JP7240491B2 - Cleaning control method and system for cleaning equipment - Google Patents

Description

The present invention relates to the field of cleaning equipment technology, and in particular to cleaning control methods and systems for cleaning equipment.

Modern people's work and life are getting busier and busier, and washing machines such as clothes washing machines and dishwashers are being widely used, which can reduce the time people spend on housework and labor.

At present, when users use the cleaning equipment, they generally need to select the program by pressing the program key or sliding the program interface, and then set the water volume, cleaning frequency, cleaning time, etc. and the operation procedure is complicated. The program cannot be sorted according to the user's preference, and the parameters set by the user during self-programming are often not saved and must be reset again after restarting the device.

In order to solve the above problems of the prior art, the present invention provides a cleaning control method and system for a cleaning device, which simplifies the operation procedure of the cleaning device and improves user convenience.

One aspect of the present invention provides a display control method for a cleaning program for a cleaning device, the display control method for a cleaning program for a cleaning device comprising the steps of acquiring the frequency of use of each cleaning program in the cleaning device within a certain period of time; and simultaneously displaying each of the cleaning programs in order from the most frequently used to the least frequently used when the cleaning device is activated, and calculating the frequency of use of each cleaning program in the cleaning device within a certain period of time. The obtaining step obtains the usage frequency of each of the cleaning programs based on history cleaning data of each of the cleaning programs within the predetermined period of time stored in advance in the cleaning device, and uses the acquired usage frequency as a second usage frequency. obtaining the frequency of use of each of the cleaning programs in the specific cleaning apparatus, which is a specific cleaning apparatus pre-stored in a remote server, within the predetermined period of time; calculating a weighted sum of the second frequency of use and the third frequency of use, obtaining a frequency of use corresponding to each of the cleaning programs in the cleaning apparatus, and using the obtained frequency of use as a fourth frequency of use; and said specific cleaning device includes said cleaning device and cleaning devices of the same model number as said cleaning device used by other users.

Preferably, when the cleaning device is activated, prior to the step of simultaneously sequentially displaying each of the cleaning programs in order of frequency of use from most to least used, each cleaning parameter corresponding to each cleaning parameter in the cleaning device is displayed. The step of obtaining the frequency of use of the parameter rank within a certain period of time of the parameter rank is further included.

When the cleaning apparatus is started, after the step of simultaneously sequentially displaying each of the cleaning programs in order of the frequency of use from the most frequently used to the least frequently used, each of the cleaning parameters is corresponded to based on the parameter rank frequency of use. displaying the most frequently used parameter ranks.

Preferably, the step of obtaining the parameter rank usage frequency within a certain time period of each parameter rank corresponding to each cleaning parameter in the cleaning device corresponds to each cleaning parameter in the corresponding cleaning program based on the history cleaning data. The step of analyzing the parameter rank usage frequency of each parameter rank within the predetermined time and using the analyzed parameter rank usage frequency as the first parameter rank usage frequency.

Preferably, the step of obtaining the parameter rank usage frequency within a certain time period of each parameter rank corresponding to each cleaning parameter in the cleaning device corresponds to each cleaning parameter in the corresponding cleaning program based on the history cleaning data. analyzing the frequency of use of each parameter rank within the predetermined period of time, and setting the analyzed frequency of use of the parameter rank as a second frequency of use of the parameter rank; a step of acquiring the parameter rank usage frequency within the predetermined time for each parameter rank corresponding to each cleaning parameter of the cleaning program, and setting the acquired parameter rank usage frequency as a third parameter rank usage frequency; calculating a weighted sum of the usage frequency and the third parameter rank usage frequency to obtain a fourth parameter rank usage frequency.

Preferably, a weighted sum of the second frequency of use and the third frequency of use is calculated to obtain a frequency of use corresponding to each of the cleaning programs in the cleaning apparatus, and the obtained frequency of use is defined as a fourth frequency of use. In the step, the weight of the second frequency of use is greater than the weight of the third frequency of use.

Preferably, in the step of calculating a weighted sum of the second parameter rank usage frequency and the third parameter rank usage frequency to obtain a fourth parameter rank usage frequency, the weight of the second parameter rank usage frequency is equal to the third parameter rank usage frequency. It becomes larger than the weight of the parameter rank usage frequency.

Another aspect of the present invention provides a display control system for a cleaning program for a cleaning device, the display control system for a cleaning program for a cleaning device comprising a program usage frequency acquisition module and a sorting display module, wherein the program usage frequency acquisition module is configured to acquire the frequency of use of each cleaning program in the cleaning apparatus within a certain period of time, and when the cleaning apparatus is activated, the sorting display module displays each cleaning program in order from the most frequently used to the least frequently used. wherein the usage frequency acquisition module comprises a first acquisition sub-unit, a second acquisition sub-unit and a third acquisition sub-unit, wherein the first acquisition sub-unit comprises the The frequency of use of each of the cleaning programs is acquired based on the historical cleaning data of each of the cleaning programs stored in advance in the cleaning apparatus and stored in advance in the predetermined period of time, and the acquired frequency of use is set as a second frequency of use. and the second acquisition subunit acquires the frequency of use of each of the cleaning programs in the specific cleaning apparatus, which is a specific cleaning apparatus pre-stored in the remote server, within the predetermined period of time, and stores the acquired frequency of use as a second configured to have three frequencies of use, wherein the third obtaining subunit calculates a weighted sum of the second frequency of use and the third frequency of use to obtain a current corresponding use for each of the cleaning programs in the cleaning device; A frequency is acquired, and the acquired usage frequency is set as a fourth usage frequency, and the specific cleaning device is a cleaning device having the same model number as the cleaning device used by the cleaning device and another user. including.

Preferably, the display control system for the cleaning program of the cleaning apparatus further includes a parameter rank usage frequency acquisition module and a parameter rank display module , wherein the parameter rank usage frequency acquisition module corresponds to each cleaning parameter in the cleaning apparatus. The parameter rank display module is configured to obtain the parameter rank usage frequency of each parameter rank within a certain period of time, and the parameter rank display module determines, based on the parameter rank usage frequency , the parameter rank usage frequency corresponding to each of the cleaning parameters is the highest. Configured to display parameter rank.

Preferably, the parameter rank usage frequency acquisition module includes a third acquisition unit, and the third acquisition unit determines the parameter rank of each parameter rank corresponding to each cleaning parameter in a corresponding cleaning program based on the historical cleaning data. It is configured to analyze the parameter rank usage frequency within a certain period of time and set the analyzed parameter rank usage frequency as the first parameter rank usage frequency .

Preferably, the parameter rank usage frequency acquisition module includes a fourth acquisition unit including a fourth acquisition sub-unit, a fifth acquisition sub-unit, and a sixth acquisition sub-unit,
The fourth acquisition subunit analyzes, based on the historical cleaning data, the parameter rank usage frequency within the predetermined time of each parameter rank corresponding to each cleaning parameter in the corresponding cleaning program , and analyzes the parameter rank The frequency of use is configured to be the second parameter rank frequency of use ,
the fifth obtaining sub-unit obtains a parameter rank usage frequency within the predetermined time of each parameter rank corresponding to each cleaning parameter of each cleaning program in a specific cleaning apparatus pre-stored in the remote server; configured to set the acquired parameter rank usage frequency as the third parameter rank usage frequency ,
The sixth obtaining sub-unit is configured to calculate a weighted sum of the second parameter rank usage frequency and the third parameter rank usage frequency to obtain a fourth parameter rank usage frequency.

In the cleaning control method for a cleaning device provided by the present invention, first, the frequency of use of each cleaning program and the frequency of use of each parameter rank of each cleaning parameter in each cleaning program are determined based on historical cleaning data stored in the cleaning device. and then sorting from highest to lowest based on the frequency of use of the cleaning programs, allowing the user to preferentially select the cleaning programs with which they are accustomed, and each Default values are set for the cleaning parameters of the currently selected cleaning program according to the parameter rank frequency of use.

Also, current cleaning devices may store only a small amount of cleaning data, or may have no cleaning data, whereas the present invention provides both locally stored historical cleaning data and remote server storage. The frequency of use corresponding to these two types of data is obtained based on the historical cleaning data of the same model number of cleaning equipment, and the weighted sum is calculated to obtain the overall frequency of use. You can also sort the wash programs and set default values for the wash parameters.

According to the present invention, cleaning programs are sorted based on historical cleaning data, and default values are set for each cleaning parameter in the cleaning programs. This greatly reduces the operating procedure of the cleaning device and improves the user's convenience.

1 is a flow chart showing main steps of an embodiment of a cleaning control method for a cleaning device according to the present invention; Fig. 3 is a flow chart showing main steps of an embodiment of a cleaning control method for another cleaning device according to the present invention; 1 is a configuration diagram showing the main configuration of an embodiment of a cleaning control system for cleaning equipment according to the present invention; FIG. FIG. 3 is a configuration diagram showing the main configuration of an embodiment of a cleaning control system for another cleaning device according to the present invention;

Preferred embodiments of the present invention will now be described with reference to the drawings. Persons skilled in the art will understand that these embodiments are for explaining the technical principle of the present invention and do not limit the protection scope of the present invention.

It should be noted that in describing the present invention, terms such as "first", "second", "third" are used for descriptive purposes only and indicate the relative importance of devices, elements or parameters. It should not be understood as a limitation to the present invention as it is not intended or implied.

The present invention utilizes the cleaning data stored in current cleaning equipment, while collecting and mining big data to automatically determine the user's degree of preference for a program through self-learning, thereby determining the accuracy of each cleaning. In addition to arranging the program priorities, it can also learn the cleaning parameters set by self-programming, such as time, water level, etc., and display the most frequently used time, water level, etc. by default.

Some washers have a dedicated self-programming function, along with washing programs such as "Standard" and "Large Lump", which allow the user to freely set various wash parameters. Some washers do not have the option of self-programming, in which washing parameters such as "standard", "large loaf", etc. can be modified by the user. "Historical wash data" according to the present invention indicates which wash program the user has selected (e.g., standard, large loaf, soft wash, quick wash, self-programming, etc.) and self-programs to the selected program. Including specific cleaning parameters set at the time (for example, in what rank the cleaning time was adjusted, in what rank the water level was set, in what rank the number of times of washing was set, etc.), these Historical cleaning data was collected during operation of the cleaning equipment and stored locally and uploaded to a remote server. "Self-programming" when referring to the following embodiments includes setting cleaning parameters in the self-programming function and parameter adjustments to programs such as "standard", "large loaf".

"Specific cleaning devices" referring to the following embodiments include current cleaning devices and other cleaning devices of the same model number as current cleaning devices, and "remote servers" may be conventional servers. It may also be a cloud server, and the "fixed time" can be set in advance to within one month, half a year, or one year from the current time.

FIG. 1 is a flow chart showing main steps of an embodiment of a cleaning control method for a cleaning apparatus according to the present invention. As shown in FIG. 1, the cleaning control method of this embodiment includes steps A10 to A20.
At step A10, the frequency of use of each cleaning program in the current cleaning apparatus within a certain period of time is acquired.

If only the historical cleaning data stored in the current cleaning device is analyzed, step A10 specifically follows the method of step A11 below to obtain the first usage frequency and then proceed to the later sorting step. can be done.

In step A11, the first use frequency of each cleaning program is acquired based on the historical cleaning data of each cleaning program within a certain period of time, which is stored in advance in the current cleaning apparatus.

When the user purchases a new cleaning device, the locally stored historical cleaning data will be very little or even nonexistent, in which case the method of step A11 will provide the user with an appropriate cleaning program. At that time, it is possible to recommend a cleaning program to the current user by analyzing how other users set up when using the same model number of cleaning equipment using big data. be done. Therefore, in a preferred embodiment, the historical cleaning data for the current cleaning device and the historical cleaning data for other cleaning devices of the same model number can be comprehensively analyzed, in which case step A10 specifically includes , according to the method of steps A12 to A14 below, the fourth usage frequency can be obtained before proceeding to the subsequent sorting steps.

In step A12, the second frequency of use of each cleaning program is acquired based on the historical cleaning data of each cleaning program within a certain period of time stored in advance in the current cleaning apparatus.

In step A13, a third use frequency within a certain period of time of each cleaning program in a specific cleaning apparatus pre-stored in the remote server is obtained.

In step A14, a weighted sum is calculated for the second usage frequency and the third usage frequency to obtain a fourth usage frequency corresponding to each cleaning program in the current cleaning apparatus.

If there is enough historical cleaning data stored locally, the second frequency of use has the weight of the third frequency of use, so that later rankings are based on locally stored historical data as much as possible. greater than the frequency-of-use weight.

In step A20, when the current cleaning apparatus is activated, the cleaning programs are displayed in order from the most frequently used to the least frequently used.

In this embodiment, historical cleaning data for the current cleaning device may be stored in a memory or storage device with power-down save capability. The memory may include Flash, EEPROM, or FRAM®, or the like, and the storage device may include SD cards, USB storage devices, hard disk drives, RAM that operates in combination with batteries, or the like. These include sorting and storing historical cleaning data by cleaning device model number and frequency statistics in the remote server.

FIG. 2 is a flow chart showing the main steps of another embodiment of a cleaning control method for a cleaning device according to the present invention. As shown in FIG. 2, the cleaning control method of this embodiment includes steps B10 to B40.

In step B10, the frequency of use of each cleaning program in the current cleaning apparatus within a certain period of time is obtained. The specific content of this step is the same as step A10 in FIG. 1, and will not be described further here.

In step B20, the parameter rank usage frequency within a certain period of time for each parameter rank corresponding to each cleaning parameter in the current cleaning apparatus is obtained.

If only the historical cleaning data stored in the current cleaning device is analyzed, step B20 specifically follows the method of step B21 below to obtain the first parameter rank usage frequency, and then the subsequent sorting step can proceed to

In step B21, the frequency of use of the first parameter rank within a certain period of time for each parameter rank corresponding to each cleaning parameter in the corresponding cleaning program is analyzed based on the historical cleaning data.

In a preferred embodiment, the historical cleaning data of the current cleaning device and the historical cleaning data of other cleaning devices of the same model number can be comprehensively analyzed, in which case step B20 specifically includes: After obtaining the fourth frequency of use according to the method of steps B22 to B24 of , the subsequent sorting steps can be performed.

In step B22, the frequency of use of the second parameter rank within a certain period of time for each parameter rank corresponding to each cleaning parameter in the corresponding cleaning program is analyzed based on the historical cleaning data.

In step B23, the frequency of use of the third parameter rank within a certain period of time for each parameter rank corresponding to each washing parameter of each washing program in a specific washing apparatus pre-stored in the remote server is obtained.

In step B24, a weighted sum of the second parameter rank usage frequency and the third parameter rank usage frequency is calculated to obtain the fourth parameter rank usage frequency.

Here, the weight of the second parameter rank usage frequency is greater than the weight of the third parameter rank usage frequency.

In step B30, when the current cleaning apparatus is activated, the cleaning programs are displayed in order from the most frequently used to the least frequently used.

In step B40, the parameter rank usage frequency of each parameter rank corresponding to each cleaning parameter in the current cleaning program is acquired, and the parameter rank with the highest parameter rank usage frequency corresponding to each cleaning parameter is displayed. That is, the default value of each cleaning parameter is set to the parameter rank with the highest frequency of use for the cleaning apparatus currently selected by the user.

In the above-described embodiment, each step is described in the above-described order, but as those skilled in the art will appreciate, in order to realize the effects of this embodiment, it is necessary to perform such an order between different steps. No need, it can be performed simultaneously (in parallel) or in reverse order, and these simple variations are within the protection scope of the present invention.

Based on the same technical conception as the above method embodiments, the present invention further provides an embodiment of a cleaning control system for a cleaning apparatus, which will be described in detail below.

FIG. 3 is a configuration diagram showing the main configuration of an embodiment of a cleaning control system for cleaning equipment according to the present invention. As shown in FIG. 3, a cleaning control system 10 for cleaning equipment in this embodiment includes a program use frequency acquisition module 11 and a sorting display module 12 .

Here, the program usage frequency acquisition module 11 is configured to acquire the usage frequency of each cleaning program in the current cleaning apparatus within a certain period of time, and the sorting display module 12 activates the current cleaning apparatus to obtain the usage frequency is configured to sequentially display the cleaning programs in order from highest to lowest.

The program usage frequency acquisition module 11 includes a first acquisition unit 111 and/or a second acquisition unit 112 .

The first acquisition unit 111 is configured to acquire a first usage frequency of each cleaning program based on historical cleaning data of each cleaning program within a certain period of time pre-stored in the current cleaning apparatus; Unit 112 includes a first obtaining sub-unit 1121 , a second obtaining sub-unit 1122 and a third obtaining sub-unit 1123 . The first acquisition subunit 1121 is configured to acquire a second usage frequency of each cleaning program based on historical cleaning data of each cleaning program within a certain period of time pre-stored in the current cleaning apparatus, and a second The obtaining subunit 1122 is configured to obtain a third usage frequency within a period of time of each cleaning program in a particular cleaning apparatus pre-stored in the remote server, the third obtaining subunit 1123 is adapted to obtain the second usage frequency and the third frequency of use to obtain a fourth frequency of use corresponding to each cleaning program in the current cleaning apparatus. As used herein, specific cleaning devices include current cleaning devices and cleaning devices of the same model number as the current cleaning device.

FIG. 4 is a configuration diagram showing the main configuration of an embodiment of a cleaning control system for another cleaning apparatus according to the present invention. As shown in FIG. 4, the cleaning control system 20 for cleaning equipment in this embodiment includes a program usage frequency acquisition module 21, a sorting display module 22, a parameter rank usage frequency acquisition module 23, and a parameter rank display module 24. FIG.

Here, the program use frequency acquisition module 21 and the sorting display module 22 are the same as the program use frequency acquisition module 11 and the sorting display module 12 in FIG. 3, respectively, and therefore will not be described here. The parameter rank usage frequency acquisition module 23 is configured to acquire the parameter rank usage frequency within a certain period of time of each parameter rank corresponding to each cleaning parameter in the current cleaning apparatus. The parameter rank usage frequency of each parameter rank corresponding to each cleaning parameter in the program is obtained, and the parameter rank having the highest parameter rank usage frequency corresponding to each cleaning parameter is displayed.

Regarding the configuration of the parameter rank usage frequency acquisition module 23, specifically, the third acquisition unit 231, which can include a third acquisition unit 231 and/or a fourth acquisition unit 232, based on historical cleaning data, corresponding The fourth obtaining unit 232 is configured to analyze the first parameter rank usage frequency within a certain time of each parameter rank corresponding to each washing parameter in the washing program, wherein the fourth obtaining unit 232 comprises a fourth obtaining sub-unit 2321 and a fifth obtaining sub-unit 2321 . It is configured to include a unit 2322 and a sixth obtaining sub-unit 2323 .

Here, the fourth obtaining subunit 2321 is configured to analyze the second parameter rank usage frequency within a certain time of each parameter rank corresponding to each cleaning parameter in the corresponding cleaning program based on the historical cleaning data. , the fifth obtaining subunit 2322 obtains the frequency of use of the third parameter rank within a certain period of time of each parameter rank corresponding to each washing parameter of each washing program in a specific washing device pre-stored in the remote server; A sixth obtaining subunit 2323 is configured to calculate a weighted sum of the second parameter rank usage frequency and the third parameter rank usage frequency to obtain a fourth parameter rank usage frequency.

In this application, the cleaning control system of the cleaning equipment is divided into modules, units, and subunits, which is only for better understanding of the functions according to the technical aspects of the present invention, and in practice , the functions corresponding to these modules can be loaded and executed by a single piece of hardware.

Those skilled in the art will appreciate that the example methods, steps, modules, units, sub-units described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software or Both combinations are feasible, and in order to clearly explain the interchangeability of electronic hardware and software, the configuration and procedures of each example are generally described functionally in the above description. These functions are implemented either in electronic hardware or in software, depending on the specific application and design constraints of the technical solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementations are not considered beyond the scope of the invention.

Although the technical solutions of the present invention have been described above with reference to the preferred embodiments shown in the drawings, it is obvious for those skilled in the art that the protection scope of the present invention is not limited to these specific embodiments. be. Without departing from the principle of the present invention, those skilled in the art can make equivalent changes or replacements to the relevant technical features, and the technical solutions after these changes or replacements are all within the protection scope of the present invention. come in.

Claims (10)

A display control method for a cleaning program for a cleaning device , comprising:
obtaining the frequency of use of each cleaning program in the cleaning device within a certain period of time;
simultaneously sequentially displaying each of the cleaning programs in order from the most frequently used to the least frequently used when the cleaning device is activated ;
The step of obtaining the frequency of use of each cleaning program in the cleaning device within a certain period of time includes:
a step of acquiring the frequency of use of each of the cleaning programs based on the historical cleaning data of each of the cleaning programs within the predetermined period of time stored in advance in the cleaning apparatus, and setting the acquired frequency of use as a second frequency of use; ,
a step of acquiring the frequency of use of each of the cleaning programs within the predetermined period of time in a specific cleaning device, which is a specific cleaning device pre-stored in a remote server, and setting the acquired frequency of use as a third frequency of use;
calculating a weighted sum of the second frequency of use and the third frequency of use, acquiring a frequency of use corresponding to each of the cleaning programs in the cleaning apparatus, and setting the acquired frequency of use as a fourth frequency of use; including
A display control method for a cleaning program for a cleaning device, wherein the specific cleaning device includes the cleaning device and a cleaning device having the same model number as the cleaning device used by another user. before the step of simultaneously sequentially displaying each of the cleaning programs in order from the most frequently used to the least frequently used when the cleaning apparatus is activated;
further comprising obtaining a parameter rank usage frequency within a certain period of time for each parameter rank corresponding to each cleaning parameter in the cleaning apparatus ;
When the cleaning device is activated, after the step of simultaneously sequentially displaying each of the cleaning programs in order of frequency of use from the most frequently used to the least frequently used,
2. The display of a cleaning program for a cleaning apparatus according to claim 1 , further comprising a step of displaying a parameter rank corresponding to each of said cleaning parameters and having the highest parameter rank usage frequency based on said parameter rank usage frequency. control method . The step of obtaining a parameter rank usage frequency within a certain period of time for each parameter rank corresponding to each cleaning parameter in the cleaning apparatus ,
Based on the historical cleaning data, the frequency of use of each parameter rank corresponding to each cleaning parameter in the corresponding cleaning program is analyzed within the predetermined period of time , and the analyzed frequency of use of the parameter rank is used as the first parameter rank. 3. The display control method for the cleaning program of the cleaning apparatus according to claim 2 , further comprising the step of setting the frequency . The step of obtaining a parameter rank usage frequency within a certain period of time for each parameter rank corresponding to each cleaning parameter in the cleaning apparatus ,
Based on the history cleaning data, the frequency of use of each parameter rank corresponding to each cleaning parameter in the corresponding cleaning program is analyzed within the predetermined period of time , and the analyzed frequency of use of the parameter rank is used as the second parameter rank. a frequency step;
Obtaining the parameter rank usage frequency within the predetermined period of time for each parameter rank corresponding to each cleaning parameter of each cleaning program in a specific cleaning apparatus pre-stored in the remote server , and calculating the obtained parameter rank usage frequency as a first a step of setting the 3-parameter rank usage frequency ;
and calculating a weighted sum of the second parameter rank usage frequency and the third parameter rank usage frequency to obtain a fourth parameter rank usage frequency. display control method . calculating the weighted sum of the second frequency of use and the third frequency of use, acquiring the frequency of use corresponding to each of the cleaning programs in the cleaning apparatus, and setting the acquired frequency of use as the fourth frequency of use; 2. The method of controlling the display of a cleaning program for a cleaning device according to claim 1, wherein the weight of said second frequency of use is greater than the weight of said third frequency of use. In the step of calculating a weighted sum of the second parameter rank usage frequency and the third parameter rank usage frequency to obtain a fourth parameter rank usage frequency, the weight of the second parameter rank usage frequency is the third parameter rank usage frequency 5. The display control method for a cleaning program of a cleaning apparatus according to claim 4, wherein the weight is greater than the weight of frequency. A display control system for a cleaning program of a cleaning device , comprising a program usage frequency acquisition module and a sorting display module,
The program usage frequency acquisition module is configured to acquire the usage frequency of each cleaning program in the cleaning apparatus within a certain period of time,
The sorting display module is configured to simultaneously and sequentially display each of the cleaning programs in order from the most frequently used to the least frequently used when the cleaning device is activated ;
the usage frequency acquisition module includes a first acquisition subunit, a second acquisition subunit, and a third acquisition subunit;
The first acquisition subunit acquires the use frequency of each of the cleaning programs based on the historical cleaning data of each of the cleaning programs stored in advance in the cleaning device within the predetermined period of time, and calculates the acquired use frequency of each of the cleaning programs. configured to have a second frequency of use,
The second acquisition subunit acquires the frequency of use of each of the cleaning programs in a specific cleaning apparatus, which is a specific cleaning apparatus pre-stored in a remote server, within the predetermined period of time, and uses the acquired frequency of use in a third use. configured to be frequency and
The third obtaining subunit calculates a weighted sum of the second use frequency and the third use frequency, obtains a use frequency corresponding to each of the cleaning programs in the current cleaning device, and obtains the obtained use frequency is configured to be the fourth frequency of use,
A display control system for a cleaning program for a cleaning device, wherein the specific cleaning device includes the cleaning device and a cleaning device having the same model number as the cleaning device used by another user. The display control system for the cleaning program of the cleaning device further includes a parameter rank usage frequency acquisition module and a parameter rank display module,
The parameter rank usage frequency acquisition module is configured to acquire the parameter rank usage frequency within a certain period of time of each parameter rank corresponding to each cleaning parameter in the cleaning apparatus ,
8. The parameter rank display module according to claim 7 , wherein the parameter rank display module is configured to display the parameter rank with the highest parameter rank usage frequency corresponding to each of the cleaning parameters, based on the parameter rank usage frequency. display control system for the cleaning program of the cleaning equipment . The parameter rank usage frequency acquisition module includes a third acquisition unit,
The third obtaining unit analyzes, based on the historical cleaning data, the parameter rank usage frequency within the predetermined time period of each parameter rank corresponding to each cleaning parameter in the corresponding cleaning program , and analyzes the parameter rank usage. 9. The display control system for a cleaning program of a cleaning apparatus according to claim 8, wherein the frequency is set to the first parameter rank usage frequency . The parameter rank usage frequency acquisition module includes a fourth acquisition unit,
said fourth obtaining unit comprises a fourth obtaining sub-unit, a fifth obtaining sub-unit and a sixth obtaining sub-unit;
The fourth acquisition subunit analyzes, based on the historical cleaning data, the parameter rank usage frequency within the predetermined time of each parameter rank corresponding to each cleaning parameter in the corresponding cleaning program , and analyzes the parameter rank The frequency of use is configured to be the second parameter rank frequency of use ,
The fifth acquisition sub-unit acquires the parameter rank usage frequency within the predetermined time of each parameter rank corresponding to each cleaning parameter of each cleaning program in the special cleaning apparatus pre-stored in the remote server, and is configured to set the parameter rank usage frequency obtained as the third parameter rank usage frequency ,
4. The sixth obtaining sub-unit is configured to calculate a weighted sum of the second parameter rank usage frequency and the third parameter rank usage frequency to obtain a fourth parameter rank usage frequency. 9. A display control system for the cleaning program of the cleaning device according to 8.

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