CN113254490B

CN113254490B - Device working parameter adjusting method, device, computer device and storage medium

Info

Publication number: CN113254490B
Application number: CN202110506021.0A
Authority: CN
Inventors: 姚淑梅; 李培彬; 黄洁仪; 欧阳镇铭
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2021-05-10
Filing date: 2021-05-10
Publication date: 2024-04-26
Anticipated expiration: 2041-05-10
Also published as: CN113254490A

Abstract

The application relates to a device working parameter adjusting method, a device, a computer device and a storage medium, wherein the method comprises the following steps: the equipment accesses a third-party database platform, acquires the working parameter adjustable range of the equipment, pushes the working parameter adjustable range to a user, and the user performs self-defined adjustment in the working parameter adjustable range, and configures the corresponding working parameter when the user self-defined adjustment is completed when the user adjustment is completed. In the whole process, the third party database platform determines the adjustable range of the working parameters, supports the user to carry out self-defined adjustment in the adjustable range of the working parameters, ensures that the working parameters more meet the requirements of the user, and brings convenience to the user.

Description

Device working parameter adjusting method, device, computer device and storage medium

Technical Field

The present application relates to the field of intelligent control technologies, and in particular, to a method and apparatus for adjusting an operating parameter of a device, a computer device, and a storage medium.

Background

With the progress of scientific technology, more and more intelligent devices are applied to life of people, such as electric toothbrushes, water dental floss, intelligent shavers and the like. The intelligent devices bring specific convenience to life of people by humanized design and rich functions.

In practical application, the working parameters of the equipment are fixed according to a preset working mode, and a user is supported to carry out gear adjustment or stepless adjustment according to a preset gear. Taking the dental floss as an example, the existing dental floss products on the market have the gear or mode output with fixed force and cannot be suitable for people with different tooth sensitivities. It has been found that different dental sensitivities can differ greatly with age, whether there is oral health problem, etc., and when people with higher dental sensitivity use a water dental floss product which is not suitable for their own strength, the comfort can be reduced, and even the health problem of the teeth themselves can be increased. It will be appreciated that other devices, including powered toothbrushes and smart shavers, suffer from similar problems as described above.

Therefore, the traditional equipment cannot perform personalized adjustment aiming at the user based on the working parameter adjustment mode of the fixed gear or mode, and inconvenience is brought to the user.

Disclosure of Invention

Based on the above, it is necessary to provide a method, a device, a computer device and a storage medium for adjusting the operating parameters of a device, which support custom adjustment, so as to bring convenience to users, aiming at the problem that the conventional device is inconvenient to use due to fixed adjustment of the operating parameters.

A method for adjusting an operating parameter of a device, the method comprising:

accessing a third party database platform to obtain an adjustable range of working parameters;

Pushing an adjustable range of working parameters to a user;

responding to user-defined adjustment operation within the adjustable range of the working parameters;

and configuring corresponding working parameters when user-defined adjustment is completed.

In one example, responding to a user to customize an adjustment operation within an adjustable range of operating parameters includes:

monitoring user regulation operation to obtain a preset regulation reference value;

counting the user adjustment times within a preset period time;

acquiring an adjustment coefficient corresponding to the adjustment times of the user;

determining an adjustment amount according to a preset adjustment reference value and an adjustment coefficient;

Updating the working parameters in the working parameter adjustable range according to the adjustment quantity;

When the user confirmation adjustment completion instruction is not detected, returning to the step of detecting user adjustment operation and obtaining a preset adjustment reference value;

When the user is detected to confirm the adjustment completion instruction, the method enters a step of configuring the corresponding working parameters when the user self-defined adjustment is completed.

In one example, obtaining an adjustment coefficient corresponding to the number of user adjustments includes:

Acquiring a gain frequency threshold value of preset adjusting times;

when the adjustment times are larger than a preset adjustment times gain times threshold, reading a preset adjustment coefficient gain rule;

and acquiring an adjusting coefficient corresponding to the user adjusting times according to the user adjusting times and a preset adjusting coefficient gain rule.

Acquiring an initial adjustment coefficient corresponding to the user adjustment times;

Judging whether the initial adjusting coefficient is larger than a preset adjusting coefficient maximum value or not;

if the adjustment coefficient is larger than the preset value, setting the adjustment coefficient to be zero;

and if the initial adjustment coefficient is not larger than the preset adjustment coefficient, taking the initial adjustment coefficient as an adjustment coefficient corresponding to the user adjustment times.

In one example, accessing a third party database platform, the obtaining the operating parameter adjustable range includes:

Collecting multi-dimensional user characteristic information;

transmitting the multidimensional user characteristic information to a third party database platform;

And receiving the working parameter adjustable range obtained by the third-party database platform through big data analysis according to the multidimensional user characteristic information.

In one example, the method for adjusting the operating parameters of the device further includes:

Acquiring user identity information;

inquiring whether the user finishes the self-defined adjustment of the working parameters in the history record according to the user identity information;

If yes, reading the working parameters which are self-defined and adjusted in the history record;

if not, the method enters a step of accessing a third party database platform to acquire the adjustable range of the working parameters.

reading own model data;

acquiring a third party database platform access parameter corresponding to the model data of the third party database platform;

sending a pairing request to the third-party database platform according to the access parameters of the third-party database platform;

and when a pairing success message fed back by the third-party data platform is received, accessing the third-party database platform to obtain the adjustable range of the working parameters.

An apparatus for adjusting an operating parameter of a device, the apparatus comprising:

The access module is used for accessing the third party database platform and acquiring the adjustable range of the working parameters;

the pushing module is used for pushing the adjustable range of the working parameters to the user;

The response module is used for responding to the user to self-define adjustment operation within the adjustable range of the working parameters;

the configuration module is used for configuring corresponding working parameters when the user-defined adjustment is completed.

A computer device comprising a memory storing a computer program and a processor which when executing the computer program performs the steps of:

Pushing an adjustable range of working parameters to a user;

A computer readable storage medium having stored thereon a computer program which when executed by a processor performs the steps of:

Pushing an adjustable range of working parameters to a user;

According to the equipment working parameter adjusting method, the equipment, the computer equipment and the storage medium, the equipment accesses the third-party database platform, the working parameter adjustable range of the equipment is obtained, the working parameter adjustable range is pushed to a user, the user performs custom adjustment in the working parameter adjustable range, and when the user adjustment is completed, the corresponding working parameter when the user custom adjustment is completed is configured. In the whole process, the third party database platform determines the adjustable range of the working parameters, supports the user to carry out self-defined adjustment in the adjustable range of the working parameters, ensures that the working parameters more meet the requirements of the user, and brings convenience to the user.

Drawings

FIG. 1 is a diagram of an application environment for a method of adjusting operating parameters of a device in one embodiment;

FIG. 2 is a flow chart of a method of adjusting operating parameters of an apparatus in one embodiment;

FIG. 3 is a schematic diagram of a sub-process of S600 in one embodiment;

FIG. 4 is a flow chart of a method of adjusting operating parameters of an apparatus according to another embodiment;

FIG. 5 is a flow chart of a method for adjusting operating parameters of a device in an example application;

FIG. 6 is a block diagram of an apparatus for adjusting operating parameters of an apparatus in one embodiment;

fig. 7 is an internal structural diagram of a computer device in one embodiment.

Detailed Description

The present application will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present application more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

The method for adjusting the working parameters of the equipment can be applied to an application environment shown in figure 1. Wherein the device 102 communicates with a third party database platform 104 over a network. The user operates on the device 102 side, the user starts the device 102, the device 102 is powered on, the device 102 accesses a third party database platform (server) 104, an adjustable range of the working parameters is obtained, the adjustable range of the working parameters is pushed to the user, the user performs self-defined adjustment in the adjustable range of the working parameters, and when the user adjustment is completed, the corresponding working parameters are configured when the user self-defined adjustment is completed. The device 102 starts operating based on the configured operating parameters. The device 102 may be a variety of smart devices, such as a dental floss, a smart toothbrush, an electric shaver, etc.

In one embodiment, as shown in fig. 2, a method for adjusting an operating parameter of a device is provided, and the method is applied to the device 102 in fig. 1, and is illustrated as an example, and includes the following steps:

s200: and accessing a third-party database platform to obtain the adjustable range of the working parameters.

A third party database platform may be understood as a remote database platform that stores a large amount of data. When the equipment is powered on and needs to be subjected to working parameter adjustment, the third-party database platform is accessed, and the working parameter adjustable range is fed back by the third-party database platform based on data sent by the equipment. The adjustable range of the working parameter refers to a range in which the working parameter of the device can be adjusted, such as the vibration frequency of the device, the output pressure, the display brightness, the volume of the prompting sound, the working mode (soft, standard, intense) and the like. Taking output pressure as an example, the adjustable range of the working parameters is specifically X-Y. Specifically, a large amount of data is stored in the third party database platform, the working parameter adjustable range of the device can be obtained by analyzing the data sent by the device in a big data mode, specifically, the data corresponding to the age and sex or the preference and habit of the user set in other devices can be queried based on the model of the device and the acquired user characteristic information carried in the access request, such as the age and sex of the user or the user identity (the registered account information of the user), and the final working parameter adjustable range is obtained by analyzing the big data and sent to the device.

S400: pushing the adjustable range of the working parameters to the user.

And after receiving the working parameter adjustable range fed back by the third-party database platform, the equipment sends the working parameter adjustable range to the user. The specific pushing mode can be voice pushing or display pushing and the like. For example, the pressure adjustable range can be pushed to be X-Y in a display area of the device, or the device directly sends out prompt voice with the pressure adjustable range of X-Y.

S600: and responding to the user to customize the adjustment operation within the adjustable range of the working parameters.

And the user adjusts the working parameters within the working parameter adjustable range, and the equipment responds to the user-defined adjusting operation of the user to adjust the working parameters to be configured. Continuing taking pressure as an example, pushing the pressure adjustable range X-Y to a user by the device, adjusting pressure parameters by the user in a key-press, touch, voice and other modes, taking the key-press as an example, pressing a primary adjusting button in the device by the user, adjusting the pressure value by a% from the lowest value X, and waiting for a certain time (2S) when the user does not continue to operate or the user presses to confirm, so as to obtain a final pressure value Z. It should be noted that, in the above adjustment process, the adjustment amount corresponding to each adjustment may be accumulated or subtracted, for example, the 1 st adjustment is adjusted up by a%; up-regulation 2*a% of the 2 nd time; up-regulation 3*a% of the 3 rd time, etc.

S800: and configuring corresponding working parameters when user-defined adjustment is completed.

When the user is detected to finish the custom adjustment, the working parameters of the final custom adjustment of the user are obtained, the equipment configures the corresponding working parameters when the custom adjustment of the user is finished, and after the configuration is finished, the equipment starts working to provide services for the user.

According to the equipment working parameter adjusting method, the equipment accesses the third-party database platform, the working parameter adjustable range of the equipment is obtained, the working parameter adjustable range is pushed to the user, the user performs self-defined adjustment in the working parameter adjustable range, and when the user is adjusted, the corresponding working parameter is configured when the user self-defined adjustment is completed. In the whole process, the third party database platform determines the adjustable range of the working parameters, supports the user to carry out self-defined adjustment in the adjustable range of the working parameters, ensures that the working parameters more meet the requirements of the user, and brings convenience to the user.

As shown in fig. 3, in one example, S600 includes:

s610: and monitoring user regulation operation to obtain a preset regulation reference value.

When the device monitors the user adjusting operation, the device acquires a preset adjusting reference value. The preset reference value is preset, and the reference value corresponding to each adjustment is preset according to the type of the equipment, the application environment, the function, the adjustment parameter type and the like. The device monitors user adjustment operation in a key sensing mode, a touch sensing mode or a voice recognition mode and the like, and when the user adjustment operation is monitored, the device acquires a preset adjustment reference value K which is cached in advance.

S620: the number of user adjustments during a preset cycle time is counted.

The device keeps monitoring the operation state of the user, and counts the adjustment times of the user in a preset period. For example, listening for the number of times the user has pressed a key in 1 second, or for the number of times the user has touched a virtual adjustment button in 2 seconds.

S630: and acquiring an adjusting coefficient corresponding to the user adjusting times.

Different adjustment times correspond to different adjustment coefficients, and the adjustment coefficients can be increased or decreased along with the increase of the adjustment times. For example, when the number of adjustments is 1, the adjustment coefficient is 1; when the adjustment times are 2, the adjustment coefficient is 3; when the number of adjustments is 3, the adjustment coefficient is 3, and so on. The correspondence between the specific adjustment times and the adjustment coefficients may be written in advance into the cache space of the device. After the device obtains the user adjustment times, the device directly reads the adjustment coefficient preset corresponding to the user adjustment times, for example, if the adjustment times are 3 times, the adjustment coefficient is 3.

S640: and determining the adjustment quantity according to the preset adjustment reference value and the adjustment coefficient.

And multiplying the preset regulating reference value by the regulating coefficient to obtain the regulating quantity.

S650: and updating the working parameters in the working parameter adjustable range according to the adjustment quantity.

And (4) according to the adjustment amount obtained in the step S640, updating the working parameters in the working parameter adjustable range. Specifically, if the adjustment amount is a positive value, the adjustment amount is increased from the minimum value in the adjustable range of the operating parameter; if the adjustment amount is negative, the adjustment amount is reduced from the maximum value in the adjustable range of the operating parameter. Optionally, the working parameter update also supports 'one-key reduction', and when the user is detected to send a 'one-key reduction' instruction, the working parameter is directly updated to the minimum value in the adjustable range of the working parameter.

S660: and when the user confirmation adjustment completion instruction is not intercepted, returning to the step of intercepting the user adjustment operation and obtaining the preset adjustment reference value.

When the user confirmation adjustment completion instruction is not detected, the user is indicated that the user has a need to continue adjustment, and at this time, the process returns to S610, and a new round of operation parameter adjustment is continued.

S670: when the user is detected to confirm the adjustment completion instruction, the method enters a step of configuring the corresponding working parameters when the user self-defined adjustment is completed.

When the user is detected to confirm the adjustment completion instruction, the user is indicated to complete the adjustment of the working parameters, and the step of configuring the corresponding working parameters when the user self-defined adjustment is completed is entered. The user confirming the adjustment completion indication includes, but is not limited to, specifically sensing that the user presses the adjustment confirmation key, or that the user does not continue with a new adjustment operation for a certain period of time, which may be 2 seconds or 3 seconds.

Acquiring a gain frequency threshold value of preset adjusting times; when the adjustment times are larger than a preset adjustment times gain times threshold, reading a preset adjustment coefficient gain rule; and acquiring an adjusting coefficient corresponding to the user adjusting times according to the user adjusting times and a preset adjusting coefficient gain rule.

The preset adjustment frequency gain frequency threshold is a preset frequency threshold, and when the adjustment frequency is larger than the preset frequency threshold, the requirement for comparing the working parameters of the equipment to be urgently needed to be adjusted is indicated, so that the corresponding adjustment coefficient needs to be gained on the basis that the original adjustment coefficient is related to the frequency in equal proportion, namely the adjustment amplitude corresponding to each adjustment is increased. When the adjustment times are larger than the gain times threshold of the preset adjustment times, reading a gain rule of a preset adjustment coefficient, namely a gain rule value corresponding to each preset adjustment, and further obtaining an adjustment coefficient corresponding to the user adjustment times.

In order to describe the processing procedure of the above embodiment in detail, an example will be described below. The device counts 3 times of adjustment buttons pressed by a user within 2 seconds, a preset adjustment frequency gain frequency threshold value is obtained for 2 times, at the moment, a preset adjustment coefficient gain rule is read to be 2 times corresponding to 1.0 coefficient, 3 times corresponding to 1.2 coefficient and 4 times corresponding to 1.5 coefficient, and the adjustment coefficient corresponding to the user adjustment frequency is obtained to be 1.2.

Acquiring an initial adjustment coefficient corresponding to the user adjustment times; judging whether the initial adjusting coefficient is larger than a preset adjusting coefficient maximum value or not; if the adjustment coefficient is larger than the preset value, setting the adjustment coefficient to be zero; and if the initial adjustment coefficient is not larger than the preset adjustment coefficient, taking the initial adjustment coefficient as an adjustment coefficient corresponding to the user adjustment times.

In this embodiment, the adjustment coefficient is preset with a maximum value, when the obtained initial adjustment coefficient corresponding to the user adjustment times is greater than the maximum value, the adjustment coefficient is directly set to zero, that is, the increment corresponding to the current adjustment is 0, the user is the wrong/abnormal adjustment, the user needs to adjust again, and if not, the initial adjustment coefficient is used as the final adjustment coefficient. The preset maximum adjustment coefficient is preset, specifically, the preset maximum adjustment coefficient is set on the basis of improving user experience and bringing convenience to users, for example, the preset maximum adjustment coefficient can be set to be 1.5 by taking equipment as a dental floss, i.e. the single maximum adjustment increment of the users cannot exceed a coefficient of 1.5.

As shown in fig. 4, in one example, S200 includes:

s220: collecting multi-dimensional user characteristic information;

S240: transmitting the multidimensional user characteristic information to a third party database platform;

S260: and receiving the working parameter adjustable range obtained by the third-party database platform through big data analysis according to the multidimensional user characteristic information.

The multidimensional user characteristic information specifically comprises the characteristic information of dimensions such as age, gender, usage pattern habit, required function conditions and the like. Taking the application of the method for adjusting the working parameters of the equipment of the application to the dental floss as an example, the information of the age, sex, daily use mode (soft, standard and powerful) and the oral condition of the user needs to be collected. And sending the acquired multidimensional user characteristic information to a third party database platform, and analyzing by the third party database platform by adopting big data to obtain the working parameter adjustable range. The third-party database platform can be a server platform of the APP system, can analyze and obtain a reasonable working parameter adjustable range of the equipment in a big data mode, and then sends the working parameter adjustable range to the equipment.

Acquiring user identity information; inquiring whether the user finishes the self-defined adjustment of the working parameters in the history record according to the user identity information; if yes, reading the working parameters which are self-defined and adjusted in the history record; if not, the method enters a step of accessing a third party database platform to acquire the adjustable range of the working parameters.

The user identity information is information for identifying/distinguishing the user identity, and specifically may include information such as an account number corresponding to the user, a mobile phone number when the user registers, a user identity card number, and the like. And inquiring whether the user in the history record has completed the self-defined adjustment of the working parameters by the equipment through the user identity information, if so, directly reading the self-defined adjustment of the working parameters of the user in the history record, and if not, accessing a third-party database platform to obtain the adjustable range of the working parameters.

Reading own model data; acquiring a third party database platform access parameter corresponding to the model data of the third party database platform; sending a pairing request to the third-party database platform according to the access parameters of the third-party database platform; and when a pairing success message fed back by the third-party data platform is received, accessing the third-party database platform to obtain the adjustable range of the working parameters.

The equipment is powered on and started, self model data are read, access parameters of a third party database platform corresponding to the self model data are obtained, the access parameters specifically comprise data such as a third party database platform address, a third party database platform permission access port, a communication protocol communicated with the third party database platform and the like, after the access parameters are obtained, the equipment sends a pairing request to the third party database platform based on the access parameters so as to request to be paired with the third party database platform, and when a pairing success message is received, the equipment accesses the third party database platform, and the adjustable range of the working parameters is obtained. Taking equipment as a water dental floss for example, powering on and starting the water dental floss, opening a self intelligent mobile phone by a user, clicking a water dental floss APP, reading self model data by the water dental floss to obtain data of a water dental floss A123 model, determining a third party database platform access parameter which needs to be accessed by the user based on the model data, sending a pairing request based on the third party database platform access parameter water dental floss, verifying whether the water dental floss which is requested to be paired is legal or not by the water dental floss APP, feeding back a pairing success message to the water dental floss when verification is passed, connecting the water dental floss successfully with the intelligent mobile phone loaded with the water dental floss APP, sending an operating parameter adjustable range acquisition request to the water dental floss APP, directly feeding back to the water dental floss APP if the corresponding operating parameter adjustable range can not be obtained by the water dental floss APP, reporting the acquisition request to a remote core database if the corresponding operating parameter adjustable range can not be obtained by the local database of the water dental floss APP, and feeding back the corresponding operating parameter adjustable range to the water dental floss APP.

In order to describe the technical scheme and the effect of the method for adjusting the working parameters of the equipment of the present application in detail, the whole process will be described in detail by taking the application to the dental floss as an example. As shown in fig. 5, the method specifically comprises the following steps:

1. Powering on the dental floss;

2. judging whether the intelligent duty ratio is set by a user in the history record by the dental floss, if so, entering a step 12; if not, entering a step 3;

3. Judging whether a user opens the self-defined adjustment of the duty ratio by a long key through the dental floss, if so, entering a step 4, and if not, starting to work according to a preset fixed duty ratio;

4. entering an intelligent mode duty cycle custom adjustment state;

5. Judging whether the whole machine is paired with the APP, if so, entering a step 6; if not, the whole machine display prompts the user to operate and pair with the APP;

6. After successful pairing, the user inputs multi-dimensional user characteristic information and confirms;

7. APP adopts big data analysis to provide a display force range interval of X-Y, and sends the interval to the overall machine of the dental floss;

8. The user short-presses the operation to adjust the gears in the interval according to the case;

9. When a user presses a case once, the duty ratio output of the whole machine rises by K% from the minimum duty ratio of the interval, and whether the adjusted duty ratio reaches the maximum duty ratio of the interval is judged; specifically, a reference value of K value is set, the reference value K value is raised when the user starts to increase, when the user key is detected to operate more than two times of keys in M seconds (such as 2 seconds), the user is considered to need to rapidly increase the duty ratio, the duty ratio is raised to 1.2 times of the duty ratio when the user presses the key again next time, the duty ratio is raised to 1.3 times of the duty ratio next time, and the maximum rise cannot exceed 1.5 times of the duty ratio so as to avoid discomfort to the user. When the user operates the key for M seconds (e.g. 2 seconds) once, the key is considered to be required to slowly approach the target duty ratio, the next rise is k×0.8 times the duty ratio, and the minimum rise cannot be lower than k×0.5 times the duty ratio (the multiple parameter is obtained according to practical experiments and can be changed according to practical experiments). And if the adjusted duty ratio reaches the interval maximum duty ratio, sending out prompt information and supporting the user to restore to the interval minimum duty ratio by one key.

10. Judging whether the user presses a key for a long time, confirming that the user-defined adjustment is finished, and if yes, entering a step 11; if not, returning to the step 8;

11. Confirming that the duty ratio starts working at the moment, writing the duty ratio into a power-off memory chip, and simultaneously sending the duty ratio to an APP for display;

12. outputting the duty ratio set by the user and starting to work.

It should be understood that, although the steps in the flowcharts described above are shown in order as indicated by the arrows, these steps are not necessarily performed in order as indicated by the arrows. The steps are not strictly limited to the order of execution unless explicitly recited herein, and the steps may be executed in other orders. Moreover, at least some of the steps in the flowcharts described above may include a plurality of steps or a plurality of stages, which are not necessarily performed at the same time, but may be performed at different times, and the order of the steps or stages is not necessarily sequential, and may be performed in turn or alternately with at least some of the other steps or stages.

As shown in fig. 6, the present application further provides a device for adjusting an operating parameter of an apparatus, including:

the access module 200 is used for accessing the third party database platform and acquiring the adjustable range of the working parameters;

the pushing module 400 is configured to push the adjustable range of the working parameter to the user;

The response module 600 is configured to respond to a user-defined adjustment operation within an adjustable range of the working parameters;

the configuration module 800 is configured to configure the corresponding working parameters when the user-defined adjustment is completed.

According to the equipment working parameter adjusting device, the equipment accesses the third-party database platform, the working parameter adjustable range of the equipment is obtained, the working parameter adjustable range is pushed to a user, the user performs self-defined adjustment in the working parameter adjustable range, and when the user is adjusted, the corresponding working parameter is configured when the user self-defined adjustment is completed. In the whole process, the third party database platform determines the adjustable range of the working parameters, supports the user to carry out self-defined adjustment in the adjustable range of the working parameters, ensures that the working parameters more meet the requirements of the user, and brings convenience to the user.

In one example, the response module is further configured to monitor a user adjustment operation, and obtain a preset adjustment reference value; counting the user adjustment times within a preset period time; acquiring an adjustment coefficient corresponding to the adjustment times of the user; determining an adjustment amount according to a preset adjustment reference value and an adjustment coefficient; updating the working parameters in the working parameter adjustable range according to the adjustment quantity; when the user confirmation adjustment completion instruction is not detected, returning to the operation of detecting the user adjustment, and obtaining the operation of presetting an adjustment reference value; when the user confirmation adjustment completion instruction is detected, the control configuration module executes the operation of configuring the corresponding working parameters when the user self-defined adjustment is completed.

In one example, the response module is further configured to obtain a preset adjustment frequency gain frequency threshold; when the adjustment times are larger than a preset adjustment times gain times threshold, reading a preset adjustment coefficient gain rule; and acquiring an adjusting coefficient corresponding to the user adjusting times according to the user adjusting times and a preset adjusting coefficient gain rule.

In one example, the response module is further configured to obtain an initial adjustment coefficient corresponding to the user adjustment number; judging whether the initial adjusting coefficient is larger than a preset adjusting coefficient maximum value or not; if the adjustment coefficient is larger than the preset value, setting the adjustment coefficient to be zero; and if the initial adjustment coefficient is not larger than the preset adjustment coefficient, taking the initial adjustment coefficient as an adjustment coefficient corresponding to the user adjustment times.

In one example, the access module 200 is further configured to collect multi-dimensional user feature information; transmitting the multidimensional user characteristic information to a third party database platform; and receiving the working parameter adjustable range obtained by the third-party database platform through big data analysis according to the multidimensional user characteristic information.

In one example, the device for adjusting the working parameters of the equipment further comprises a query module, which is used for obtaining user identity information; inquiring whether the user finishes the self-defined adjustment of the working parameters in the history record according to the user identity information; if yes, reading the working parameters which are self-defined and adjusted in the history record; if not, the access module is controlled to execute the operation of accessing the third party database platform to acquire the adjustable range of the working parameters.

In one example, the access module is further configured to read own model data; acquiring a third party database platform access parameter corresponding to the model data of the third party database platform; sending a pairing request to the third-party database platform according to the access parameters of the third-party database platform; and when a pairing success message fed back by the third-party data platform is received, accessing the third-party database platform to obtain the adjustable range of the working parameters.

For specific embodiments of the device operation parameter adjustment apparatus, reference may be made to the above embodiments of the device operation parameter adjustment method, which are not described herein. The above-mentioned various modules in the equipment working parameter regulating device can be implemented completely or partially by means of software, hardware and their combination. The above modules may be embedded in hardware or may be independent of a processor in the computer device, or may be stored in software in a memory in the computer device, so that the processor may call and execute operations corresponding to the above modules.

In one embodiment, a computer device is provided, which may be a server, the internal structure of which may be as shown in fig. 7. The computer device includes a processor, a memory, and a network interface connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, computer programs, and a database. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The database of the computer equipment is used for storing data such as preset related parameters. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a method of adjusting an operating parameter of a device.

It will be appreciated by those skilled in the art that the structure shown in FIG. 7 is merely a block diagram of some of the structures associated with the present inventive arrangements and is not limiting of the computer device to which the present inventive arrangements may be applied, and that a particular computer device may include more or fewer components than shown, or may combine some of the components, or have a different arrangement of components.

In one embodiment, a computer device is provided comprising a memory and a processor, the memory having stored therein a computer program, the processor when executing the computer program performing the steps of:

Pushing an adjustable range of working parameters to a user;

In one embodiment, the processor when executing the computer program further performs the steps of:

Monitoring user regulation operation to obtain a preset regulation reference value; counting the user adjustment times within a preset period time; acquiring an adjustment coefficient corresponding to the adjustment times of the user; determining an adjustment amount according to a preset adjustment reference value and an adjustment coefficient; updating the working parameters in the working parameter adjustable range according to the adjustment quantity; when the user confirmation adjustment completion instruction is not detected, returning to the step of detecting user adjustment operation and obtaining a preset adjustment reference value; when the user is detected to confirm the adjustment completion instruction, the method enters a step of configuring the corresponding working parameters when the user self-defined adjustment is completed.

Collecting multi-dimensional user characteristic information; transmitting the multidimensional user characteristic information to a third party database platform; and receiving the working parameter adjustable range obtained by the third-party database platform through big data analysis according to the multidimensional user characteristic information.

In one embodiment, a computer readable storage medium is provided having a computer program stored thereon, which when executed by a processor, performs the steps of:

Pushing an adjustable range of working parameters to a user;

In one embodiment, the computer program when executed by the processor further performs the steps of:

Those skilled in the art will appreciate that implementing all or part of the above-described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in embodiments provided herein may include at least one of non-volatile and volatile memory. The nonvolatile Memory may include Read-Only Memory (ROM), magnetic tape, floppy disk, flash Memory, optical Memory, or the like. Volatile memory can include random access memory (Random Access Memory, RAM) or external cache memory. By way of illustration, and not limitation, RAM can be in various forms such as static random access memory (Static Random Access Memory, SRAM) or dynamic random access memory (Dynamic Random Access Memory, DRAM), etc.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the application, which are described in detail and are not to be construed as limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims

1. A method of adjusting an operating parameter of a device, the method comprising:

Pushing the working parameter adjustable range to a user;

configuring corresponding working parameters when user-defined adjustment is completed;

the responding user self-defined adjusting operation within the adjustable range of the working parameters comprises the following steps: acquiring an adjustment coefficient corresponding to the adjustment times of the user; different adjusting times correspond to different adjusting coefficients;

The responding user self-defined adjusting operation within the adjustable range of the working parameters comprises the following steps: monitoring user regulation operation to obtain a preset regulation reference value; counting the user adjustment times within a preset period time; acquiring an adjustment coefficient corresponding to the user adjustment times; determining an adjustment amount according to the preset adjustment reference value and the adjustment coefficient; updating the working parameters in the working parameter adjustable range according to the adjustment quantity; returning to the monitoring user adjusting operation to obtain a preset adjusting reference value when the user confirmation adjusting completion instruction is not monitored; and when the user confirmation adjustment completion instruction is intercepted, entering a step of configuring the corresponding working parameters when the user self-defined adjustment is completed.

2. The method of claim 1, wherein the obtaining an adjustment factor corresponding to the number of user adjustments comprises:

Acquiring a gain frequency threshold value of preset adjusting times;

When the adjustment times are larger than the preset adjustment times gain times threshold, reading a preset adjustment coefficient gain rule;

and acquiring an adjusting coefficient corresponding to the user adjusting times according to the user adjusting times and the preset adjusting coefficient gain rule.

3. The method of claim 1, wherein the obtaining an adjustment factor corresponding to the number of user adjustments comprises:

and if the initial adjustment coefficient is not larger than the user adjustment frequency, taking the initial adjustment coefficient as an adjustment coefficient corresponding to the user adjustment frequency.

4. The method of claim 1, wherein accessing a third party database platform, the obtaining an adjustable range of operating parameters comprises:

Collecting multi-dimensional user characteristic information;

transmitting the multi-dimensional user characteristic information to the third party database platform;

5. The method as recited in claim 1, further comprising:

Acquiring user identity information;

6. The method of claim 1, wherein accessing a third party database platform, the obtaining an adjustable range of operating parameters comprises:

reading own model data;

Acquiring a third party database platform access parameter corresponding to the self model data;

And when a pairing success message fed back by the third-party data platform is received, accessing the third-party database platform to obtain the working parameter adjustable range.

7. An apparatus for adjusting an operating parameter of a device, the apparatus comprising:

the pushing module is used for pushing the working parameter adjustable range to a user;

The response module is used for responding to the user to self-define adjustment operation within the adjustable range of the working parameters; the responding user self-defined adjusting operation within the adjustable range of the working parameters comprises the following steps: acquiring an adjustment coefficient corresponding to the adjustment times of the user; different adjusting times correspond to different adjusting coefficients;

the configuration module is used for configuring corresponding working parameters when the user-defined adjustment is completed;

the response module is also used for monitoring user adjustment operation and obtaining a preset adjustment reference value; counting the user adjustment times within a preset period time; acquiring an adjustment coefficient corresponding to the user adjustment times; determining an adjustment amount according to the preset adjustment reference value and the adjustment coefficient; updating the working parameters in the working parameter adjustable range according to the adjustment quantity; returning to the monitoring user adjusting operation to obtain a preset adjusting reference value when the user confirmation adjusting completion instruction is not monitored; and when the user confirmation adjustment completion instruction is intercepted, entering a step of configuring the corresponding working parameters when the user self-defined adjustment is completed.

8. The apparatus of claim 7, wherein the response module is further configured to obtain a preset adjustment count gain count threshold; when the adjustment times are larger than a preset adjustment times gain times threshold, reading a preset adjustment coefficient gain rule; and acquiring an adjusting coefficient corresponding to the user adjusting times according to the user adjusting times and a preset adjusting coefficient gain rule.

9. A smart device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor implements the steps of the method of any of claims 1 to 6 when executing the computer program.

10. A computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the steps of the method of any of claims 1 to 6.