CN110297586A - Parameter adjusting method and device, storage medium and terminal - Google Patents

Abstract

The invention discloses a parameter adjusting method, a parameter adjusting device, a storage medium and a terminal, wherein the method comprises the following steps: acquiring a sliding track of a sliding adjustment parameter around a set track and an operation gesture; determining whether a display blind area appears in the operation process of sliding the adjusting parameter around the set track or not according to the sliding track and the operation gesture; the display blind area is an area for shielding a parameter display value due to sliding operation in the operation process of sliding adjustment parameters around the set track; and if the display blind area appears, adjusting the display position of the parameter indication value in the display blind area or compressing the sliding range of the set track. According to the scheme, the problem that a temperature adjusting mode sliding around the circular ring has a display blind area and is inconvenient for a user to use can be solved, and the effect of improving the use convenience is achieved.

Description

Parameter adjusting method and device, storage medium and terminal

Technical Field

The invention belongs to the technical field of terminals, particularly relates to a parameter adjusting method, a parameter adjusting device, a storage medium and a terminal, and particularly relates to a method, a device, a storage medium and a terminal for eliminating a blind area generated by a smart home APP air conditioner plug-in page touch mode based on ring sliding temperature adjustment.

Background

The smart home APP can be a terminal APP (such as a mobile phone APP) which can control all smart terminals (such as an air conditioner) in a home. In the parameter adjustment (such as the temperature adjustment of an air conditioner) interaction mode in the smart home APP at the early stage of the epoch of the internet of things, the phenomenon of a display blind area exists in the interaction mode of sliding around a circular ring.

The above is only for the purpose of assisting understanding of the technical aspects of the present invention, and does not represent an admission that the above is prior art.

Disclosure of Invention

The present invention is directed to the above-mentioned drawbacks, and provides a parameter adjusting method, an apparatus, a storage medium, and a terminal, so as to solve the problem that a temperature adjusting manner sliding around a circular ring has a display blind area and is inconvenient for a user to use, and achieve the effect of improving convenience of use.

The invention provides a parameter adjusting method, which comprises the following steps: acquiring a sliding track of a sliding adjustment parameter around a set track and an operation gesture; determining whether a display blind area appears in the operation process of sliding the adjusting parameter around the set track or not according to the sliding track and the operation gesture; the display blind area is an area for shielding a parameter display value due to sliding operation in the operation process of sliding adjustment parameters around the set track; and if the display blind area appears, adjusting the display position of the parameter indication value in the display blind area or compressing the sliding range of the set track.

Optionally, setting a trajectory includes: a slide bar having a set shape; the set shape includes: at least one of a circular ring, a fan ring and a polygonal ring; the sliding track comprises: a track that slides along the set track; the operation gesture comprises: a left hand gesture or a right hand gesture, and an operation finger and an operation direction in the left hand gesture or the right hand gesture.

Optionally, the obtaining a sliding track of the adjustment parameter sliding around the set track and an operation gesture include: and acquiring a sliding track of the sliding adjusting parameter around the set track acquired by the sliding sensor, and acquiring an operation gesture of the sliding adjusting parameter around the set track acquired by the image sensor.

Optionally, determining whether a display blind area occurs in the operation process of sliding the adjustment parameter around the set track includes: determining the current operation position in the operation process of sliding the adjusting parameter around the set track according to the sliding track and the operation gesture; determining whether the current operation position falls into a set operation position or not according to the corresponding relation between the set operation position and a set shielding area; and if the current operation position falls into the set operation position, determining that the display position of the parameter indication value in the operation process of sliding and adjusting the parameter around the set track falls into the set shielding area.

Optionally, wherein the adjusting the display position of the parameter indication value in the display blind area includes: adjusting the display position of the parameter indication value in the display blind area to be outside the display blind area; or, compressing the sliding range of the set trajectory includes: compressing a sliding range of a set track to compress the sliding track; and adjusting the compression direction of the sliding range of the set track to enable the compressed sliding range of the set track to meet the operation requirement of the operation gesture.

Optionally, the method further comprises: determining whether a sliding operation instruction of sliding the adjusting parameter around the set track exists or not, and acquiring the sliding track of the adjusting parameter around the set track and the operation gesture under the condition that the sliding operation instruction exists; and/or, determining whether an input operation instruction for calling out an input keyboard is received; and if the input operation instruction is received, popping up an input keyboard to receive input parameters with set precision through the input keyboard.

In another aspect, the present invention provides a parameter adjusting apparatus, which includes: the acquisition unit is used for acquiring a sliding track of the sliding adjustment parameter around the set track and an operation gesture; the adjusting unit is used for determining whether a display blind area appears in the operation process of sliding the adjusting parameter around the set track according to the sliding track and the operation gesture; the display blind area is an area for shielding a parameter display value due to sliding operation in the operation process of sliding adjustment parameters around the set track; and the adjusting unit is also used for adjusting the display position of the parameter indication value in the display blind area or the sliding range of the compression setting track if the display blind area appears.

Optionally, setting a trajectory includes: a slide bar having a set shape; the set shape includes: at least one of a circular ring, a fan ring and a polygonal ring; the sliding track comprises: a track that slides along the set track; the operation gesture comprises: a left hand gesture or a right hand gesture, and an operation finger and an operation direction in the left hand gesture or the right hand gesture.

Optionally, the acquiring unit acquires a sliding track of the adjustment parameter sliding around the set track and an operation gesture, and includes: and acquiring a sliding track of the sliding adjusting parameter around the set track acquired by the sliding sensor, and acquiring an operation gesture of the sliding adjusting parameter around the set track acquired by the image sensor.

Optionally, the determining, by the adjusting unit, whether a dead zone appears during an operation of sliding the adjusting parameter around the set track includes: determining the current operation position in the operation process of sliding the adjusting parameter around the set track according to the sliding track and the operation gesture; determining whether the current operation position falls into a set operation position or not according to the corresponding relation between the set operation position and a set shielding area; and if the current operation position falls into the set operation position, determining that the display position of the parameter indication value in the operation process of sliding and adjusting the parameter around the set track falls into the set shielding area.

Optionally, the adjusting unit adjusts a display position of the parameter indication value in the display blind area, including: adjusting the display position of the parameter indication value in the display blind area to be outside the display blind area; or, the adjusting unit compresses the sliding range of the set track, and comprises: compressing a sliding range of a set track to compress the sliding track; and adjusting the compression direction of the sliding range of the set track to enable the compressed sliding range of the set track to meet the operation requirement of the operation gesture.

Optionally, the method further comprises: the adjusting unit is further used for determining whether a sliding operation instruction for sliding the adjusting parameter around the set track exists or not, so that the sliding track and the operation gesture of the adjusting parameter sliding around the set track are obtained under the condition that the sliding operation instruction exists; and/or the adjusting unit is also used for determining whether an input operation instruction for calling out the input keyboard is received; and the adjusting unit is also used for popping up an input keyboard to receive input parameters with set precision through the input keyboard if the input operation instruction is received.

In accordance with the above apparatus, a further aspect of the present invention provides a terminal, including: the parameter adjusting device is described above.

In accordance with the above method, a further aspect of the present invention provides a storage medium comprising: the storage medium has stored therein a plurality of instructions; the instructions are used for loading and executing the parameter adjusting method by the processor.

In accordance with the above method, a further aspect of the present invention provides a terminal, including: a processor for executing a plurality of instructions; a memory to store a plurality of instructions; wherein the instructions are stored by the memory, and loaded by the processor and executed by the processor to perform the parameter adjustment method.

According to the scheme of the invention, by adjusting the sliding range of the sliding adjustment parameter around the circular ring, the display blind area can be avoided, a user can conveniently check the adjustment result in real time, and the user experience is good.

Furthermore, according to the scheme of the invention, in the process of adjusting the parameters by sliding around the circular ring, if a display blind area exists, the display position is adjusted, so that the user can conveniently check the parameters, and the display mode is flexible.

Furthermore, according to the scheme of the invention, the sliding range of the sliding adjustment parameters around the circular ring is adjusted to be 0-270 degrees, so that the use of most people can be facilitated, and the method is reliable and convenient.

Furthermore, according to the scheme of the invention, the adjusting range of the parameters adjusted by sliding around the ring on the terminal interface is flexibly adjusted according to different operation modes of left and right hands, so that the method and the device can be conveniently used by users with different operation habits, and are flexible and convenient.

Further, according to the scheme of the invention, in the process of adjusting the parameters by sliding around the ring, if a display blind area exists, the display position is adjusted or the sliding range is adjusted, so that the display blind area is avoided, a user can conveniently check the display blind area, and the method is reliable and convenient.

Therefore, according to the scheme provided by the invention, in the process of adjusting the parameters in a sliding manner around the ring, if a display blind area exists, the display position is adjusted or the sliding range is adjusted, so that the display blind area is avoided, and the problem that the temperature adjusting mode sliding around the ring has the display blind area and is inconvenient for users to use is solved, so that the defects of display blind area, inconvenience in use and poor user experience in the prior art are overcome, and the beneficial effects of no display blind area, convenience in use and good user experience are realized.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

FIG. 1 is a schematic flow chart diagram illustrating an embodiment of a parameter adjustment method according to the present invention;

FIG. 2 is a schematic flow chart illustrating an embodiment of determining whether a blind spot occurs during the operation of sliding the adjustment parameter around the set trajectory in the method of the present invention;

FIG. 3 is a flowchart illustrating an embodiment of calling input parameters of an input keyboard in the method of the present invention;

FIG. 4 is a schematic structural diagram of an embodiment of a parameter adjustment apparatus according to the present invention;

FIG. 5 is a first illustration of a parameter adjustment interface according to an embodiment of the terminal of the present invention;

FIG. 6 is a second illustration of a parameter adjustment interface according to an embodiment of the terminal of the present invention;

FIG. 7 is a third illustration of a parameter adjustment interface according to an embodiment of the terminal of the present invention;

fig. 8 is a schematic diagram of a parameter adjustment process of an embodiment of the terminal of the present invention.

The reference numbers in the embodiments of the present invention are as follows, in combination with the accompanying drawings:

102-an obtaining unit; 104-a regulating unit.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

According to an embodiment of the present invention, a parameter adjusting method is provided, as shown in fig. 1, which is a schematic flow chart of an embodiment of the method of the present invention. The parameter adjusting method may include: step S110 to step S130.

At step S110, a sliding trajectory for sliding the adjustment parameter around the set trajectory and an operation gesture are acquired.

Optionally, setting the trajectory may include: a slide bar having a set shape. Wherein, the setting the shape may include: at least one of a circular ring, a fan ring and a polygonal ring.

Wherein, the sliding strip in the set track can limit the slidable range. The sliding trajectory is a trajectory that slides around the set trajectory to adjust the parameter, and the sliding trajectory is a part of the set trajectory.

Optionally, the sliding track may include: a track that slides along the set track.

Optionally, the operation gesture may include: a left hand gesture or a right hand gesture, and an operation finger and an operation direction in the left hand gesture or the right hand gesture (for example, a finger pad of an index finger of the right hand faces an operation interface of the terminal or faces away from the terminal, or a finger pad of a thumb of the right hand is close to the operation interface of the terminal or is far away from the operation interface of the terminal, etc.).

From this, through the set trajectory, the slip track and the operation gesture of multiform, can satisfy the user of different operation demands, different operation habits and slide the regulation parameter around setting for the trajectory, suitable crowd is wide, and is nimble and convenient.

Optionally, the acquiring of the sliding track of the adjustment parameter sliding around the set track and the operation gesture in step S110 may include: and acquiring a sliding track of the sliding adjusting parameter around the set track acquired by the sliding sensor, and acquiring an operation gesture of the sliding adjusting parameter around the set track acquired by the image sensor.

Therefore, the required parameters are acquired by setting the corresponding sensors, the acquisition mode is simple and convenient, and the acquisition result is reliable.

At step S120, it is determined whether a display blind area occurs in the operation process of sliding the adjustment parameter around the set trajectory according to the sliding trajectory and the operation gesture. The display blind area is an area for shielding the parameter display value due to sliding operation in the operation process of sliding the adjustment parameter around the set track.

For example: referring to the examples shown in fig. 6 and 7, the sliding range is set between 0-270 °, and the range between 270 and 360 degrees is referred to as a sliding "blind zone". For example: the user's finger (e.g., the index finger of the right hand) does not see the change in degrees as the feedback turns between 270-360.

Optionally, a specific process of determining whether a display blind area occurs in the operation process of the sliding adjustment parameter around the set track in step S120, and steps S210 to S230, may be further described with reference to a flowchart of an embodiment of determining whether a display blind area occurs in the operation process of the sliding adjustment parameter around the set track in the method of the present invention shown in fig. 2.

And step S210, determining the current operation position in the operation process of sliding the adjusting parameter around the set track according to the sliding track and the operation gesture.

Step S220, determining whether the current operation position falls into the set operation position according to the corresponding relationship between the set operation position and the set occlusion region.

For example: the operation position is the position of the finger on the interface, and the sheltering area is the blind area.

Step S230, if the current operation position falls into the set operation position, determining that the display position of the parameter indication value in the operation process of sliding the adjustment parameter around the set trajectory falls into the set occlusion region. That is, in the case where the display position of the parameter indication value is blocked during the operation of sliding the adjustment parameter around the set trajectory, it is determined that a display blind area occurs during the operation of sliding the adjustment parameter around the set trajectory.

Therefore, under the condition that the current operation position in the operation process of the sliding adjusting parameter around the set track determined according to the sliding track and the operation gesture falls into the set operation position, the display position of the parameter indication value in the operation process of the sliding adjusting parameter around the set track is determined to fall into the set shielding area, the display blind area in the operation process of the sliding adjusting parameter around the set track is determined, and the determination of whether the display blind area appears in the operation process of the sliding adjusting parameter around the set track is accurate and reliable.

In step S130, if the display blind area occurs, the display position of the parameter display value in the display blind area is adjusted or the sliding range of the set track is compressed, so that the parameter display value in the display blind area is outside the display blind area, even if the parameter display value is displayed without the display blind area or the display blind area is avoided.

For example: the method for eliminating the blind area generated by the smart home APP air conditioner plug-in page touch mode based on the ring sliding temperature regulation is provided.

Therefore, under the condition that the display blind area appears in the operation process of determining the sliding adjusting parameter around the set track according to the sliding track and the operation gesture of the sliding adjusting parameter around the set track, the display position of the parameter indication value in the display blind area is adjusted or the sliding range of the set track is compressed, so that the parameter display value in the display blind area is out of the display blind area, the user can check conveniently, and the user experience of the sliding adjusting parameter around the set track of the user is improved.

Optionally, the adjusting the display position of the parameter indication value in the display blind area in step S130 may include: and adjusting the display position of the parameter indication value in the display blind area to be out of the display blind area. For example: and adjusting the display position of the parameter indication value in the display blind area to a place which is not shielded by the finger in the display area on the operation interface facing the user.

Therefore, the display position of the parameter display value in the display blind area is adjusted to be out of the display blind area, so that the purpose of conveniently checking the parameter display value by a user is realized, and the method is simple, convenient and reliable.

Alternatively, compressing the sliding range of the setting trajectory in step S130 may include: compressing a sliding range of a set track to compress the sliding track; and adjusting the compression direction of the sliding range of the set track to enable the compressed sliding range of the set track to meet the operation requirement of the operation gesture.

For example: if the set track is a circular ring, the set track is compressed from 0-360 degrees to 0-270 degrees. If the operation gesture is left hand, setting a sliding area of the compressed sliding range in a counterclockwise direction on an operation interface facing a user; or if the operation gesture is a right hand, setting a sliding area of the compressed sliding range in a clockwise direction on the operation interface facing the user.

For example: in order to prevent the user from blocking the change of the temperature number between 270-360 degrees when sliding around the ring, and avoid the finger from sliding into the blind area, the sliding range of the temperature ring is adjusted to 0-270 degrees, which can be seen in the examples shown in fig. 6 and 7. Such as compressing the range of finger sliding to 0 deg. -270 deg., to avoid the user's line of sight from entering what we call the "dead zone".

For example: when the user slides around the ring on intelligent house APP and adjusts the temperature, no matter left hand or right hand touch, because sheltering from of finger, get into the sight blind area that the temperature shows between its 270-. No matter the left hand is controlled or the right hand is controlled to control the intelligent household APP, the temperature adjusting range sliding around the circular ring is set between 0-270 degrees, and therefore the phenomenon that sight lines enter blind areas can be avoided.

Therefore, the sliding range of the set track is compressed, and the compression direction of the sliding range of the set track is adjusted to avoid the parameter display value from falling into the display blind area, so that a user can conveniently check the parameter display value in real time, and the user experience is good.

In an alternative embodiment, at least one of the following operations may also be included.

The first operation process is as follows: the process of determining the sliding operation command of the sliding adjustment parameter around the set trajectory may specifically include: before the sliding track of the sliding adjustment parameter around the set track and the operation gesture are obtained, whether a sliding operation instruction of the sliding adjustment parameter around the set track exists is determined, and the sliding track of the sliding adjustment parameter around the set track and the operation gesture are obtained under the condition that the sliding operation instruction exists.

Therefore, the operation of acquiring the sliding track and the operation gesture of the sliding adjustment parameter around the set track is started under the condition that the sliding operation instruction of the sliding adjustment parameter around the set track exists, the sliding track and the operation gesture of the sliding adjustment parameter around the set track can be accurately and reliably acquired, and the energy consumption increased by randomly acquiring the sliding track and the operation gesture of the sliding adjustment parameter around the set track can be avoided.

The second operation process comprises the following steps: and calling out the process of inputting the keyboard input parameters.

The following further describes a specific process of calling the input parameters of the input keyboard with reference to a flowchart of an embodiment of calling the input parameters of the input keyboard in the method of the present invention shown in fig. 3, which may include: step S310 and step S320.

In step S310, it is determined whether an input operation instruction to call out the input keyboard is received.

Step S320, if the input operation instruction is received, popping up an input keyboard to receive an input parameter with a set precision through the input keyboard.

For example: the numerical value can be touched by a point on an interface which slides around the circular ring to adjust the temperature, and a numerical keyboard is popped up to input the numerical value. For example, the input of accurate numerical values can be performed by clicking the numerical values and popping up a numerical keyboard, as shown in the example of fig. 8.

Therefore, the input keyboard is called to input the input parameters with the set precision in the process of sliding the adjusting parameters around the set track, so that the user can directly input the parameters under the condition of inconvenient parameter precision adjustment in the process of sliding the adjusting parameters around the set track, the requirement of the user on parameter adjustment is better met, the humanization is better, and the reliability is higher.

Through a large amount of experimental verifications, adopt the technical scheme of this embodiment, through the slip range of adjustment around ring slip adjustment parameter, can avoid appearing the display blind area, convenience of customers looks over the regulation result in real time, and user experience is good.

According to the embodiment of the invention, a parameter adjusting device corresponding to the parameter adjusting method is also provided. Referring to fig. 4, a schematic diagram of an embodiment of the apparatus of the present invention is shown. The parameter adjusting means may include: an acquisition unit 102 and an adjustment unit 104.

In an optional example, the obtaining unit 102 may be configured to obtain a sliding trajectory for sliding the adjustment parameter around the set trajectory, and an operation gesture. The specific functions and processes of the acquiring unit 102 are referred to in step S110.

Optionally, setting the trajectory may include: a slide bar having a set shape. The setting of the shape may include: at least one of a circular ring, a fan ring and a polygonal ring.

Wherein, the sliding strip in the set track can limit the slidable range. The sliding trajectory is a trajectory that slides around the set trajectory to adjust the parameter, and the sliding trajectory is a part of the set trajectory.

Optionally, the sliding track may include: a track that slides along the set track.

Optionally, the operation gesture may include: a left hand gesture or a right hand gesture, and an operation finger and an operation direction in the left hand gesture or the right hand gesture (for example, a finger pad of an index finger of the right hand faces an operation interface of the terminal or faces away from the terminal, or a finger pad of a thumb of the right hand is close to the operation interface of the terminal or is far away from the operation interface of the terminal, etc.).

From this, through the set trajectory, the slip track and the operation gesture of multiform, can satisfy the user of different operation demands, different operation habits and slide the regulation parameter around setting for the trajectory, suitable crowd is wide, and is nimble and convenient.

Optionally, the acquiring unit 102 acquires a sliding track of the adjustment parameter sliding around the set track and an operation gesture, and may include: the obtaining unit 102 may be further configured to obtain a sliding trajectory of the adjustment parameter around the set trajectory, which is collected by the sliding sensor, and obtain an operation gesture of the adjustment parameter around the set trajectory, which is collected by the image sensor.

Therefore, the required parameters are acquired by setting the corresponding sensors, the acquisition mode is simple and convenient, and the acquisition result is reliable.

In an optional example, the adjusting unit 104 may be configured to determine whether a display blind area occurs during the operation of sliding the adjusting parameter around the set trajectory according to the sliding trajectory and the operation gesture. The display blind area is an area for shielding the parameter display value due to sliding operation in the operation process of sliding the adjustment parameter around the set track. The specific function and processing of the adjusting unit 104 are shown in step S120.

For example: referring to the examples shown in fig. 6 and 7, the sliding range is set between 0-270 °, and the range between 270 and 360 degrees is referred to as a sliding "blind zone". For example: the user's finger (e.g., the index finger of the right hand) does not see the change in degrees as the feedback turns between 270-360.

Alternatively, the determining, by the adjusting unit 104, whether a dead zone occurs during the operation of sliding the adjusting parameter around the set track may include:

the adjusting unit 104 may be further configured to determine, according to the sliding trajectory and the operation gesture, a current operation position in an operation process of sliding an adjusting parameter around a set trajectory. The specific function and processing of the adjusting unit 104 are also referred to in step S210.

The adjusting unit 104 may be further configured to determine whether the current operation position falls into the set operation position according to a corresponding relationship between the set operation position and the set occlusion region. The specific function and processing of the adjusting unit 104 are also shown in step S220.

For example: the operation position is the position of the finger on the interface, and the sheltering area is the blind area.

The adjusting unit 104 may be further configured to determine that the display position of the parameter indication value falls into the set occlusion region in the operation process of sliding the adjusting parameter around the set trajectory if the current operation position falls into the set operation position. That is, in the case where the display position of the parameter indication value is blocked during the operation of sliding the adjustment parameter around the set trajectory, it is determined that a display blind area occurs during the operation of sliding the adjustment parameter around the set trajectory. The specific function and processing of the adjusting unit 104 are also referred to in step S230.

Therefore, under the condition that the current operation position in the operation process of the sliding adjusting parameter around the set track determined according to the sliding track and the operation gesture falls into the set operation position, the display position of the parameter indication value in the operation process of the sliding adjusting parameter around the set track is determined to fall into the set shielding area, the display blind area in the operation process of the sliding adjusting parameter around the set track is determined, and the determination of whether the display blind area appears in the operation process of the sliding adjusting parameter around the set track is accurate and reliable.

In an optional example, the adjusting unit 104 may be further configured to, if the display blind area occurs, adjust a display position of the parameter display value in the display blind area or compress a sliding range of the set track, so that the parameter display value in the display blind area is outside the display blind area, even if the parameter display value is displayed without the display blind area or the display blind area is prevented from occurring. The specific function and processing of the adjusting unit 104 are also referred to in step S130.

For example: the method for eliminating the blind area generated by the smart home APP air conditioner plug-in page touch mode based on the ring sliding temperature regulation is provided.

Therefore, under the condition that the display blind area appears in the operation process of determining the sliding adjusting parameter around the set track according to the sliding track and the operation gesture of the sliding adjusting parameter around the set track, the display position of the parameter indication value in the display blind area is adjusted or the sliding range of the set track is compressed, so that the parameter display value in the display blind area is out of the display blind area, the user can check conveniently, and the user experience of the sliding adjusting parameter around the set track of the user is improved.

Optionally, the adjusting unit 104 adjusts the display position of the parameter indication value in the dead display area, and may include: the adjusting unit 104 may be further configured to adjust a display position of the parameter indication value in the display blind area to be outside the display blind area. For example: and adjusting the display position of the parameter indication value in the display blind area to a place which is not shielded by the finger in the display area on the operation interface facing the user.

Therefore, the display position of the parameter display value in the display blind area is adjusted to be out of the display blind area, so that the purpose of conveniently checking the parameter display value by a user is realized, and the method is simple, convenient and reliable.

Optionally, the compressing the sliding range of the set trajectory by the adjusting unit 104 may include: the adjusting unit 104 may be further configured to compress a sliding range of the set trajectory to compress the sliding trajectory; and adjusting the compression direction of the sliding range of the set track to enable the compressed sliding range of the set track to meet the operation requirement of the operation gesture. For example: if the set track is a circular ring, the set track is compressed from 0-360 degrees to 0-270 degrees. If the operation gesture is left hand, setting a sliding area of the compressed sliding range in a counterclockwise direction on an operation interface facing a user; or if the operation gesture is a right hand, setting a sliding area of the compressed sliding range in a clockwise direction on the operation interface facing the user.

For example: in order to prevent the user from blocking the change of the temperature number between 270-360 degrees when sliding around the ring, and avoid the finger from sliding into the blind area, the sliding range of the temperature ring is adjusted to 0-270 degrees, which can be seen in the examples shown in fig. 6 and 7. Such as compressing the range of finger sliding to 0 deg. -270 deg., to avoid the user's line of sight from entering what we call the "dead zone".

For example: when the user slides around the ring on intelligent house APP and adjusts the temperature, no matter left hand or right hand touch, because sheltering from of finger, get into the sight blind area that the temperature shows between its 270-. No matter the left hand is controlled or the right hand is controlled to control the intelligent household APP, the temperature adjusting range sliding around the circular ring is set between 0-270 degrees, and therefore the phenomenon that sight lines enter blind areas can be avoided.

Therefore, the sliding range of the set track is compressed, and the compression direction of the sliding range of the set track is adjusted to avoid the parameter display value from falling into the display blind area, so that a user can conveniently check the parameter display value in real time, and the user experience is good.

In an alternative embodiment, at least one of the following operations may also be included.

The first operation process is as follows: the process of determining the sliding operation command of the sliding adjustment parameter around the set trajectory may specifically include: the adjusting unit 104 may be further configured to determine whether there is a sliding operation instruction for sliding the adjusting parameter around the set trajectory before acquiring the sliding trajectory for sliding the adjusting parameter around the set trajectory and the operating gesture, so as to acquire the sliding trajectory for sliding the adjusting parameter around the set trajectory and the operating gesture if there is the sliding operation instruction.

Therefore, the operation of acquiring the sliding track and the operation gesture of the sliding adjustment parameter around the set track is started under the condition that the sliding operation instruction of the sliding adjustment parameter around the set track exists, the sliding track and the operation gesture of the sliding adjustment parameter around the set track can be accurately and reliably acquired, and the energy consumption increased by randomly acquiring the sliding track and the operation gesture of the sliding adjustment parameter around the set track can be avoided.

The second operation process comprises the following steps: the process of calling out the input parameters of the input keyboard may specifically be as follows:

the adjusting unit 104 may be further configured to determine whether an input operation instruction to call out the input keyboard is received. The specific function and processing of the adjusting unit 104 are also referred to in step S310.

The adjusting unit 104 may be further configured to pop up an input keyboard to receive an input parameter with a set precision through the input keyboard if the input operation instruction is received. The specific function and processing of the adjusting unit 104 are also referred to in step S320.

For example: the numerical value can be touched by a point on an interface which slides around the circular ring to adjust the temperature, and a numerical keyboard is popped up to input the numerical value. For example, the input of accurate numerical values can be performed by clicking the numerical values and popping up a numerical keyboard, as shown in the example of fig. 8.

Therefore, the input keyboard is called to input the input parameters with the set precision in the process of sliding the adjusting parameters around the set track, so that the user can directly input the parameters under the condition of inconvenient parameter precision adjustment in the process of sliding the adjusting parameters around the set track, the requirement of the user on parameter adjustment is better met, the humanization is better, and the reliability is higher.

Since the processes and functions implemented by the apparatus of this embodiment substantially correspond to the embodiments, principles and examples of the method shown in fig. 1 to 3, the description of this embodiment is not detailed, and reference may be made to the related descriptions in the foregoing embodiments, which are not repeated herein.

Through a large number of tests, the technical scheme of the invention is adopted, and in the process of adjusting the parameters by sliding around the circular ring, if a display blind area exists, the display position is adjusted, so that the user can conveniently check the parameters, and the display mode is flexible.

According to the embodiment of the invention, a terminal corresponding to the parameter adjusting device is also provided. The terminal may include: the parameter adjusting device is described above.

In the questionnaire survey aiming at the frequency of the use functions of the user, for example, the questionnaire survey is carried out aiming at the thinking logic and the behavior logic of the traditional household appliance used in the daily life of the user, the basic mathematical knowledge is used for comparative analysis, and the function use arrangement which is more in line with the public requirements is obtained according to the change of factors such as regions, ages and the like. For example: the first interaction mode is the interaction of clicking plus or minus; the second interaction mode is the interaction of left-right translation and sliding; the third interaction mode is the interaction of up-down translation and sliding; the fourth interaction mode is an interaction of sliding around a ring. In the process of user experience and usability testing, the first interaction mode cannot quickly touch the expected value of the user in the process of user experience and usability testing; the second is that the value of the degree adjustment cannot be accurately grasped; the third up-and-down sliding is similar to the volume change graphic representation of the mobile phone; the fourth is the interaction mode favored by the user, which is most popular with the user.

User experience and usability testing can be performed for temperature regulated prototyping. For example: 4 temperature-regulated interactive mode interfaces can be manufactured, usability tests are carried out by using a protopie player, and it is found that users are most prone to a fourth interactive mode, namely an interactive mode of sliding around a circular ring. The Protopie Player is a preview tool matched with Protopie Studio for use, and the Protopie Studio is a design tool which is codeless and can make high-fidelity interactive prototypes.

In an alternative embodiment, in consideration of the fact that in the process of adjusting the temperature by sliding around the circular ring in the user experience and feasibility test, whether the user touches with the left hand or the right hand, the user enters the sight blind area of the temperature display within the range of 270 degrees and 360 degrees, see the example shown in fig. 8; in addition, the temperature is adjusted by sliding around the ring, and the adjustment accuracy is not good to grasp. The scheme of the invention provides a method for eliminating a blind area generated by a smart home APP air conditioner plug-in page touch mode based on ring sliding temperature regulation.

In an alternative example, in the solution of the present invention, on one hand, in order to prevent the user from blocking the change of the temperature number between 270-. On the other hand, the numerical value can be touched by the interface which slides around the circular ring to adjust the temperature, and a numerical keyboard is popped up to input the numerical value. Wherein, the sliding range is set between 0-270 degrees, and the range between 270-360 degrees is referred to as a sliding 'blind zone'.

For example: referring to the example shown in FIG. 8, user experience and usability tests may be performed for a prototype design that slides around a circle. For example: the user's finger (e.g., the index finger of the right hand) does not see the change in degrees as the feedback turns between 270-360. The scheme of the invention is modified, the sliding range of the finger is compressed to 0-270 degrees, so as to prevent the sight of the user from entering what we call a blind area; in addition, the input of accurate numerical values can be performed by clicking the numerical values and popping up a numerical keyboard, as shown in the example of fig. 8. FIG. 8 is a flow chart of an interactive mode for accurate adjustment of data by sliding and touching input values around a circle; the expected value refers to a value that a user subjectively adjusts to.

Optionally, in the user experience and feasibility test, when the user slides around the ring on the smart home APP to adjust the temperature, no matter whether the user touches the smart home APP with the left hand or the right hand, the user enters a sight blind area of temperature display between 270 degrees and 360 degrees due to the shielding of the fingers. No matter the left hand is controlled or the right hand is controlled to control the intelligent household APP, the temperature adjusting range sliding around the circular ring is set between 0-270 degrees, and therefore the phenomenon that sight lines enter blind areas can be avoided.

Therefore, the scheme of the invention is that the user experience and usability test of the original prototype are continuously carried out by using the method of the user experience to the proper cycle of the prototype design through the design taking the user as the center, and the prototype design is continuously modified and perfected to perfect the design of the product and enable the interactive mode to be closer to the natural interaction. By applying the theory of the natural interaction interface, the APP interface of the natural interaction mode is designed on the basis of the natural behavior and the original cognition of people. Natural interaction is considered from a "human" perspective. The human angle is the aspect of the user experience. The natural user interface is a user interface that can be matched with the thinking mode and behavior experience of the target user in the expected use scene. The device is more integrated with equipment, environment and people.

Since the processes and functions implemented by the terminal of this embodiment substantially correspond to the embodiments, principles, and examples of the apparatus shown in fig. 4, reference may be made to the related descriptions in the foregoing embodiments for details which are not described in detail in the description of this embodiment, and no further description is given here.

Through a large number of tests, the technical scheme provided by the invention is adopted, and the sliding range of the sliding adjustment parameters around the circular ring is adjusted to 0-270 degrees, so that the sliding device can be conveniently used by most people, and is reliable and convenient.

According to an embodiment of the present invention, there is also provided a storage medium corresponding to the parameter adjustment method. The storage medium may include: the storage medium has stored therein a plurality of instructions; the instructions are used for loading and executing the parameter adjusting method by the processor.

Since the processing and functions implemented by the storage medium of this embodiment substantially correspond to the embodiments, principles, and examples of the methods shown in fig. 1 to fig. 3, details are not described in the description of this embodiment, and reference may be made to the related descriptions in the foregoing embodiments, which are not described herein again.

Through a large number of tests, the technical scheme of the invention can be adopted to flexibly adjust the adjusting range of the sliding adjusting parameters around the circular ring on the terminal interface according to different operation modes of left and right hands, so that the use of users with different operation habits can be facilitated, and the operation is flexible and convenient.

According to the embodiment of the invention, the terminal corresponding to the parameter adjusting method is also provided. The terminal can include: a processor for executing a plurality of instructions; a memory to store a plurality of instructions; wherein the instructions are stored by the memory, and loaded by the processor and executed by the processor to perform the parameter adjustment method.

Since the processing and functions implemented by the terminal of this embodiment substantially correspond to the embodiments, principles, and examples of the methods shown in fig. 1 to fig. 3, details are not described in the description of this embodiment, and reference may be made to the related descriptions in the foregoing embodiments, which are not described herein again.

Through a large number of tests, the technical scheme of the invention is adopted, and in the process of adjusting the parameters by sliding around the circular ring, if a display blind area exists, the display position is adjusted or the sliding range is adjusted, so that the display blind area is avoided, the user can conveniently check the parameters, and the method is reliable and convenient.

In summary, it is readily understood by those skilled in the art that the advantageous modes described above can be freely combined and superimposed without conflict.

The above description is only an example of the present invention, and is not intended to limit the present invention, and it is obvious to those skilled in the art that various modifications and variations can be made in the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (15)

1. A method for parameter adjustment, comprising:

acquiring a sliding track of a sliding adjustment parameter around a set track and an operation gesture;

determining whether a display blind area appears in the operation process of sliding the adjusting parameter around the set track or not according to the sliding track and the operation gesture; the display blind area is an area for shielding a parameter display value due to sliding operation in the operation process of sliding adjustment parameters around the set track;

and if the display blind area appears, adjusting the display position of the parameter indication value in the display blind area or compressing the sliding range of the set track.

2. The method of claim 1, wherein setting a trajectory comprises: a slide bar having a set shape; the set shape includes: at least one of a circular ring, a fan ring and a polygonal ring;

the sliding track comprises: a track that slides along the set track;

the operation gesture comprises: a left hand gesture or a right hand gesture, and an operation finger and an operation direction in the left hand gesture or the right hand gesture.

3. The method according to claim 1 or 2, wherein the acquiring of the sliding trajectory of the adjustment parameter around the set trajectory and the operating gesture comprises:

and acquiring a sliding track of the sliding adjusting parameter around the set track acquired by the sliding sensor, and acquiring an operation gesture of the sliding adjusting parameter around the set track acquired by the image sensor.

4. The method of claim 1 or 2, wherein the determining whether a dead zone occurs during the operation of sliding the adjustment parameter around the set track comprises:

determining the current operation position in the operation process of sliding the adjusting parameter around the set track according to the sliding track and the operation gesture;

determining whether the current operation position falls into a set operation position or not according to the corresponding relation between the set operation position and a set shielding area;

and if the current operation position falls into the set operation position, determining that the display position of the parameter indication value in the operation process of sliding and adjusting the parameter around the set track falls into the set shielding area.

5. The method according to claim 1 or 2, wherein,

the adjustment shows the display position of parameter indication value in the blind area, includes:

adjusting the display position of the parameter indication value in the display blind area to be outside the display blind area;

or,

the compressing the sliding range of the set track comprises:

compressing a sliding range of a set track to compress the sliding track; and adjusting the compression direction of the sliding range of the set track to enable the compressed sliding range of the set track to meet the operation requirement of the operation gesture.

6. The method of claim 1 or 2, further comprising:

determining whether a sliding operation instruction of sliding the adjusting parameter around the set track exists or not, and acquiring the sliding track of the adjusting parameter around the set track and the operation gesture under the condition that the sliding operation instruction exists;

and/or the presence of a gas in the gas,

determining whether an input operation instruction for calling out an input keyboard is received;

and if the input operation instruction is received, popping up an input keyboard to receive input parameters with set precision through the input keyboard.

7. A parameter adjusting apparatus, comprising:

the acquisition unit is used for acquiring a sliding track of the sliding adjustment parameter around the set track and an operation gesture;

the adjusting unit is used for determining whether a display blind area appears in the operation process of sliding the adjusting parameter around the set track according to the sliding track and the operation gesture; the display blind area is an area for shielding a parameter display value due to sliding operation in the operation process of sliding adjustment parameters around the set track;

and the adjusting unit is also used for adjusting the display position of the parameter indication value in the display blind area or the sliding range of the compression setting track if the display blind area appears.

8. The apparatus of claim 7, wherein setting a trajectory comprises: a slide bar having a set shape; the set shape includes: at least one of a circular ring, a fan ring and a polygonal ring;

the sliding track comprises: a track that slides along the set track;

the operation gesture comprises: a left hand gesture or a right hand gesture, and an operation finger and an operation direction in the left hand gesture or the right hand gesture.

9. The apparatus according to claim 7 or 8, wherein the acquiring unit acquires a sliding trajectory for sliding the adjustment parameter around the set trajectory, and an operation gesture, including:

and acquiring a sliding track of the sliding adjusting parameter around the set track acquired by the sliding sensor, and acquiring an operation gesture of the sliding adjusting parameter around the set track acquired by the image sensor.

10. The apparatus according to claim 7 or 8, wherein the adjusting unit determines whether a dead zone occurs during the operation of sliding the adjustment parameter around the set trajectory, including:

determining the current operation position in the operation process of sliding the adjusting parameter around the set track according to the sliding track and the operation gesture;

determining whether the current operation position falls into a set operation position or not according to the corresponding relation between the set operation position and a set shielding area;

and if the current operation position falls into the set operation position, determining that the display position of the parameter indication value in the operation process of sliding and adjusting the parameter around the set track falls into the set shielding area.

11. The apparatus of claim 7 or 8, wherein,

the adjusting unit adjusts the display position of the parameter indication value in the display blind area, and the adjusting unit comprises:

adjusting the display position of the parameter indication value in the display blind area to be outside the display blind area;

or,

the adjusting unit compresses the sliding range of the set track, and comprises:

compressing a sliding range of a set track to compress the sliding track; and adjusting the compression direction of the sliding range of the set track to enable the compressed sliding range of the set track to meet the operation requirement of the operation gesture.

12. The apparatus of claim 7 or 8, further comprising:

the adjusting unit is further used for determining whether a sliding operation instruction for sliding the adjusting parameter around the set track exists or not, so that the sliding track and the operation gesture of the adjusting parameter sliding around the set track are obtained under the condition that the sliding operation instruction exists;

and/or the presence of a gas in the gas,

the adjusting unit is also used for determining whether an input operation instruction for calling out the input keyboard is received;

and the adjusting unit is also used for popping up an input keyboard to receive input parameters with set precision through the input keyboard if the input operation instruction is received.

13. A terminal, comprising: parameter adjustment device according to any of claims 7-12.

14. A storage medium having a plurality of instructions stored therein; the plurality of instructions for being loaded by a processor and for performing the parameter adjustment method of any of claims 1-6.

15. A terminal, comprising:

a processor for executing a plurality of instructions;

a memory to store a plurality of instructions;

wherein the instructions are for being stored by the memory and loaded and executed by the processor to perform the parameter adjustment method of any of claims 1-6.