CN111584075A - User interface display method - Google Patents

Abstract

The invention provides a user interface display method. The method comprises the following steps: a plurality of posture information arranged in a rule is stored in advance through a storage unit; receiving physiological information of a user through an input unit; selecting current posture information corresponding to the physiological information from the posture information through a processing unit; selecting a plurality of first posture information similar to the current posture information from the posture information according to the rule through the processing unit; and displaying the current body state information at a first position and respectively displaying the first body state information at a plurality of second positions by the display unit, wherein the second positions are adjacent to the first positions.

Description

User interface display method

Technical Field

The present invention relates to a user interface display method, and more particularly, to a user interface display method for displaying a posture.

Background

In recent years, due to the vogue of fitness exercise, pursuing perfect posture (Body Type) has been the goal of many people. However, there is no effective method or application to help users understand the various possible physical states, nor how to advance from their current physical state to the target physical state. For example, the user does not know what the user's posture is, nor does the user know that the amount of fat needs to be increased or decreased, or the amount of muscle needs to be increased or decreased in order to achieve the target posture.

Disclosure of Invention

Therefore, the present invention provides a user interface display method, which can display the current posture information of the user and the posture information similar to the current posture information, so that the user can know the posture of the body in a graphical way.

The invention provides a user interface display method, which is suitable for an electronic device, wherein the electronic device comprises a display unit, an input unit, a storage unit and a processing unit, and the user interface display method comprises the following steps: a plurality of posture information arranged in a rule is stored in advance through the storage unit; receiving a physiological information of a user through the input unit; selecting a current posture information corresponding to the physiological information from the posture information through the processing unit; selecting a plurality of first posture information similar to the current posture information from the posture information according to the rule through the processing unit; and displaying the current body state information at a first position and respectively displaying the first body state information at a plurality of second positions by the display unit, wherein the second positions are adjacent to the first position.

In an embodiment of the present invention, the step of pre-storing the posture information arranged in the rule includes: the body state information is sequentially arranged through the processing unit according to the muscle mass and the fat mass of each body state information, and the arranged body state information is sequentially stored in an n x n first matrix, wherein n is a nonzero positive integer and n is an odd number.

In an embodiment of the invention, the current body state information is stored in the ith row and the jth column of the first matrix, i is a positive integer which is non-zero and less than or equal to n, and j is a positive integer which is non-zero and less than or equal to n.

In an embodiment of the invention, the first body state information includes a second body state information stored in the first matrix at the i-1 st column, j-1 st row, a third body state information stored in the i-1 st column, j-1 st row, a fourth body state information stored in the i-1 st column, j +1 st row, a fifth body state information stored in the i th column, j-1 st row, a sixth body state information stored in the i th column, j +1 st row, a seventh body state information stored in the i +1 st column, j-1 st row, an eighth body state information stored in the i +1 st column, j +1 st row, and a ninth body state information stored in the i +1 st column, j +1 st row.

In an embodiment of the present invention, the step of displaying the current posture information at the first position and the step of displaying the first posture information at the second positions respectively comprises: and displaying the current body state information and the first body state information in a second matrix of m x m through the display unit, wherein m is a non-zero positive integer and m is an odd number.

In an embodiment of the present invention, the step of displaying the current body state information and the first body state information in the m × m second matrix includes: displaying the current body state information in the x-th row and the y-1 th row in the second matrix, the second body state information in the x-1 th row in the second matrix, the third body state information in the x-1 th row in the second matrix, the fourth body state information in the x-1 th row in the second matrix, the fifth body state information in the x-1 th row in the second matrix, the y-1 th row in the second matrix, the sixth body state information in the x-th row and the y +1 th row in the second matrix, the seventh body state information in the x +1 th row in the second matrix, the eighth body state information in the x +1 th row in the second matrix, and the ninth body state information in the x +1 th row in the second matrix, wherein x and y are the quotient of (m +1)/2, respectively.

In an embodiment of the invention, each of the posture information includes an image including a human body, the muscle of the human body is represented by a first color and the fat of the human body is represented by a second color.

In an embodiment of the invention, before the steps of displaying the current posture information at the first position and displaying the first posture information at the second positions respectively, the method further includes: and displaying the current physical status information and at least one physical status value corresponding to the physiological information through a display unit.

In an embodiment of the invention, after the step of displaying the current physical status information and the at least one physical status value corresponding to the physiological information and before the steps of displaying the current physical status information at the first location and displaying the first physical status information at the second locations respectively, the method further includes: receiving a selection operation corresponding to the current posture information through an input unit; and executing the steps of displaying the current posture information at the first position and respectively displaying the first posture information at the second positions through a display unit according to the selection operation.

In one embodiment of the present invention, the at least one Body condition value includes at least one of Body fat rate, muscle Mass, Body weight, Body height and Body Mass Index (BMI), basal metabolic rate, visceral fat rate, water content, and bone weight.

Based on the above, the user interface display method of the present invention can display the current posture information of the user and the posture information similar to the current posture information, so that the user can know the posture of the body in a graphical manner.

In order to make the aforementioned and other features and advantages of the invention more comprehensible, embodiments accompanied with figures are described in detail below.

Drawings

FIG. 1 is a block diagram of an electronic device according to an embodiment of the invention;

FIGS. 2A and 2B are schematic diagrams illustrating posture information stored in an electronic device according to an embodiment of the invention;

FIG. 3 is a schematic diagram of an image included in the posture information according to an embodiment of the present invention;

FIG. 4 is a diagram illustrating displaying posture information, according to an embodiment of the present invention;

FIG. 5 is a diagram illustrating a display of current posture information and physical condition values according to an embodiment of the present invention;

FIG. 6 is a flowchart illustrating a user interface display method according to an embodiment of the invention.

Description of the reference numerals

100: electronic device

120: display unit

140: input unit

160: processing unit

A to Y: posture information

200: matrix array

210. 220, and (2) a step of: user interface

30-38: block

50: image of a person

51: body fat percentage

53: muscle mass

55: body weight

57: height and body weight index

59: basal metabolic rate

61: water content

63: visceral fat ratio

65: bone weight

S601: a step of pre-storing a plurality of posture information arranged in a rule by a storage unit

S603: step of receiving physiological information of user through input unit

S605: a step of selecting, by the processing unit, current posture information corresponding to the physiological information from the aforementioned posture information

S607: selecting a plurality of first posture information similar to the current posture information from the posture information according to the rule by the processing unit

S609: displaying the current body state information at a first position and respectively displaying the first body state information at a plurality of second positions by a display unit, wherein the second positions are adjacent to the first positions

Detailed Description

Fig. 1 is a block diagram of an electronic device according to an embodiment of the invention. Referring to fig. 1, the electronic device 100 of the present embodiment includes a display unit 120, an input unit 140, and a processing unit 160. The electronic device 100 is, for example, an electronic device such as a mobile phone, a tablet computer, a notebook computer, etc., and is not limited herein.

The display unit 120 may provide a display device of a display function within a display area of the electronic device 100. The display unit 120 may be a display device providing a display function for a Liquid Crystal Display (LCD), a light-emitting diode (LED), a Field Emission Display (FED), and the like.

The input unit 140 is an input device such as a mouse, a keyboard, a joystick or a touch pad, and can receive the operation of a user. In addition, the input unit 140 can also be a resistive, capacitive or other type of touch sensing element, which can be integrated with the display unit 120 of the electronic device 100 as a touch screen.

The Processing Unit 160 is connected to the display Unit 120 and the input Unit 140, and may be a Central Processing Unit (CPU), or other programmable general purpose or special purpose Microprocessor (Microprocessor), Digital Signal Processor (DSP), programmable controller, Application Specific Integrated Circuit (ASIC), or other similar components or combinations thereof.

In the present exemplary embodiment, the electronic device 100 further includes a storage unit (not shown) having a plurality of program code segments stored therein, and the program code segments are executed by the processing unit 160 after being installed. For example, the storage unit includes a plurality of modules, and each module is configured by one or more program code segments, and is used for executing each operation of the electronic device 100. However, the invention is not limited thereto, and the operations of the electronic device 100 may also be implemented by using other hardware forms.

Fig. 2A and 2B are schematic diagrams illustrating posture information stored in an electronic device according to an embodiment of the invention.

Referring to fig. 2A and fig. 2B, in fig. 2A, it is assumed that the memory unit of the electronic device 100 can store 25 types of posture information (i.e., posture information a to posture information Y) in advance. Wherein, each body state information comprises a muscle mass and a fat mass. The processing unit 160 arranges the posture information a to the posture information Y in order according to the muscle mass and the fat mass of each posture information, and sequentially stores the arranged posture information a to posture information Y in a matrix 200 (also referred to as a first matrix) like 5 × 5 of fig. 2A.

It is assumed that fat mass is classified into five grades of "obesity", "excessive fat", "standard small fat", and "minimal fat", and muscle mass is classified into five grades of "high muscle", "large muscle", "medium muscle", "small muscle", and "minimal muscle", from high to low.

Specifically, referring to fig. 2A and 2B, the fat amount of the posture information (i.e., the posture information a to the posture information E) in the first column of the matrix 200 is "obesity". The fat amount of the posture information (i.e., posture information F to posture information J) located in the second column in the matrix 200 is "excessive fat (over fat)". The fat amount of the posture information (i.e., posture information K to posture information O) located in the third column of the matrix 200 is "standard fat (standard plus fat)". The fat amount of the posture information (i.e., posture information P to posture information T) located in the fourth column of the matrix 200 is "standard fat-less (standard fat)". The fat amount of the posture information (i.e., posture information U to posture information Y) located in the fifth column of the matrix 200 is "trace fat".

Further, the muscle mass of the posture information (i.e., the posture information A, F, K, P, U) located on the first row in the matrix 200 is "little muscle". The muscle mass of the posture information (i.e., the posture information B, G, L, Q, V) located in the second row in the matrix 200 is "small muscle (low muscle)". The muscle mass of the posture information (i.e., the posture information C, H, M, R, W) located at the third row in the matrix 200 is "medium muscle". The muscle mass of the posture information (i.e., the posture information D, I, N, S, X) located in the fourth row of the matrix 200 is "multiple muscle (mulch muscle)". The muscle mass of the posture information (i.e., the posture information E, J, O, T, Y) located in the fifth row of the matrix 200 is "high muscle".

That is, the aforementioned posture information a-J may be sorted according to the muscle mass and the fat mass, and then the 25 kinds of posture information may be sequentially stored in a matrix 200 (also referred to as a first matrix) of five by five, and each of the posture information may logically correspond to one element in the matrix 200. For example, the posture information a corresponds to an element located in the 1 st row and the 1 st column in the matrix 200; the body state information B corresponds to the elements in the matrix 200 located in row 2 and column 1; the posture information F corresponds to the elements of the matrix 200 located at row 1, column 2, and so on. In particular, the invention is not limited to the amount of posture information and the size of the matrix 200, and in other exemplary embodiments, the electronic device 100 may store more or less posture information and the size of the matrix 200 may be larger or smaller. In other embodiments, assuming that the size of the first matrix is n × n, n is a positive non-zero integer and n is an odd number.

In particular, fig. 3 is a schematic diagram of an image included in the posture information according to an embodiment of the invention. Referring to fig. 3, in the present embodiment, each of the posture information a to Y further includes an image. The image includes a human body, and the muscle of the human body is represented by a first color (e.g., red) and the fat of the human body is represented by a second color (e.g., orange).

In the present exemplary embodiment, the processing unit 160 can obtain the physiological information of the user, and select one posture information corresponding to the physiological information from the matrix 200 as the current posture information of the user according to the physiological information of the user. For example, the user can input his/her physiological information, such as height, weight, sex, and age, through the input unit 140. When the processing unit 160 receives the physiological information, it calculates the body fat rate (including muscle mass and fat mass) of the user according to the physiological information, and corresponds the calculated body fat rate to one of the posture information a to the posture information Y. It should be noted, however, that the present invention is not limited to the above-mentioned physiological information and the way of obtaining the physiological information, and the present invention is not limited to the method of how to correspond the physiological information of the user to one of the plurality of modality information.

Assume that the processing unit 160 sets the posture information M located in the 3 rd column and 3 rd row of the matrix 200 as the current posture information of the user. The processing unit 160 also combines, similarly to the posture information M (or in the vicinity of the matrix 200), the posture information G (also referred to as second posture information) located in the 2 nd column and 2 nd row, the posture information H (also referred to as third posture information) located in the 2 nd column and 3 rd row, the posture information I (also referred to as fourth posture information) located in the 2 nd column and 4 th row, the posture information L (also referred to as fifth posture information) located in the 3 rd column and 2 nd row, the posture information N (also referred to as sixth posture information) located in the 3 rd column and 4 th row, the posture information Q (also referred to as seventh posture information) located in the 4 th column and 2 nd row, the posture information R (also referred to as eighth posture information) located in the 4 th column and 3 rd row, and the posture information S (also referred to as ninth posture information) located in the 4 th column and 4 th row according to the sorting rule of the matrix 200.

In other words, assuming that the current posture information is the jth row in the ith column stored in the first matrix, the second posture information is the jth-1 row in the ith-1 column stored in the first matrix, the third posture information is the jth row in the ith-1 column stored in the first matrix, the fourth posture information is the jth +1 row in the ith-1 column stored in the first matrix, the fifth posture information is the jth-1 row in the ith column stored in the first matrix, the sixth posture information is the jth +1 row in the ith column stored in the first matrix, the seventh posture information is the jth-1 row in the ith +1 column stored in the first matrix, the eighth posture information is the jth row in the ith +1 column stored in the first matrix, and the ninth posture information is the jth +1 row in the ith +1 column stored in the first matrix. In the present exemplary embodiment, the second posture information, the third posture information, the fourth posture information, the fifth posture information, the sixth posture information, the seventh posture information, the eighth posture information, and the ninth posture information may be collectively referred to as "first posture information".

After the current body state information and the plurality of first body state information are selected, the display unit of the electronic device 100 may display the pattern of the current body state information and the pattern of the first body state information.

In more detail, fig. 4 is a schematic diagram illustrating displaying the posture information according to an embodiment of the invention.

Referring to fig. 4, the display unit 120 may display a user interface 210 having a matrix of 3 × 3 (also referred to as a second matrix). Wherein the second matrix includes blocks 30-38. The block 30 is located in column 1 and row 1 of the second matrix. Block 31 is located in column 1, row 2 of the second matrix. The block 32 is located in column 1, row 3 of the second matrix. Block 33 is located at column 2, row 1 in the second matrix. Block 34 is located in column 2, row 2 of the second matrix. Block 35 is located in column 2, row 3 of the second matrix. Block 36 is located in column 3, row 1 of the second matrix. Block 37 is located in column 3, row 2 of the second matrix. Block 38 is located in column 3, row 3 of the second matrix.

After the current posture information and the plurality of first posture information are selected, the display unit 120 displays the pattern of the posture information M in the block 34 (also referred to as a first block) located at the first position. In addition, in the matrix 200, the posture information around the posture information M is respectively displayed in the surrounding blocks of the block 34 of the user interface 210.

In detail, in the user interface 210, the image of the posture information G is displayed in the block 30 located at the upper left of the current posture information (i.e., the block 34); the image of the body state information H is displayed in the block 31 located above the current body state information (i.e., the block 34); the image of the posture information I is displayed in the block 32 located at the upper right of the current posture information (i.e., the block 34); the image of the posture information L is displayed in the block 33 located to the left of the current posture information (i.e., the block 34); the image of the posture information N is displayed in the block 35 located at the right side of the current posture information (i.e., the block 34); the image of the posture information Q is displayed in the block 36 located at the lower left of the current posture information (i.e., the block 34); the image of the posture information R is displayed in the block 37 located below the current posture information (i.e., the block 34); the image of the posture information S is displayed in the block 38 located at the lower right of the current posture information (i.e., the block 34). The positions of the blocks 30-32, 33, 35 and 36-38 in the user interface 210 can be collectively referred to as "second positions".

That is, assume that the size of the second matrix displayed by the user interface 210 is m × m. m is a non-zero positive integer and m is an odd number. The display unit 120 displays the current posture information in the xth column and the yth row of the second matrix. Wherein x and y are the quotient of (m +1)/2, respectively. Taking the aforementioned example as an example, since m is 3, the image of the current posture information is displayed in the 2 nd column and 2 nd row of the second matrix.

Further, the display unit 120 is a display unit that displays the aforementioned second body state information (i.e., body state information G) in the x-1 th column, y-1 st row in the second matrix, the third body state information (i.e., body state information H) in the x-1 th column, y +1 st row in the second matrix, the fourth body state information (i.e., body state information I) in the x-1 th column, y-1 st row in the second matrix, the fifth body state information (i.e., body state information L) in the x-1 th column, y-1 st row in the second matrix, the sixth body state information (i.e., body state information N) in the x-1 th column, y-1 st row in the second matrix, the seventh body state information (i.e., body state information Q) in the x +1 th column, y-1 st row in the second matrix, the eighth body state information (i.e., body state information R) in the x +1 th column, and the ninth body state information (i.e., body state information R), the posture information S) is displayed in the x +1 th column and the y +1 th row in the second matrix.

It should be noted, however, that in other embodiments, the display unit 120 displays the current physical status information and at least one physical status value corresponding to the physiological information of the user before displaying the user interface 210. For example, fig. 5 is a schematic diagram illustrating a display of current posture information and a physical status value according to an embodiment of the invention.

Referring to fig. 5, before displaying the user interface 210, the display unit 120 may display a user interface 220. The user interface 220 may include an image 50 of the current posture information corresponding to the physiological information of the user and a physical status value corresponding to the physiological information. The physical condition value may include at least one of a Body fat rate 51, a muscle Mass 53, a Body weight 55, a Body height weight Index (BMI) 57, a basal metabolic rate 59, a water content 61, a visceral fat ratio 63, and a bone weight 65.

In addition, assuming that the user wants to switch the currently displayed user interface 220 to the user interface 210, the user can input a selection operation (e.g., click) on the image 50 through the input unit 140 to enable the electronic device 100 to receive the selection operation corresponding to the current posture information. After the electronic device 100 receives the selection operation corresponding to the current posture information, the display unit 120 performs the steps of displaying the current posture information at the first position and respectively displaying the first posture information at the second position according to the selection operation (i.e., displaying the user interface 210).

FIG. 6 is a flowchart illustrating a user interface display method according to an embodiment of the invention.

Referring to fig. 6, in step S601, the storage unit of the electronic device 100 stores a plurality of posture information arranged in a rule in advance. In step S603, the input unit 140 receives physiological information of the user. In step S605, the processing unit 160 selects current posture information corresponding to the physiological information from the aforementioned posture information. In step S607, the processing unit 160 selects a plurality of first posture information similar to the current posture information from the posture information according to the rule. In step S609, the display unit 140 displays the current posture information at a first position and displays the first posture information at a plurality of second positions respectively. Wherein the second location is adjacent to the first location.

In summary, according to the user interface display method of the present invention, the user interface can display the current posture information of the user and the plurality of posture information similar to the current posture information, so that the user can know the posture of the body in a graphical manner.

Although the present invention has been described with reference to the above embodiments, it should be understood that various changes and modifications can be made therein by those skilled in the art without departing from the spirit and scope of the invention.

Claims (10)

1. A user interface display method is suitable for an electronic device, the electronic device comprises a display unit, an input unit, a storage unit and a processing unit, and the user interface display method comprises the following steps:

a plurality of posture information arranged in a regular manner is stored in advance through the storage unit;

receiving physiological information of a user through the input unit;

selecting, by the processing unit, current posture information corresponding to the physiological information from the plurality of posture information;

selecting, by the processing unit, a plurality of first posture information similar to the current posture information from the plurality of posture information according to the rule; and

displaying the current posture information at a first position and displaying the first posture information at a plurality of second positions respectively through the display unit, wherein the second positions are adjacent to the first position.

2. The user interface display method of claim 1, wherein the step of previously storing the plurality of posture information in the regular arrangement comprises:

arranging the plurality of posture information in sequence according to the muscle mass and the fat mass of the plurality of posture information through the processing unit, and storing the arranged plurality of posture information in sequence into a first matrix of n x n,

where n is a non-zero positive integer and n is an odd number.

3. The method of claim 2, wherein the current posture information is stored in the ith column and jth row of the first matrix, i is a positive integer that is non-zero and less than or equal to n, and j is a positive integer that is non-zero and less than or equal to n.

4. The user interface display method according to claim 3, wherein the plurality of first volume information includes second volume information stored in the first matrix at i-1 column, j-1 row, third volume information at i-1 column, j-1 row, fourth volume information at i-1 column, j +1 row, fifth volume information at i column, j-1 row, sixth volume information at i column, j +1 row, seventh volume information at i +1 column, j-1 row, eighth volume information at i +1 column, j +1 row, and ninth volume information at i +1 column, j +1 row.

5. The method of claim 4, wherein the steps of displaying the current posture information at the first location and displaying the first posture information at the second locations respectively comprise:

displaying the current body state information and the plurality of first body state information in a second matrix of m x m through the display unit,

where m is a non-zero positive integer and m is an odd number.

6. The method of claim 5, wherein displaying the current posture information and the first posture information in the second matrix of m x m comprises:

displaying, by the display unit, the current body state information in an x-th column, a y-1 th column, the second body state information in the second matrix, the third body state information in an x-1 th column, a y-1 th row, the fourth body state information in an x-1 th column, a y +1 th row, the fifth body state information in an x-1 th column, a y-1 th row, the sixth body state information in an x-th column, a y +1 th row, the seventh body state information in an x +1 th column, the eighth body state information in an x +1 th column, a y-1 th row, and the ninth body state information in the second matrix,

wherein x and y are the quotient of (m +1)/2, respectively.

7. The user interface display method of claim 1, wherein the plurality of posture information includes an image including a human body, muscles of the human body are represented in a first color and fat of the human body is represented in a second color.

8. The method of claim 1, wherein prior to the steps of displaying the current posture information at the first location and displaying the first posture information at the second locations, the method further comprises:

and displaying the current physical status information and at least one physical status value corresponding to the physiological information through a display unit.

9. The method of claim 8, wherein after the step of displaying the current posture information and the at least one body condition value corresponding to the physiological information and before the steps of displaying the current posture information at the first location and displaying the plurality of first posture information at the plurality of second locations, respectively, the method further comprises:

receiving a selection operation corresponding to the current posture information through an input unit; and

and executing the steps of displaying the current posture information at the first position and respectively displaying the first posture information at the second positions according to the selection operation through a display unit.

10. The method as claimed in claim 8, wherein the at least one physical condition value includes at least one of a body fat rate, a muscle mass, a weight, a height-to-weight index, a basal metabolic rate, a visceral fat rate, a water content, and a bone weight.

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