage medium storing a computer program that can be loaded by a processor and executed to perform a method such as reducing kicking of a child by an infant.
In summary, the present application includes at least one of the following beneficial technical effects:
when an infant sleeps on a crib, reference plane image data corresponding to the infant when the infant just sleeps are acquired, reference plane image information is acquired from the periphery side, real-time plane image information corresponding to the infant sleeping is acquired at intervals of unit interval time data, the real-time plane image information and the reference plane image information are acquired at the same angle, then the real-time plane image information is compared with the reference plane image information, and whether the infant kicks off a quilt or not is detected; responding to the detected operation that the infant kicks off the quilt, acquiring indoor temperature data corresponding to the indoor environment temperature, acquiring the indoor temperature data, repeatedly executing the operation process, acquiring a large amount of quilt kicking conditions of the infant during sleeping, and acquiring a corresponding indoor temperature data set; then, the frequency of all indoor temperature data in the indoor temperature data set is compared, the indoor temperature data which is least frequently corresponding to the indoor temperature data is determined and is determined as the optimal sleeping temperature data, and therefore the situation that the quilt is less kicked in the sleeping process of the infant at the indoor temperature corresponding to the optimal sleeping temperature data is determined; in summary, in the sleeping process of the infant, the indoor temperature can be controlled at the temperature corresponding to the optimal sleeping temperature data through the indoor temperature control device, and in addition, the quilt selection prompt information is output at the optimal sleeping temperature to prompt the guardian of the infant to select which quilt, so that the situation that the infant kicks the quilt in the sleeping process is reduced.
Drawings
FIG. 1 is a block diagram of an overall flow chart of an embodiment of a method for reducing quilt kicking behavior of an infant of the present application;
FIG. 2 is a block diagram of a process of detecting whether an infant is kicked away in an embodiment of a method for reducing the kicking behavior of the infant;
FIG. 3 is a block diagram of a process for obtaining optimal quilt data in an embodiment of a method for reducing quilt kicking behavior of an infant;
FIG. 4 is a block diagram of a flow chart of obtaining data of an easy time period in an embodiment of a method for reducing a quilt kicking behavior of an infant of the present application;
FIG. 5 is a block diagram illustrating the overall connections of an embodiment of the system for reducing quilt kicking behavior of an infant of the present application;
FIG. 6 is a block diagram of sub-modules of a comparison module in an embodiment of a system for reducing kicking behavior of an infant.
Description of reference numerals:
1. a reference image acquisition module; 2. a real-time image acquisition module; 3. a comparison module; 4. a real-time temperature acquisition module; 5. an execution module; 6. a counting module; 7. a control module; 8. a prompt module; 9. a characteristic point acquisition submodule; 10. a reference position acquisition submodule; 11. a real-time position acquisition sub-die; 12. a numerical difference acquisition submodule; 13. and a control submodule.
Detailed Description
The present application will be described in further detail below.
The first embodiment is as follows: the embodiment of the application discloses a method for reducing quilt kicking behaviors of infants, which comprises the following steps with reference to fig. 1 and 2.
And S1, acquiring the corresponding reference plane image data when the infant just falls asleep, wherein the reference plane image information is acquired from the peripheral side.
And S2, determining unit interval time data, wherein the time length of the unit interval time data can be set and modified, real-time plane image information corresponding to the sleeping of the infant is acquired in real time by each unit interval time data, and the real-time plane image information is acquired at the same angle with the reference plane image information.
S3, comparing the real-time plane image information with the reference plane image information, and detecting whether the infant is kicked away, referring to fig. 1, the specific process of detecting whether the infant is kicked away is as follows.
S31, obtaining the feature point data in real time, where the feature point may be a body part of the infant or a part of the quilt, and in this embodiment, the feature point is a point where the infant covers the middle position of the quilt.
S32, reference position data of the feature point data in the vertical direction on the reference plane image data, that is, the height of the feature point in the vertical direction in the reference plane image data is determined.
S33, real-time position data of the feature point data in the vertical direction on the real-time plane image data, that is, the height of the feature point in the vertical direction in the reference plane image data is determined.
S34, acquiring numerical difference data of the reference position data and the real-time position data in the vertical direction, wherein the numerical difference data are acquired in the following mode: the numerical difference data is real-time position data-reference position data.
S35, comparing the numerical difference data with preset comparison data, wherein the preset comparison data is the difference value of the feature point data detected by the ordinary infant kicking away the quilt in the vertical direction on the real-time plane image data and the reference plane image data; if the numerical difference data is larger than the preset comparison data, the infant is kicked away, otherwise, S2 is continuously executed.
And S4, responding to the operation that the infant kicks off the quilt, and acquiring indoor temperature data corresponding to the infant kicking off the quilt.
And S5, repeating the steps S2, S3 and S4 for multiple times, and acquiring an indoor temperature data set corresponding to the indoor temperature data.
S6, under the condition that the temperature sizes corresponding to the indoor temperature data in the indoor temperature data set are partially the same or different, acquiring the indoor temperature data with the least frequency in the indoor temperature data set, and determining the indoor temperature data as the optimal sleeping temperature data, which indicates that under the indoor temperature data temperature corresponding to the optimal sleeping temperature data, the situation that the infant kicks a quilt in the sleeping process is less.
And S7, controlling indoor temperature control equipment to adjust the indoor temperature according to the optimal sleep temperature data, and adjusting the indoor temperature to the temperature corresponding to the optimal sleep temperature data.
S8, outputting the quilt selection information under the optimal sleep temperature data, referring to fig. 3, the specific process is: responding to each quilt kicking-off operation of the infant, and acquiring detection quilt image data corresponding to the fact that the infant covers the quilt in real time;
calling a pre-stored quilt image data set, wherein the quilt image data set is quilt image data corresponding to all quilts in the infant, all the quilt image data are pre-collected and stored, the detected quilt image data are matched with each quilt image data in the quilt image data set, and the number data of matching each quilt image data to the corresponding number under the optimal sleeping temperature data are obtained;
and comparing the matched frequency data of all the quilt image data, acquiring the quilt image data corresponding to the minimum frequency data, and determining the most suitable quilt data, wherein the outputted quilt prompt information is the information about the most suitable quilt information.
In addition, when acquiring the indoor temperature data set, referring to fig. 4, the method further includes:
responding to each time that the infant kicks off the quilt, determining corresponding time point data, wherein the time point data corresponds to the time point when the infant kicks off the quilt, and acquiring a time point data set after the time point data is determined for multiple times;
the infant sleep time period is divided into a plurality of time period data with the same time length, and the division operation of the time period data can also be carried out.
Acquiring easy-to-send time section data according to the time point data set, wherein the easy-to-send time section data is a time section corresponding to a quilt kicked by the infant frequently, and the specific process of acquiring the easy-to-send time section data is as follows:
matching each time point data in the time point data set with each time period data, wherein the matching means that the time point corresponding to each time point data is in which time period data, one time point data falls into the time period data, the frequency of the time period data is 1, and after all the time point data are matched, the frequency data of each time period data matched with the time point data can be obtained;
and comparing the frequency data corresponding to all the time period data to obtain the time period data corresponding to the maximum frequency data, and determining the time period data as the easy-to-send time period data to indicate the time period corresponding to the easy-to-send time period data of the infant.
After the data of the easy-to-send time period is obtained, the guardian of the infant can increase the frequency of checking the sleeping condition of the infant in the easy-to-send time period data.
When the infant is detected to kick off the quilt each time, the alarm information is obtained at the same time, and the alarm information is conveyed to the mobile terminal of the guardian, so that the guardian can be reminded in real time, and the cover can be covered in time.
The implementation principle of the method for reducing the quilt kicking behavior of the infant in the embodiment of the application is as follows:
firstly, obtaining reference plane image data corresponding to an infant when the infant just sleeps, then obtaining real-time plane image information corresponding to the infant sleeping at intervals, comparing the real-time plane image information with the reference plane image information, detecting whether the infant kicks away, when detecting, firstly obtaining characteristic point data, determining reference position data of the characteristic point data in the vertical direction on the reference plane image data, determining real-time position data of the characteristic point data in the vertical direction on the real-time plane image data, calculating numerical difference data of the characteristic point data in the vertical direction on the reference plane image data and the real-time plane image data, wherein the numerical difference data represents how far the characteristic point moves in the vertical direction, and comparing the numerical difference data with preset comparison data, if the numerical difference data is larger than the preset comparison data, the infant is kicked away, otherwise, the operation of acquiring the real-time plane image data is continuously executed.
When the infant is detected to kick off the quilt, the indoor temperature data corresponding to the indoor environment temperature at the moment are obtained, the indoor temperature data are acquired, the operation process is repeatedly executed, a large amount of indoor temperature data of the infant when the infant kicks off the quilt during sleeping are acquired, and therefore the corresponding indoor temperature data set is obtained.
Then, the frequency of all indoor temperature data in the indoor temperature data set is compared, the indoor temperature data corresponding to the minimum frequency is determined, the situation that the infant kicks a quilt under the indoor temperature data is less likely to occur, and the indoor temperature data is determined to be the optimal sleeping temperature data; in the sleeping process of the infant, the indoor temperature can be controlled at the temperature corresponding to the optimal sleeping temperature data through the indoor temperature control device, and in addition, quilt selection prompt information is output at the optimal sleeping temperature to prompt a guardian of the infant to select which quilt, so that the situation that the infant kicks the quilt in the sleeping process is reduced.
Example two: a system for reducing quilt kicking behaviors of infants refers to FIG. 5, and comprises a reference image acquisition module 1, a real-time image acquisition module 2, a comparison module 3, a real-time temperature acquisition module 4, an execution module 5, a counting module 6 and a prompt module 8;
the reference image acquisition module 1 is used for acquiring reference plane image data corresponding to an infant when the infant is just asleep;
the real-time image acquisition module 2 is used for acquiring real-time planar image information corresponding to the sleep of the infant in real time at intervals of unit time data;
the comparison module 3 is respectively connected with the reference image acquisition module 1 and the real-time image acquisition module 2 and is used for comparing the real-time plane image information with the reference plane image information, and outputting a temperature acquisition signal if the infant kicks off a quilt;
the real-time temperature acquisition module 4 is connected to the control module 7, receives the temperature acquisition signal and acquires indoor corresponding indoor temperature data;
the real-time image acquisition module 2, the control module 7 and the real-time temperature acquisition module 4 are connected to the control module for acquiring an indoor temperature data set;
the counting module 6 is connected with the execution module 5 and used for acquiring the indoor temperature data with the minimum frequency in the indoor temperature data set and outputting the most suitable sleep temperature data;
the control module 7 is connected with the counting module 6 and used for receiving the most suitable sleeping temperature data and controlling the indoor temperature control equipment to adjust the indoor temperature;
and the prompting module 8 is connected with the control module 7 and is used for outputting quilt selection information according to the most suitable sleep temperature data.
When an infant sleeps on a crib, a reference image acquisition module 1 acquires reference plane image data corresponding to the infant when the infant just sleeps, then a real-time image acquisition module 2 acquires real-time plane image information corresponding to the infant sleeping at intervals of unit interval time data, wherein the real-time plane image information and the reference plane image information are acquired at the same angle and are acquired from the peripheral side, and a comparison module 3 compares the real-time plane image information with the reference plane image information and detects whether the infant kicks off a quilt; in response to the detection of the operation that the infant kicks the quilt away, the real-time temperature acquisition module 4 acquires indoor temperature data corresponding to the indoor environment temperature at the moment, stores the indoor temperature data, and the execution module 5 repeatedly executes the operation process, acquires a large amount of conditions that the infant kicks the quilt when sleeping, and acquires a corresponding indoor temperature data set; the counting module 6 compares the frequency of all indoor temperature data in the indoor temperature data set, determines the indoor temperature data which is least frequently generated and corresponds to the indoor temperature data and determines the indoor temperature data as the optimal sleeping temperature data, and therefore determines that the quilt kicking is less generated in the infant sleeping process at the indoor temperature corresponding to the optimal sleeping temperature data; in summary, in the sleeping process of the infant, the control module 7 may control the indoor temperature at the temperature corresponding to the optimal sleeping temperature data through the indoor temperature control device, and in addition, the prompt module 8 outputs quilt selection prompt information at the optimal sleeping temperature to prompt the guardian of the infant to select which quilt, so as to reduce the quilt kicking condition of the infant in the sleeping process.
Referring to fig. 6, the comparison module 3 includes a feature point obtaining submodule 9, a reference position obtaining submodule 10, a real-time position obtaining submodule 11, a numerical difference obtaining submodule 12, and a control submodule 13;
a feature point obtaining submodule 9 configured to obtain feature point data;
the reference position acquisition submodule 10 is connected to the reference image acquisition module 1 and is used for acquiring reference position data of the feature point data in the vertical direction on the reference plane image data;
the real-time position acquisition submodule 11 is connected to the real-time image acquisition module 2 and is used for acquiring real-time position data of the feature point data in the vertical direction on the real-time plane image data;
the numerical difference acquisition submodule 12 is respectively connected with the reference position acquisition submodule 10 and is used for acquiring numerical difference data of the reference position data and the real-time position data in the vertical direction;
and the control submodule 13 is connected with the numerical difference acquisition submodule 12, compares the numerical difference data with the preset comparison data, and kicks off the quilt if the numerical difference data is larger than the preset comparison data.
The feature point obtaining submodule 9 obtains feature point data first, the reference position obtaining submodule 10 determines reference position data of the feature point data in the vertical direction on reference plane image data, the real-time position obtaining submodule 11 determines real-time position data of the feature point data in the vertical direction on real-time plane image data, the numerical difference obtaining submodule 12 can calculate numerical difference data of the feature point data in the vertical direction on the reference plane image data and the real-time plane image data, the control submodule 13 can judge change of the feature point data of the infant according to the numerical difference data, and compares the numerical difference data with preset comparison data, if the numerical difference data is larger than the preset comparison data, the infant is kicked away, otherwise, the operation of obtaining the real-time plane image data is continuously executed.
Example three: the application provides an intelligent terminal which comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute the method for reducing the quilt kicking behavior of infants.
Example four: the present application provides a computer readable storage medium storing a computer program that can be loaded by a processor and executed to perform a method such as reducing kicking of a child by an infant.
The computer-readable storage medium includes, for example: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.
Claims (10)
1. A method for reducing quilt kicking behaviors of infants is characterized by comprising the following steps:
s1, acquiring reference plane image data corresponding to the infant just asleep, wherein the reference plane image information is acquired from the peripheral side;
s2, unit interval time data are determined, real-time plane image information corresponding to the sleeping of the infant is obtained in real time through each unit interval time data, and the real-time plane image information and the reference plane image information are obtained at the same angle;
s3, comparing the real-time plane image information with the reference plane image information, and detecting whether the infant kicks away a quilt;
s4, responding to the operation that the infant kicks off the quilt, and acquiring indoor temperature data corresponding to the infant kicking off the quilt;
s5, repeatedly executing S2, S3 and S4 for multiple times to obtain an indoor temperature data set corresponding to the indoor temperature data;
s6, acquiring indoor temperature data with the least frequency in the indoor temperature data set and determining the indoor temperature data as the optimal sleep temperature data;
s7, controlling the indoor temperature control equipment to adjust the indoor temperature according to the optimal sleep temperature data;
and S8, outputting the sub-selection information under the optimal sleep temperature data.
2. The method of reducing kicking behavior of an infant as claimed in claim 1, wherein at S3, further comprising:
s31, obtaining feature point data;
s32, determining the reference position data of the feature point data in the vertical direction on the reference plane image data;
s33, determining the real-time position data of the feature point data in the vertical direction on the real-time plane image data;
s34, acquiring numerical difference data of the reference position data and the real-time position data in the vertical direction;
and S35, comparing the numerical difference data with preset comparison data, if the numerical difference data is larger than the preset comparison data, kicking off the infant, otherwise, continuing to execute S2.
3. The method of claim 1, wherein when outputting quilt selection information under optimal sleep temperature data, the method further comprises:
responding to each quilt kicking-off operation of the infant, and acquiring detection quilt image data corresponding to the fact that the infant covers the quilt in real time;
calling a pre-stored quilt image data set, matching the detected quilt image data with each quilt image data in the quilt image data set, and acquiring the number data of matching each quilt image data to the corresponding number data;
and comparing the matched frequency data of all the sub-image data to obtain the sub-image data corresponding to the minimum frequency data, and determining the most suitable sub-image data.
4. The method of claim 1, wherein the acquiring of the indoor temperature data set further comprises:
in response to the fact that the child is kicked away every time, corresponding time point data are determined for multiple times, and a time point data set is obtained;
dividing the infant sleeping time period into a plurality of time period data with the same time length;
and acquiring easy-to-send time section data according to the time point data set, wherein the easy-to-send time section data is a time section corresponding to the quilt kicked by the infant frequently.
5. The method for reducing kicking behaviors of infants and young children as claimed in claim 4, wherein in the process of obtaining the data of the easy time period, the method further comprises the following processes:
matching each time point data in the time point data set with each time period data to obtain frequency data of each time period data matched with the time point data;
and comparing the frequency data corresponding to all the time section data to obtain the time section data corresponding to the maximum frequency data, and determining the time section data as the easy-to-send time section data.
6. The method of reducing kicking behavior of an infant and pre-school children according to claim 1, further comprising:
and responding to the detected quilt kicking-off operation of the infant, acquiring an alarm message, and conveying the alarm message to the mobile terminal of the guardian.
7. A system for reducing quilt kicking behaviors of infants is characterized by comprising a reference image acquisition module (1), a real-time image acquisition module (2), a comparison module (3), a real-time temperature acquisition module (4), an execution module (5), a counting module (6), a control module (7) and a prompt module (8);
the reference image acquisition module (1) is used for acquiring reference plane image data corresponding to the infant when the infant just falls asleep;
the real-time image acquisition module (2) is used for acquiring real-time planar image information corresponding to the sleep of the infant at intervals of unit time data;
the comparison module (3) is respectively connected with the reference image acquisition module (1) and the real-time image acquisition module (2) and is used for comparing the real-time plane image information with the reference plane image information, and outputting a temperature acquisition signal if the infant is detected to kick off the quilt;
the real-time temperature acquisition module (4) is connected to the control module (7) and is used for receiving a temperature acquisition signal and acquiring indoor corresponding indoor temperature data;
the execution operation is connected to the real-time image acquisition module (2), the control module (7) and the real-time temperature acquisition module (4) and is used for acquiring an indoor temperature data set;
the counting module (6) is connected to the execution module (5) and is used for acquiring indoor temperature data with the minimum frequency in the indoor temperature data set and outputting the most suitable sleep temperature data;
the control module (7) is connected to the counting module (6) and is used for receiving the most suitable sleeping temperature data and controlling the indoor temperature control equipment to adjust the indoor temperature;
and the prompting module (8) is connected to the control module (7) and is used for outputting quilt selection information according to the most suitable sleep temperature data.
8. The system for reducing the quilt kicking behavior of the infant as claimed in claim 7, wherein the comparison module (3) comprises a feature point acquisition submodule (9), a reference position acquisition submodule (10), a real-time position acquisition submodule (11) block, a numerical difference acquisition submodule (12) and a control submodule (13);
the characteristic point acquisition submodule (9) is used for acquiring characteristic point data;
the reference position acquisition submodule (10) is connected to the reference image acquisition module (1) and is used for acquiring reference position data of the feature point data in the vertical direction on the reference plane image data;
the real-time position acquisition sub-module (11) is connected to the real-time image acquisition module (2) and is used for acquiring real-time position data of the feature point data in the vertical direction on the real-time plane image data;
the numerical difference acquisition submodule (12) is respectively connected with the reference position acquisition submodule (10) and is used for acquiring numerical difference data of the reference position data and the real-time position data in the vertical direction;
the control submodule (13) is connected with the numerical difference obtaining submodule (12) and compares the numerical difference data with preset comparison data, and if the numerical difference data is larger than the preset comparison data, the infant kicks the quilt open.
9. An intelligent terminal, comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and that executes the method according to any one of claims 1 to 6.
10. Computer-readable storage medium, characterized in that a computer program is stored which can be loaded by a processor and which executes the method according to any one of claims 1 to 6.
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