CN114822853A - Rehabilitation assessment doctor end, operation method and storage medium - Google Patents

Abstract

The invention discloses a rehabilitation assessment doctor end, an operation method and a storage medium, and relates to the technical field of computers. The production interface is provided with a display window on which the composition elements are displayed and a virtual drawing board. The method and the device push a making interface to a doctor user during operation, and the doctor user selects the composition element and then uses the moving key to enable the composition element in the virtual drawing board to move randomly, and then automatically splices in the moving process to complete making of the reference icon. The storage medium of the invention stores a computer program for executing the method. The method and the device are used for a doctor to automatically make an evaluation icon scheme according to the condition of a patient, so that the effects of flexibly matching the icon and automatically setting the display duration and the drawing duration according to the condition of the icon are achieved, and the evaluation is more objective and convenient.

Description

Rehabilitation assessment doctor end, operation method and storage medium

Technical Field

The invention relates to the technical field of computers, in particular to a rehabilitation assessment doctor end, an operation method and a storage medium.

Background

In rehabilitation medicine, there is a need for intellectual cognitive guidance and rehabilitation for patients with cerebral palsy who suffer from non-progressive brain injury and developmental defect syndrome due to stroke, some causes before and after birth, or cerebral palsy who suffer from head injury. Testing and assessing intelligence is a healing process. For the situation that the existing evaluation method is mainly completed by a traditional method, the inventor applies for a computer system in another patent, namely, a cerebral palsy patient looks at a picture on a tablet computer, draws the picture by memory, and analyzes the correctness of the drawn picture by memory to evaluate the mental patient or the instantaneous memory capacity.

In the early development stage, the applicant sets a method for requiring a patient to look and draw pictures on a tablet computer, wherein icons for evaluation are all preset in advance, the method has limited preset reference pictures and inflexible use, and the method is easy to remember by an evaluation object when evaluating the evaluation object for a long time, and the objectivity of the evaluation is lost, so that the problem needs to be solved.

Disclosure of Invention

In order to solve the above technical problems, provide a more flexible reference map for an evaluation object and perform more objective and accurate evaluation support, the present invention provides a rehabilitation evaluation doctor-side technique in one aspect, a rehabilitation evaluation doctor-side operation method in a second aspect, and a storage medium in a third aspect.

The rehabilitation assessment doctor end comprises an input device, a display screen, a processor and a memory, and a computer program is stored in the memory.

The display screen is provided with a production interface which is pushed to a doctor user and used for producing the reference icon;

the reference icon is an icon which requires the evaluation object to memorize in the evaluation process.

The manufacturing interface is displayed with a virtual drawing tool and a virtual drawing board in parallel;

the virtual drawing tool comprises an exhibition window with composition elements; the composition elements displayed in the display window have at least one or all of the following:

(1) a line segment; (2) the semi-arc line is provided with an upper arc, a lower arc, a left arc and a right arc according to the orientation of the arc top; (3) a circular shape; wherein each of the composition elements has a number of dimensions for selection.

The virtual drawing tool also comprises a deleting key for deleting the composition elements in the virtual drawing board; and the moving key is used for dragging the composition element to move in any direction.

Wherein, the invention also comprises at least one server; the rehabilitation assessment doctor end is connected with the server through the Internet and performs data interaction.

The operation method of the rehabilitation assessment doctor end in the second aspect of the invention is realized by the rehabilitation assessment doctor end in the first aspect, and the method comprises the following steps:

pushing a making interface to a doctor user, and receiving the input of making a reference icon on the making interface by the doctor user; the specific method for making the reference icon is as follows:

s1, adding the composition elements into the virtual drawing board;

s2, moving the composition elements appearing in the virtual drawing board to any position in the virtual drawing board by using the moving keys;

and S3, automatic splicing in the moving process.

Adding the composition elements into the virtual drawing board, and adopting one of the following methods:

(1) when a doctor user clicks any composition element in the display window, enabling the clicked composition element to appear in the virtual drawing board;

(2) the doctor user drags an arbitrary composition element from the display window into the virtual drawing board using the moving key.

When the composition elements appearing in the virtual drawing board are moved to any position in the virtual drawing board by using the moving keys, the following condition limitations are at least provided:

(1) the same composition elements may not be located at the same position; the same composition elements are not less than a preset distance;

the upper arc and the circular upper side can not be positioned at the same position, the lower arc and the circular lower side can not be positioned at the same position, the left arc and the circular left side can not be positioned at the same position, and the right arc and the circular right side can not be positioned at the same position; and is not less than the preset distance;

(2) for the line segments, the same composition elements cannot be connected, and the distance between the end points of the same composition elements is not less than the preset distance;

(3) upper and lower arcs, left and right arcs, not connectable; when the upper arc and the lower arc are at the same longitudinal position, the distance between the end points is not allowed to be smaller than a preset distance; when the left arc and the right arc are at the same height, the distance between the end points is not allowed to be smaller than a preset distance.

The automatic splicing method comprises the following steps:

when the endpoint of the moved composition element has the endpoint of other composition elements in the preset distance range, displacing the endpoint of the moved composition element to the endpoint of the other composition elements; if the preset distance range does not have the end points of other composition elements but has another composition element, the end point of the moved composition element is displaced to the other composition element;

when the moved composition element has the end points of other composition elements in the preset distance range except the end points, the moved composition element is displaced to the end points of the other composition elements; and if the preset distance range does not have the end points of other composition elements but has another composition element, shifting the moved composition element to the other composition element.

Setting a display duration and a drawing duration according to a reference icon, wherein the display duration refers to a limited duration for displaying the reference icon on an evaluation object in the evaluation process, and the drawing duration is a limited duration for drawing the reference icon by the evaluation object according to memory;

the method for setting the display duration and the drawing duration is as follows:

pre-assigning a time value to each composition element;

summing the time values of each composition element in the reference icon to obtain a drawing time length;

the presentation time period is 10% to 100% of the plotting time period.

The invention provides a storage medium storing a computer program, wherein the computer program is executed by hardware to realize the rehabilitation assessment doctor-end running method of the second aspect.

The beneficial technical effects are as follows: the invention introduces the computer information technology into the rehabilitation medicine, and can achieve more objective, accurate and efficient evaluation after realizing the computer informatization.

The invention can make an evaluation icon scheme by a doctor according to the condition of a patient, is very convenient and fast to make the icon, meets the requirement of the evaluation icon, achieves flexible matching of the icon, prevents an evaluated object from remembering the icon, and achieves a more objective evaluation result.

The invention can automatically set the display time and the drawing time according to the condition of the icon, and is more objective and convenient.

Since the rehabilitation process is a long-term process, the evaluation needs to be performed for many times at regular or irregular intervals, and the evaluation can be performed once after a period of rehabilitation treatment, so that the rehabilitation effect can be known conveniently. In order to prevent the reference icon from being memorized by the evaluation experience of the evaluated object after multiple evaluations, the reference icon is flexible. If some icons are made by the system and stored in the system, then the icons are taken out and sent to the evaluation object when used by the doctor user, and if so, the repetition possibility of the reference icons sent to the evaluation object is high, so that in the technology provided by the invention, the reference icons are re-made by the doctor user each time, and the situation of the repetition of the reference icons can be avoided.

Drawings

In order to more clearly illustrate the technical solutions involved in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, however, the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be easily obtained from the drawings without creative efforts.

FIG. 1 is a schematic diagram of a production interface production reference icon;

FIG. 2 is a schematic view of a doctor end touch screen display;

FIG. 3 is a schematic illustration of a small window having patterning elements with large, medium and small size dimensions;

FIG. 4 is a schematic view of the elements of the picture displayed in the window in large, medium and small size;

FIG. 5 is a schematic diagram illustrating that a composition element is dragged to move in an arbitrary direction in a virtual drawing board in a production interface;

FIG. 6 is a schematic diagram of rules that a reference icon has; fig. 6 (a) is a schematic diagram in which when the upper arc and the lower arc are at the same longitudinal position, the distance between the end points is not allowed to be smaller than a preset distance; fig. 6 (b) is a schematic diagram illustrating that the distance between the end points is not allowed to be smaller than a preset distance when the left arc and the right arc are at the same height position; FIG. 6 (c) is a schematic diagram illustrating that the distance between the endpoints of the same composition elements is not less than a preset distance;

FIG. 7 is a schematic diagram of a sequence number of a marked composition element after decomposition of the composition element features;

FIG. 8 is a schematic diagram of a manufacturing step for manufacturing a reference icon according to the present invention;

FIG. 9 is a diagram of the connection between the server and the evaluation object according to the present invention in one of the usage scenarios.

Wherein:

a display screen 1; manufacturing an interface 11; a display window 12; a small window 13; a status bar 14; a mobile key 15; a delete key 16; a confirmation key 17; a preset distance 18; reference character p 1; a first horizontal line patterning element x 1; a second horizontal line patterning element x 2; a first vertical line patterning element b 1; a second vertical line patterning element b 2; a first arc patterning element f 1; the second circular arc patterning element f 2.

Detailed Description

The present invention is further described in detail below with reference to fig. 1-9.

In the following description, terms such as "upper", "lower", "left", "right", and the like, which express orientations or positional relationships, are used only for convenience in describing the present invention and simplifying the description in conjunction with the accompanying drawings, and do not indicate or imply that the contents referred to must have a specific orientation to be operated and disposed, and thus, should not be construed as limiting the present invention. The terms "first", "second", and the like are used in the description of the present invention only for distinguishing technical components and are not to be construed as indicating or implying relative importance.

Example one:

the doctor end mentioned in the invention is preferably a desktop computer or a notebook computer; the input device is preferably a mouse and the production interface is shown on the display screen 1. Referring to fig. 2, the doctor end mentioned in the present invention may be a smart phone or a tablet computer having a touch display screen, and the input device may be a touch display screen; at this time, the layout of the production interface on the touch display screen is properly adjusted, so that the production interface is suitable for the tablet computer, and the status bar 14 is mainly adjusted.

The present invention receives user input at the authoring interface 11, where the input includes clicking on icons or virtual keys, clicking on composition elements displayed in the display window, and dragging the displacement. The operator of the invention is a doctor user, and the doctor user plays the role of evaluating a doctor in the evaluation process.

The doctor end of the invention has the following structure: the display screen comprises a processor, a memory and a display screen coupled with the processor, and also comprises a bus and a communication interface, wherein the processor, the communication interface and the memory are connected through the bus. The memories here are: including high-speed Random Access Memory (RAM), or external memory (e.g., at least one disk memory, USB interface solid state disk memory). The bus here may be an ISA bus, a PCI bus, an EISA bus, or the like. The bus may be divided into an address bus, a data bus, a control bus, etc. The processor is an integrated circuit chip and has signal processing capability.

In a preferred example, the doctor end is preferably a desktop computer or a notebook computer; the input device is preferably a mouse.

Example two:

in one embodiment of the present invention, the display screen 1 of the present invention has a production interface 11 at intervals.

Regarding the production interface 11, since the operator of the present invention is a doctor user (the doctor user is an evaluation doctor), the production interface for producing the reference icon is directed to the doctor user.

The display screen 1 pushes a production interface. Referring to FIG. 5, there is a drawing toolbar and a virtual palette in the production interface, the drawing toolbar and the virtual palette are displayed side-by-side in the production interface, and the virtual palette occupies a larger position. The drawing toolbar is provided with a virtual drawing tool, and the virtual drawing tool comprises:

1. the display window 12: the display window displays composition elements for a doctor to select when drawing, and the composition elements are composition elements forming a reference icon. In this embodiment, the display window is disposed at the upper right side of the manufacturing interface.

2. Delete key 16: the method comprises the steps of deleting composition elements in a virtual drawing board; after the user enables the delete key, the clicked composition elements can be deleted from the virtual drawing board.

3. Moving key 15: and the system is used for dragging the composition element to move in any direction within the range of the virtual drawing board.

In this example, the delete key and the move key are disposed at the lower right side of the production interface.

When the composition elements displayed in the display window are selected, the composition elements appear in the virtual drawing board, and the composition elements appearing in the virtual drawing board form the reference icons. In this example, the virtual drawing board is arranged on the left side of the production interface.

4. The confirmation key 17 is used for confirming that the composition element in the virtual drawing board is the reference icon p1 after the doctor user clicks the confirmation key when at least one composition element in the virtual drawing board is in the virtual drawing board, and after the composition element is confirmed as the reference icon, the composition element can be printed and transferred to an evaluation object to start evaluation, or can be uploaded to a server and then is issued to an evaluation object side through the server. Referring to fig. 4, a composition element in the virtual drawing board is identified as a reference character p 1.

In addition to this, the production interface has a conventional status bar 14. Of course, the following conventional keys should be available on the display 1 at any time: a program closing key, a program window zooming key, an attribute calling key, a menu bar key, a backspace key and the like.

Referring to fig. 1, the composition elements displayed in the display window 12 are for selection by the physician user when manipulating the drawing. In a preferred example, the displayed composition elements include:

(1) parallel to the horizontal line segments of the pixel rows.

(2) Parallel to the longitudinal segments of the pixel columns.

(3) A first slanted straight line segment forming an angle of 45 ° with the pixel row and slanted to a first direction.

(4) A second angled linear segment perpendicular to the first angled linear segment.

For convenience of drawing and convenience of presentation to the evaluation subject, the lengths of the lateral line segment, the longitudinal line segment, the first oblique line segment, and the second oblique line segment are set to be the same length, where the length is the distance between both end points of these line segments. Of course, one example of the present invention is that all the composition elements are provided with "large, medium and small" size, and thus the same length referred to herein should be a comparison between the same size, such as the same length of the large horizontal line segment and the large vertical line segment.

(5) A semicircular arc line.

(6) And (4) a circular shape.

Referring to fig. 3, for convenience, flexibility and variety of drawing, in the present example, each composition element has several sizes for selection by the doctor user, all composition elements are set with "large, medium and small" size, and composition elements of "large, medium and small" size are displayed through a pop-up small window 13. The scheme is that composition elements with the sizes of 'big, medium and small' are made into a hidden window, and a doctor user clicks the corresponding composition elements in the display window 12 to pop up the hidden window. Referring to fig. 4, another scheme may be that "large, medium and small" size composition elements are directly displayed in the display window, and each size composition element may be clicked or dragged into the virtual drawing board without being hidden as a drop-down window.

The scheme that the composition elements are provided with the sizes of 'big, medium and small' is as follows: for example, the transverse line segment, the longitudinal line segment, the first inclined straight line segment and the second inclined straight line segment have length sizes of 2cm, 3cm and 4cm, and the semi-circular arc and the circular segment have diameters of 2cm, 3cm and 4cm, but more choices are possible.

Of course, other composition elements such as triangle, square, pentagram, hexagon, etc. may be provided in addition to the above-described composition elements, but adding these composition elements causes difficulty in recognition of the composition elements by a computer. For example, the addition of the triangle composition element makes it difficult to determine whether the triangle composition element is an icon composed of three composition elements, namely, the first oblique straight line segment, the second oblique straight line segment and the transverse line segment (because the end points of the first oblique straight line segment, the second oblique straight line segment and the transverse line segment are connected to form a triangle) in the later decomposition process, and is not favorable for calculating the display duration and the drawing duration, so the example does not select to add the triangle composition element, the square composition element and the like.

It should be noted that the keys of the present invention are all virtual keys, and a user touches or clicks the virtual keys with a mouse to generate an instruction or an instruction set for the processor to execute, and after the processor executes a task, the instruction or the instruction set is correspondingly fed back and displayed.

Example three:

in this example, the reference icon needs to be arbitrarily created by the doctor user on the creation interface 11, so as to facilitate specification of the icon, facilitate calculation of the display duration and the drawing duration in the later period, and more objectively obtain a more accurate rehabilitation assessment conclusion, and meanwhile, in order to facilitate creation of the reference icon by the doctor user, the material for creating the reference icon in this example is prepared as follows:

the display screen 1 is provided with a manufacturing interface; the production interface is provided with a virtual drawing tool and a virtual drawing board.

The reference character p1 is created by positioning and stitching each composition element on a virtual drawing board.

The virtual drawing tool includes: a showcase 12, a delete key 16, and a move key 15.

Among them, the display window 12 displays various specific composition elements:

(1) a horizontal line segment parallel to the pixel row; (2) a vertical line segment parallel to the pixel column; (3) a first oblique straight line segment forming an angle of 45 degrees with the pixel row and being oblique to a first direction; (4) a second angled linear segment perpendicular to the first angled linear segment; (5) the semi-arc line comprises an upper arc, a lower arc, a left arc and a right arc; (6) and (4) a circular shape.

The reference icons can be formed by crossing or/and connecting or/and juxtaposing or/and nesting the composition elements. An intersection means that any portion of one of the patterning elements in the middle (except for the end points) of the other patterning element has a contact; connected means that the end point of one of the composition elements has contact with the end point of the other composition element; juxtaposition means that one composition element and the other composition element are simultaneously arranged, but the two composition elements are not in contact with each other at any position and do not belong to nesting; nesting means that one pattern element is surrounded by another pattern element and does not touch anywhere.

Referring to fig. 8, the present example produces a reference icon as follows:

s1, selecting composition elements, and adding the selected composition elements into the virtual drawing board:

a doctor user selects an arbitrary composition element in the display window 12, the background generates an instruction, the sizes of the large, medium and small numbers of the composition element are popped up for the doctor user to select, and the selected composition element appears in the virtual drawing board after the doctor user selects the composition element.

In a preferred example of the present invention, when the doctor uses the moving button 15 to select an arbitrary composition element from the display window, for example, when using a mouse as an input tool, the doctor clicks a left mouse button on the arbitrary composition element in the display window, and the background generates an instruction to pop up a small window 13 with composition elements of "large, medium, and small" sizes for the doctor to select, and the doctor uses the mouse to hold the left mouse to drag the popped composition element of "large, medium, and small" sizes, and drags the composition element to an arbitrary position on the virtual drawing board to release the left mouse button, so that the composition element appears in the virtual drawing board.

And S2, when the composition element appears in the virtual drawing board, the composition element appearing in the virtual drawing board is moved to any position by using the moving key 15, the moving key is in a starting state under the default condition, the mouse is moved to the composition element, and the composition element can be dragged to any position in the virtual drawing board by pressing the left button of the mouse.

For the use of the delete key 16: when the deleting key function is started, any composition element in the virtual drawing board is clicked by the mouse, and the clicked composition element is deleted from the virtual drawing board. When the mobile key is ready to be activated again, the mobile key can be activated and the delete key can be exited by clicking the mobile key with the mouse.

In this example, the virtual palette is arranged on the left side of the creation interface 11 and occupies a large position, the delete key and the move key are arranged on the lower right side of the creation interface 11, and the display window 12 is arranged on the upper right side of the creation interface 11.

For the use of the confirmation key 17: when at least one composition element is arranged in the virtual drawing board, after the doctor user clicks the confirmation key 17, the composition element in the virtual drawing board is confirmed as a reference icon, and then the composition element can be printed out and delivered to an evaluated object to start evaluation, or uploaded to a server and then issued to an evaluated object side to start evaluation. If the virtual drawing board does not have any composition elements, the doctor user is not allowed to click the confirmation key, or the user is not allowed to click the confirmation key.

And S3, automatic splicing in the moving process: when the composition elements are dragged by the moving key, the composition elements are combined into the reference icon.

In order to facilitate the specification of the icons and to facilitate whether the drawing of the later evaluated object is the same as the reference icon, the following rules are defined when the reference icon is made:

when the endpoint of the moved composition element has the endpoint of other composition elements within the preset distance 18, the endpoint of the moved composition element is displaced to the endpoint of other composition elements to form endpoint connection. For example, when a vertical line segment is already in the virtual drawing board, when a left mouse button is pressed to drag a horizontal line segment, if the horizontal line segment is dragged to a position where one end point of the horizontal line segment is less than 1cm away from one end point of the vertical line segment, when the left mouse button is released, the horizontal line segment automatically moves, so that two close end points of the horizontal line segment and the vertical line segment are positioned at the same pixel, namely the two close end points of the horizontal line segment and the vertical line segment are connected.

If the preset distance 18 does not have the end points of other composition elements but has another composition element, the end points of the moved composition elements are displaced to the other composition element, and composition element intersection is formed. For example, when a vertical line segment is already in the virtual drawing board, when a left mouse button is pressed to drag a horizontal line segment, if the horizontal line segment is dragged to a position where one end point of the horizontal line segment is less than 1cm from the middle of the vertical line segment, when the left mouse button is released, the horizontal line segment automatically moves to a position where the end point of the horizontal line segment and a certain point in the middle of the vertical line segment are positioned in the same pixel, that is, the horizontal line segment is connected to the middle of the vertical line segment, and as for the position where the end point is connected to the middle of the vertical line segment, the position of the end point connected to the current horizontal line segment is close to the middle of the vertical line segment at the shortest distance, that is, the end point moves to the middle of the vertical line segment at the shortcut position.

When the moved composition element has the end points of other composition elements in the preset distance range except the end points, the moved composition element is displaced to the end points of the other composition elements; the portion of the composition element referred to herein, other than the end points, refers to the middle portion of the composition element, similar to the "torso" of the composition element, e.g., the middle of the horizontal line segment.

For example, when a vertical line segment is already in the virtual drawing board, when a left mouse button is pressed to drag a horizontal line segment, and when the horizontal line segment is dragged to the middle end of the horizontal line segment, and the distance between the middle end of the horizontal line segment and the end point of another vertical line segment is less than 1cm, when the left mouse button is released, the horizontal line segment automatically moves, so that the middle end of the horizontal line segment and the end point connected to the vertical line segment are connected, and the position of the horizontal line segment is connected to the end point of the vertical line segment, and the example is a part which belongs to the horizontal line segment and is closest to the end point of the vertical line segment.

And if the preset distance range does not have the end points of other composition elements but has another composition element, shifting the moved composition element to the other composition element. For example, when a circle is already in the virtual drawing board, when a left mouse button is pressed to drag a horizontal line segment, and when the horizontal line segment is dragged to the middle end of the horizontal line segment, and the distance between the middle end of the horizontal line segment and the circle is less than 1cm, when the left mouse button is released, the horizontal line segment automatically moves, and the middle end of the horizontal line segment is connected with the circle.

The preset distance 18 of this example is a physical distance of 1cm or 25 pixel values, so that two patterning elements are either in a connected or crossed state or separated by a distance of more than 1cm (or 25 pixel values).

Referring to fig. 6, a reference icon is made with at least the following rules:

(1) the same composition elements may not be located at the same position; and not less than a preset distance (1 cm or 25 pixel value); since being in the same position would cause two composition elements to overlap, resulting in one of the composition elements being overlaid by the other element and not visible.

The upper arc and the circular upper side can not be positioned at the same position, the lower arc and the circular lower side can not be positioned at the same position, the left arc and the circular left side can not be positioned at the same position, and the right arc and the circular right side can not be positioned at the same position; and not less than the preset distance 18; since being in the same position would cause two composition elements to overlap, resulting in one of the composition elements being covered by the other element and not visible or partially invisible.

(2) For the horizontal line segment, the vertical line segment, the first oblique line segment and the second oblique line segment, the same composition elements cannot be connected, preferably cannot be overlapped at any position, and referring to (c) in fig. 6, the distance between the end points of the same composition elements is not less than the preset distance 18; because these composition elements, if connected and overlapped, directly form a longer straight line, when the evaluation object identifies the longer straight line, the evaluation object cannot know that two same straight line composition elements are formed by splicing and can be considered as a straight line. This patterning is therefore to be excluded.

(3) Upper and lower arcs, left and right arcs, not connectable; referring to (a) of fig. 6, when the upper arc and the lower arc are at the same longitudinal position on the display screen 1, the distance between the end points is not allowed to be smaller than the preset distance 18; referring to (b) of fig. 6, when the left arc and the right arc are at the same height position on the display screen, the distance between the end points is not allowed to be smaller than the preset distance 18; this is to prevent the two circular arcs from forming a circle, and the evaluation target recognizes the circle not as a circle but as two circular arcs, and thus excludes this composition mode.

After the drawing of the reference icon is completed, the system records the number of the composition elements of the reference icon, records the characteristics of each composition element, marks the serial number of the composition element, counts the coexistence relationship (marked as crossing or/and connecting or/and juxtaposing or/and nesting) of all the composition elements, stores the data in the vector information, and can be called and used directly later with the reference icon. Numbering and marking each composition element: firstly, setting a numbering sequence, and determining that the marking direction is from left to right, and marking each composition element in the direction and the sequence from top to bottom. For example, when marking horizontal lines, the horizontal line which is the leftmost horizontal line and the uppermost horizontal line is marked as a first horizontal line; then searching for a second transverse line segment which is also positioned at the leftmost side and is positioned lower than the first transverse line segment; then searching for a third transverse line section which is also positioned at the leftmost side and is positioned lower than the second transverse line section until the searching of the leftmost side is finished; the crosshair segment on the right side is then looked up, again starting from above. The other longitudinal line segments, the inclined line segments, the circular arcs and the circles are marked from left to right and from top to bottom sequentially. Referring to fig. 7, for example: one example of a composition element mark number for a reference icon is as follows:

when the horizontal line segments are marked, the first horizontal line segment marked as the first horizontal line composition element x1 is found, the second horizontal line segment marked as the second horizontal line composition element x2 is found, of course, if the third horizontal line segment is also found, the third horizontal line segment can be marked as the second horizontal line composition element until the horizontal line segment is found completely.

And then, the vertical line segment is searched, the first vertical line segment is searched and marked as a first vertical line composition element b1, the second vertical line segment is searched and marked as a second vertical line composition element b2, and the search is finished.

Then, other elements are searched, the first left arc is found to be the first arc composition element f1, and the right arc is found to be the second arc composition element f 2.

In this way, the marking is done for all the composition elements. Finally, the coexistence relationship of all the composition elements of the reference icon is counted and marked as crossed or/and connected or/and juxtaposed or/and nested, for example, the first horizontal line composition element x1 is juxtaposed with the second horizontal line composition element x2, is connected with the first vertical line composition element b1, is connected with the second vertical line composition element b2, is juxtaposed with the first circular arc composition element f1, and is juxtaposed with the second circular arc composition element f 2; for example, the first arc patterning element f1 is juxtaposed with the first horizontal line patterning element x1, is contiguous with the first vertical line patterning element b1, is juxtaposed with the second vertical line patterning element b2, is juxtaposed with the second arc patterning element f2, and so on.

In this example, generation is provided for the presentation time duration and the plotting time duration. The display duration is the time for which the reference icon is presented to the evaluation object, and the evaluation object memorizes the reference icon in the time. The drawing time is the drawing time of the evaluation object, and the evaluation object draws a graph in the time by means of instant memory. Therefore, the time configuration requirement is reasonable, but different icons require different display time lengths and drawing time lengths, for example, when the reference icon has only two composition elements, the display time length is only 5s, and the drawing time length is only 10 s; if the reference icon has 8 composition elements, it is clear that the 5s presentation duration and the 10s drawing duration are simply not sufficient, and in order to make the time allocation more reasonable, the present example gives the following solution:

a time value is preassigned for each composition element:

(1) horizontal line segment assignment T ₁ ；

(2) Longitudinal segment assignment T ₂ ；

(3) Assignment of T to a first inclined straight line segment inclined in a first direction ₃ ；

(4) Second inclined straight line segment assignment T ₄ ；

(5) Semi-circular arc line value assignment T ₅ ；

(6) Circular assignment T ₆ 。

Summing the time values of each composition element in the reference icon to obtain a drawing time length; for example, if the reference icon is composed of 2 vertical line segments, 1 semicircular line, and 1 circle, the drawing time length is as follows:

T _drawing =2T ₂ +T ₅ +T ₆

When T is ₂ Assigned a value of 5s, T ₅ Assigned a value of 8s, T ₆ When the value is 10s, then:

T _drawing =2×5+8+10=28s

The display duration is 10% -100% of the plotting duration, which can set a selectable threshold value in the production interface for the doctor user, and the difficulty of drawing the chart by the evaluation object in the time by instant memory can be controlled, for example, when the doctor user selects the display duration to be 50% of the plotting duration, the following steps are provided:

T _show(s) =（2T ₂ +T ₅ +T ₆ ）×50%。

Example four:

one use scenario provided by the present invention is: the method comprises the steps that a doctor end produces a reference icon, then the set display duration and the drawing duration are calculated, the reference icon is submitted to a printer to be printed out of a graph, then the evaluated object is handed to be memorized, the evaluated object is required to memorize the graph in the set display duration, then the printed reference icon is retracted, the evaluated object is required to draw the graph in the drawing duration, and the instant memory capacity is evaluated according to the integrity of the graph drawn by the evaluated object.

Another scenario provided by the present invention is:

referring to fig. 9, the remote rehabilitation assessment system of the present invention is composed of a server, a database, a doctor side, and an assessment object side. The data interaction of the doctor end, the evaluation object end and the server adopts the Internet.

The server of the invention can adopt a RISC architecture server, the adopted CPU is a processor of a so-called reduced instruction set, and the reduced instruction set CPU is mainly characterized in that a fixed-length instruction is adopted and a production line is used for executing the instruction. Or a server adopting an IA architecture, and a CISC architecture, that is, a complex instruction set architecture is adopted.

The data interaction between the doctor end, the evaluation object end and the server preferably adopts a mode C/S mode, the C/S mode is a system with a two-layer structure, the first layer is that an application program is installed and operated on the doctor end and the evaluation object end, the second layer is that an application server is installed on the server, and the server is connected with a database at the rear end. In the working process of the C/S mode, the application programs installed on the doctor end and the evaluation object end send requests, and the program installed in the server receives and processes the received requests and returns results to the doctor end and the evaluation object end.

The operator at the evaluation subject side mentioned in the present invention is the subject to be evaluated, or called a cerebral palsy patient.

When the doctor end completes the making of the reference icon p1 and transmits the reference icon to the evaluation object end, the reference icon is displayed at the evaluation object end. The total time of the display is the display duration, after the display duration, the evaluation object end quits the reference icon, the evaluation object is required to draw the reference icon in the drawing duration, the icon drawn by the evaluation object is returned to the server and forwarded to the doctor end by the server, and the doctor end can evaluate the instant memory capacity according to the integrity of the icon drawn by the evaluation object.

The above are examples of the practice of the invention. The embodiments are not intended to be single or isolated embodiments, and various embodiments may be referred to one another and combined to accomplish the objects of the present invention without departing from the intent and objects of the present invention. Of course, if a combination may have an opposite effect as that obtained in the present invention, the combination that would have the opposite effect should not occur, but does not affect the combination between the other examples that can obtain the effect of the present invention.

Claims (10)

1. The rehabilitation assessment doctor end comprises an input device, a display screen, a processor and a memory, and a computer program is stored in the memory,

the display screen is provided with a production interface which is pushed to a doctor user and is used for producing the reference icon;

the reference icon is an icon which requires the evaluation object to memorize in the evaluation process.

2. The rehabilitation assessment physician end of claim 1, wherein the production interface displays a virtual drawing tool and a virtual drawing board in parallel;

the virtual drawing tool comprises an exhibition window with composition elements; the composition elements displayed in the display window have at least one or all of the following:

(1) a line segment;

(2) the semi-arc line is provided with an upper arc, a lower arc, a left arc and a right arc according to the orientation of the arc top;

(3) a circular shape;

wherein each of the composition elements has a number of dimensions for selection.

3. The rehabilitation assessment physician side of claim 2, wherein said virtual drawing tool further comprises a delete button for deleting a composition element in the virtual drawing board; and the moving key is used for dragging the composition element to move in any direction.

4. The rehabilitation assessment physician side of claim 1, wherein the present invention further comprises at least one server; the rehabilitation assessment doctor end is connected with the server through the Internet and performs data interaction, and the reference icon is used for sending the manufactured reference icon to the server to be stored.

5. The operation method of the rehabilitation assessment doctor end is realized by the rehabilitation assessment doctor end in any one of claims 1 to 4, and the method comprises the following steps:

pushing a making interface to a doctor user, and receiving the input of making a reference icon on the making interface by the doctor user;

the specific method for making the reference icon is as follows:

s1, adding the composition elements into the virtual drawing board;

s2, moving the composition elements appearing in the virtual drawing board to any position in the virtual drawing board by using the moving keys;

and S3, automatic splicing in the moving process.

6. The method as claimed in claim 5, wherein the composition element is added to the virtual drawing board by one of the following methods:

(1) when a doctor user clicks any composition element in the display window, enabling the clicked composition element to appear in the virtual drawing board;

(2) the doctor user drags an arbitrary composition element from the display window into the virtual drawing board using the moving key.

7. The operation method of the rehabilitation assessment doctor end according to claim 5, wherein when the composition elements appearing in the virtual drawing board are moved to any position in the virtual drawing board by using the moving key, at least the following condition is provided:

(1) the same composition elements may not be located at the same position; the same composition elements are not less than a preset distance;

the upper arc and the circular upper side can not be positioned at the same position, the lower arc and the circular lower side can not be positioned at the same position, the left arc and the circular left side can not be positioned at the same position, and the right arc and the circular right side can not be positioned at the same position; and is not less than the preset distance;

(2) for the line segments, the same composition elements cannot be connected, and the distance between the end points of the same composition elements is not less than the preset distance;

(3) upper and lower arcs, left and right arcs, not connectable; when the upper arc and the lower arc are at the same longitudinal position, the distance between the end points is not allowed to be smaller than a preset distance; when the left arc and the right arc are at the same height, the distance between the end points is not allowed to be smaller than a preset distance.

8. The rehabilitation assessment doctor-side operation method according to claim 5, wherein the automatic splicing method is as follows:

when the endpoint of the moved composition element has the endpoint of other composition elements in the preset distance range, displacing the endpoint of the moved composition element to the endpoint of the other composition elements; if the preset distance range does not have the end points of other composition elements but has another composition element, the end point of the moved composition element is displaced to the other composition element;

when the moved composition element has the end points of other composition elements in the preset distance range except the end points, the moved composition element is displaced to the end points of the other composition elements; and if the preset distance range does not have the end points of other composition elements but has another composition element, shifting the moved composition element to the other composition element.

9. The rehabilitation assessment doctor end operation method according to claim 5, further comprising setting a display duration and a drawing duration according to the reference icon, wherein the display duration is a limited duration for displaying the reference icon on the assessment object in the assessment process, and the drawing duration is a limited duration for drawing the reference icon by the assessment object according to memory;

the method for setting the display duration and the drawing duration is as follows:

pre-assigning a time value to each composition element;

summing the time values of each composition element in the reference icon to obtain a drawing time length;

the presentation time period is 10% to 100% of the plotting time period.

10. A storage medium storing a computer program, wherein the computer program is executed by hardware to implement the rehabilitation assessment doctor-side operation method according to any one of claims 5 to 9.

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