CN109993152B

CN109993152B - Mode conversion method, equipment, storage medium and device for coordinate curve integration

Info

Publication number: CN109993152B
Application number: CN201910301592.3A
Authority: CN
Inventors: 王防修
Original assignee: Wuhan Polytechnic University
Current assignee: Wuhan Polytechnic University
Priority date: 2019-04-15
Filing date: 2019-04-15
Publication date: 2021-03-09
Anticipated expiration: 2039-04-15
Also published as: CN109993152A

Abstract

The invention discloses a mode conversion method, equipment, a storage medium and a device for coordinate curve integration, wherein the method comprises the following steps: acquiring an integral mode of a coordinate curve to be identified; carrying out mark identification on the coordinate curve integral mode to be identified according to a preset mark set to obtain a target mark identification result; selecting a corresponding target conversion rule according to the target mark identification result; and converting the coordinate curve integral mode to be identified according to the target conversion rule to obtain a coordinate curve integral standard mode. In the invention, the input mode is converted into the standard mode recognized by the system, so that the coordinate curve integrals in different forms input by the user can be recognized, the recognition rate of the coordinate curve integral mode is improved, and convenience is brought to the calculation of the coordinate curve integrals by the user.

Description

Mode conversion method, equipment, storage medium and device for coordinate curve integration

Technical Field

The invention relates to the technical field of automation, in particular to a mode conversion method, equipment, a storage medium and a device for coordinate curve integration.

Background

In the prior art, the calculation means for the integral of the plot of coordinates only recognize 72 input modes. However, there are 3024 more actual input modes for the user. And various patterns of the coordinate curve integrals input by the user cannot be identified, so that the coordinate curve integrals cannot be calculated. The user operation is inconvenient and the user experience is poor. Therefore, how to improve the recognition rate of the integral mode of the coordinate curve is an urgent technical problem to be solved.

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 invention mainly aims to provide a mode conversion method, equipment, a storage medium and a device for coordinate curve integration, and aims to solve the technical problem that the recognition rate of a coordinate curve integration mode in the prior art is low.

In order to achieve the above object, the present invention provides a coordinate curve integration mode conversion method, which includes the following steps:

acquiring an integral mode of a coordinate curve to be identified;

carrying out mark identification on the coordinate curve integral mode to be identified according to a preset mark set to obtain a target mark identification result;

selecting a corresponding target conversion rule according to the target mark identification result;

and converting the coordinate curve integral mode to be identified according to the target conversion rule to obtain a coordinate curve integral standard mode.

Preferably, the performing mark identification on the to-be-identified coordinate curve integral mode according to a preset mark set to obtain a target mark identification result specifically includes:

carrying out character splitting on the coordinate curve integral mode to be recognized to obtain a character set of the coordinate curve integral mode to be recognized;

and matching each character member in the character set with each preset mark in a preset mark set to obtain a target mark identification result.

Preferably, the performing character splitting on the to-be-recognized coordinate curve integral mode to obtain a character set of the to-be-recognized coordinate curve integral mode specifically includes:

splitting the coordinate curve integral mode to be recognized into a plurality of character groups, wherein the number of characters in the character groups is an integer greater than 1;

and constructing a character set of the coordinate curve integral mode to be recognized according to the character set.

Preferably, the converting the to-be-identified coordinate curve integral mode according to the target conversion rule to obtain a coordinate curve integral standard mode specifically includes:

and re-splicing all the character members in the character set of the coordinate curve integral mode to be recognized according to the target conversion rule to obtain a coordinate curve integral standard mode.

Preferably, the selecting a corresponding target conversion rule according to the target mark recognition result specifically includes:

extracting the target character number of the special characters from the target mark recognition result;

searching a corresponding conversion rule set to be selected according to the number of the target characters;

and selecting a corresponding target conversion rule from the conversion rule set to be selected according to the target mark identification result.

Preferably, after the coordinate curve integration mode to be recognized is converted according to the target conversion rule to obtain a coordinate curve integration standard mode, the coordinate curve integration mode conversion method further includes:

searching a corresponding target calculation formula according to the coordinate curve integral standard mode;

and calculating the target coordinate curve integral of the coordinate curve integral mode to be identified according to the target calculation formula.

Preferably, the calculating a target coordinate curve integral of the coordinate curve integral mode to be identified according to the target calculation formula specifically includes:

and calculating the target coordinate curve integral of the coordinate curve integral mode to be identified through a preset test tool according to the target calculation formula.

In addition, to achieve the above object, the present invention further provides a coordinate curve integration mode conversion device, which includes a memory, a processor, and a coordinate curve integration mode conversion program stored in the memory and executable on the processor, wherein the coordinate curve integration mode conversion program is configured to implement the steps of the coordinate curve integration mode conversion method as described above.

Furthermore, to achieve the above object, the present invention further provides a storage medium having stored thereon a coordinate curve integration mode conversion program, which when executed by a processor implements the steps of the coordinate curve integration mode conversion method as described above.

In addition, to achieve the above object, the present invention further provides a coordinate curve integration mode conversion device, including:

the acquisition module is used for acquiring an integral mode of the coordinate curve to be identified;

the identification module is used for carrying out mark identification on the coordinate curve integral mode to be identified according to a preset mark set to obtain a target mark identification result;

the selection module is used for selecting a corresponding target conversion rule according to the target mark identification result;

and the conversion module is used for converting the coordinate curve integral mode to be identified according to the target conversion rule to obtain a coordinate curve integral standard mode.

According to the coordinate curve integral mode identification method and device, the coordinate curve integral mode to be identified is obtained, mark identification is carried out on the coordinate curve integral mode to be identified according to the preset mark set, the target mark identification result is obtained, the corresponding target conversion rule is selected according to the target mark identification result, the coordinate curve integral mode to be identified is converted according to the target conversion rule, the coordinate curve integral standard mode is obtained, different forms of coordinate curve integrals input by a user can be identified, the identification rate of the coordinate curve integral mode is improved, and convenience is brought to calculation of the coordinate curve integral by the user.

Drawings

FIG. 1 is a schematic diagram of a coordinate curve integral mode conversion device for a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a schematic flowchart of a first embodiment of a coordinate curve integration mode conversion method according to the present invention;

FIG. 3 is a flowchart illustrating a mode conversion method for coordinate curve integration according to a second embodiment of the present invention;

FIG. 4 is a flowchart illustrating a mode conversion method for coordinate curve integration according to a third embodiment of the present invention;

fig. 5 is a block diagram of a mode conversion device for coordinate curve integration according to a first embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a mode conversion device for coordinate curve integration of a hardware operating environment according to an embodiment of the present invention.

As shown in fig. 1, the coordinate curve integration mode conversion apparatus may include: a processor 1001, such as a Central Processing Unit (CPU), a communication bus 1002, a user interface 1003, a network interface 1004, and a memory 1005. Wherein a communication bus 1002 is used to enable connective communication between these components. The user interface 1003 may include a Display screen (Display), and the optional user interface 1003 may further include a standard wired interface and a wireless interface, and the wired interface for the user interface 1003 may be a USB interface in the present invention. The network interface 1004 may optionally include a standard wired interface, a WIreless interface (e.g., a WIreless-FIdelity (WI-FI) interface). The Memory 1005 may be a Random Access Memory (RAM) Memory or a Non-volatile Memory (NVM), such as a disk Memory. The memory 1005 may alternatively be a storage device separate from the processor 1001.

Those skilled in the art will appreciate that the configuration shown in fig. 1 does not constitute a definition of a mode conversion device that integrates a plot of coordinates, and may include more or fewer components than shown, or some components in combination, or a different arrangement of components.

As shown in fig. 1, a memory 1005, which is a kind of computer storage medium, may include therein an operating system, a network communication module, a user interface module, and a mode conversion program of coordinate curve integration.

In the coordinate curve integral mode conversion device shown in fig. 1, the network interface 1004 is mainly used for connecting to a background server and performing data communication with the background server; the user interface 1003 is mainly used for connecting user equipment; the mode conversion device for coordinate curve integration calls a mode conversion program for coordinate curve integration stored in the memory 1005 through the processor 1001 and executes the mode conversion method for coordinate curve integration provided by the embodiment of the present invention.

The coordinate curve integration mode conversion device calls a coordinate curve integration mode conversion program stored in the memory 1005 by the processor 1001, and performs the following operations:

acquiring an integral mode of a coordinate curve to be identified;

Further, the coordinate curve integration mode conversion device calls the coordinate curve integration mode conversion program stored in the memory 1005 by the processor 1001, and further performs the following operations:

In the embodiment, the coordinate curve integral mode to be recognized is obtained, the mark recognition is carried out on the coordinate curve integral mode to be recognized according to the preset mark set, the target mark recognition result is obtained, the corresponding target conversion rule is selected according to the target mark recognition result, the coordinate curve integral mode to be recognized is converted according to the target conversion rule, and the coordinate curve integral standard mode is obtained, so that different forms of coordinate curve integral input by a user can be recognized, the recognition rate of the coordinate curve integral mode is improved, and convenience is brought to the calculation of the curve integral of the coordinate by the user.

Based on the above hardware structure, an embodiment of the coordinate curve integration mode conversion method of the present invention is provided.

Referring to fig. 2, fig. 2 is a schematic flow chart of a mode conversion method of coordinate curve integration according to a first embodiment of the present invention, and the first embodiment of the mode conversion method of coordinate curve integration according to the present invention is provided.

In a first embodiment, the coordinate curve integration mode conversion method includes the steps of:

step S10: and acquiring an integral mode of the coordinate curve to be identified.

It should be understood that the execution subject of the present embodiment is the mode conversion device of the coordinate curve integration. The coordinate curve integral mode to be recognized may be obtained from a preset memory, or the user may input the coordinate curve integral mode to be recognized through a display interface of the mode conversion device for coordinate curve integral. The coordinate curve integral mode to be identified comprises 3024 types, such as:

f (xy) dy, x ═ x (y), c → y → d, f (xy) f (x, y) dx + g (x, y) dy, x ═ x (y), c → y → d, f (xy) f (x, y) dy + g (x, y) dx, x ═ x (y), c → y → d, and f (xy) f (x, y) dx, x ═ x (y), x ═ x (y), y — (y), c → y → d, and f (xy) f (x, y) dx.

Step S20: and carrying out mark identification on the coordinate curve integral mode to be identified according to a preset mark set to obtain a target mark identification result.

It can be understood that in order to identify the coordinate curve integral mode to be identified, the characters in the coordinate curve integral mode to be identified need to be identified, and the characters in the coordinate curve integral mode to be identified can be identified by matching with each preset mark in the preset mark set. The preset marks are specifically as follows:

(1) by f₁A position indicating that the flag "f (xyz) ═ is present in the input information of the user;

(2) by f₂A position indicating that the flag "f (xy) ═ is present in the input information of the user;

(3) by f₃A position indicating that a mark "x ═ exists in the input information of the user;

(4) by f₄A position indicating that a mark "y ═ exists in the input information of the user;

(5) by f₅Indicated at the userThe position of the mark "z ═ is present in the input information;

(6) by f₆A position indicating that a mark "→ x →" exists in the input information of the user;

(7) by f₇A position indicating that a mark "→ y →" exists in the input information of the user;

(8) by f₈A position indicating that a mark "→ z →" exists in the input information of the user;

(9) by f₉A position indicating that a mark "→ t →" exists in the input information of the user;

(10) by f₁₀Indicating a position where the mark "dx" exists in the input information of the user;

(11) by f₁₁A position indicating that the mark "dy" exists in the input information of the user;

(12) by f₁₂Indicating a position where the mark "dz" exists in the input information of the user;

(13) by f_dIndicates the number of commas present in the input information of the user.

It should be noted that each preset mark forms the preset mark set, if a preset mark exists in the coordinate curve integral mode to be recognized, the corresponding preset mark is greater than 0, and if no preset mark exists in the coordinate curve integral mode to be recognized, the corresponding preset mark is equal to 0. For example, if there is a position marked with "f (xyz) ═ in the integration pattern of the coordinate curve to be recognized, then f is marked₁Is greater than 0. And identifying characters existing in the integral mode of the coordinate curve to be identified to obtain the identification result of the target mark.

Step S30: and selecting a corresponding target conversion rule according to the target mark identification result.

It should be understood that the target mark recognition result can indicate the character composition of the to-be-recognized coordinate curve integral mode, so that the corresponding target conversion rule can be selected, the corresponding relationship between the mark recognition result and the conversion rule can be established in advance, and the target conversion rule corresponding to the target mark recognition result is selected from the corresponding relationship.

For example: if fd is 2, f2 > 0, f3 > 0, f7 > 0 in the target marker recognition result, further selecting as follows: 1) if f10 > 0 and f11 ═ 0 in the target mark recognition result, it means that the coordinate curve integration pattern to be recognized is f (xy) > f (x, y) dx, x ═ x (y), c → y → d or its equivalent pattern, 2) if f11 > 0 and f10 ═ 0 in the target mark recognition result, it means that the coordinate curve integration pattern to be recognized is f (xy) > f (x, y) dy, x ═ x (y), c → y → d or its equivalent pattern, 3) if f10 > 0 and f11 > 0 in the target mark recognition result, and dx < dy, it means that the coordinate curve integration pattern to be recognized is f (xy) > f (x, y) dx + g (x, y) dy, x ═ x (y), c → d or its equivalent pattern, 4) if f 360 and f11 > f (x, y) 10 and x ≧ 360 in the target mark recognition result, this means that the coordinate curve integration pattern to be recognized is f (xy) ═ f (x, y) dy + g (x, y) dx, x ═ x (y), c → y → d or its equivalent. Other specific transformation rules are not exhaustive herein.

Step S40: and converting the coordinate curve integral mode to be identified according to the target conversion rule to obtain a coordinate curve integral standard mode.

In a specific implementation, the coordinate curve integral pattern to be recognized can be recognized as each standard pattern or an equivalent pattern corresponding to each standard pattern through the target conversion rule. The coordinate curve integration standard mode comprises the following steps:

and 72 types of components, such as f (xy) dy, x ═ x (y), c → y → d, f (xy) f (x, y) dx + g (x, y) dy, x ═ x (y), c → y → d, f (xy) f (x, y) dy + g (x, y) dx, x ═ x (y), c → y → d, and f (xy) f (x, y) dx, x ═ x (y), and y ═ x (y), c → y → d.

Referring to fig. 3, fig. 3 is a flowchart illustrating a mode conversion method for coordinate curve integration according to a second embodiment of the present invention, and the second embodiment of the mode conversion method for coordinate curve integration according to the present invention is proposed based on the first embodiment shown in fig. 2.

In the second embodiment, the step S20 includes:

step S201: and splitting characters of the coordinate curve integral mode to be recognized to obtain a character set of the coordinate curve integral mode to be recognized.

It should be understood that, in order to be able to identify whether each preset mark is included in the coordinate curve integral pattern to be identified, the coordinate curve integral pattern to be identified may be subjected to two character splits, split into 2 character groups and 3 character groups, where the 2 character groups and the 3 character groups constitute the character set. In this embodiment, the step S201 specifically includes: splitting the coordinate curve integral mode to be recognized into a plurality of character groups, wherein the number of characters in the character groups is an integer greater than 1; and constructing a character set of the coordinate curve integral mode to be recognized according to the character set.

Step S202: and matching each character member in the character set with each preset mark in a preset mark set to obtain a target mark identification result.

It will be appreciated that the predetermined mark is designated by f₁、f₂、f₃......f₁₂A position indicating that a mark "f (xyz) ═ f (xy) ═ x ═ y ═ z ═ x → y → z →", "→ y →", "→ z →" t → "," dx "," dy ", or" dz "exists in the coordinate curve integration pattern to be recognized; by f_dIndicating the number of commas existing in the coordinate curve integral mode to be identified. Matching each character member in the character set with each preset mark in the preset mark set, and if the character member is to be identifiedIf the preset mark exists in the coordinate curve integral mode, the corresponding preset mark is greater than 0, and if the preset mark does not exist in the coordinate curve integral mode to be recognized, the corresponding preset mark is equal to 0. For example, the coordinate curve integral mode to be recognized is f (xy) ═ f (x, y) dx, x ═ x (y), c → y → d, and the target mark recognition result is obtained as f1 ═ 0, f₂＞0、f₃＞0、f₄＝0、f₅＝0、f₆＝0、f₇＞0、f₈＝0、f₉＝0、f₁₀＞0、f₁₁＝0、f₁₂0 and f_d＝2。

In this embodiment, the step S40 includes:

It should be noted that the characters included in the coordinate curve integral mode to be recognized can be recognized according to the target mark recognition result, and the character members in the character set of the coordinate curve integral mode to be recognized are re-spliced according to the target conversion rule to be spliced into one of 72 standard modes, so that the coordinate curve integral standard mode is obtained, a corresponding calculation formula can be found, and coordinate curve integral calculation is performed on the coordinate curve integral mode to be recognized.

For convenience of description, convention: s ═ S₁s₂......s_nRepresenting the coordinate curve integral mode to be identified; the standard mode is as follows: func, stage1, stagek; wherein k is 2,3, 4. Therefore, the process of converting the coordinate curve integral mode to be identified into the standard mode is as follows:

if f is found from the search_d＝2，f₂＞0、f₃> 0 and f₇If > 0, the conversion to standard mode is as follows: (1) let p ═ q ═ f 2;

(2) repeating p-1 until s_p' or p is 1;

(3) repeating q-q +1 until s_q' or p is n;

(4) if s is_pIf' is equal to p +1, then p is equal to p;

(5) if s is_qIf 'and', then q-1 is executed;

(6)func＝s_ps_p+1....s_q；

(7) let p be q be f₃；

(8) Repeating p-1 until s_p' or p is 1;

(9) repeating q-q +1 until s_q' or p is n;

(10) if s is_pIf' is equal to p +1, then p is equal to p;

(11) if s is_qIf 'and', then q-1 is executed;

(12)stage1＝s_ps_p+1....s_q；

(13) let p ═ q ═ f 7;

(14) repeating p-1 until s_p' or p is 1;

(15) repeating q-q +1 until s_q' or p is n;

(16) if s is_pIf' is equal to p +1, then p is equal to p;

(17) if s is_qIf 'and', then q-1 is executed;

(18)stage2＝s_ps_p+1....s_q；

(19) re-splicing to obtain a standard pattern S ═ func + ',' + stage1, + ',' + stage 2;

when the value of the target mark identification result is other conditions, the process of converting the target mark identification result into the standard mode is similar to the steps, and is not repeated herein.

In this embodiment, the coordinate curve integral mode to be recognized is split to obtain a character set corresponding to the coordinate curve integral mode to be recognized, and each character member in the character set is matched with each preset mark in a preset mark set to obtain a matching result, so that the coordinate curve integral modes to be recognized in different expression modes can be accurately recognized, and the recognition efficiency and accuracy of the coordinate curve integral mode to be recognized are improved.

Referring to fig. 4, fig. 4 is a flowchart illustrating a mode conversion method for coordinate curve integration according to a third embodiment of the present invention, and the third embodiment of the mode conversion method for coordinate curve integration according to the present invention is proposed based on the second embodiment shown in fig. 3.

In the third embodiment, the step S30 includes:

step S301: and extracting the target character number of the special characters from the target mark recognition result.

It should be understood that the special character is a comma in the integration pattern of the coordinate curve to be recognized, and the target character number of the special character is f_dThe value of (a).

Step S302: and searching a corresponding conversion rule set to be selected according to the number of the target characters.

Understandably, in order to improve the efficiency and accuracy of the target conversion rule searching, the target mark identification result f can be firstly identified_dFinding out a set of conversion rules to be selected corresponding to the coordinate curve integral mode to be identified, for example, f (xy) ═ f (x, y) dx, x ═ x (y), c → y → d, and f thereof_dIf 2, then f is selected_dAnd 2, corresponding to the conversion rule set to be selected.

Step S303: and selecting a corresponding target conversion rule from the conversion rule set to be selected according to the target mark identification result.

It should be noted that the conversion rule set to be selected includes a plurality of conversion rules, and then the target mark is identified according to f in the result₁、f₂、f₃......f₁₂Further determining the target transformation rule.

In this embodiment, after step S40, the method further includes:

The specific searching steps are as follows:

(1) if f in the target mark recognition result_d＝2，f₂＞0，f₃＞0，f₇If the value is more than 0, further selecting as follows:

1) if f in the target mark recognition result₁₀> 0 and f₁₁0 means that the coordinate curve integral mode to be recognized is f (xy) f (x, y) dx, x (y), c → y → d or equivalent mode thereof, and there are 6 equivalent input modes in this case; the calculation method selected at this time is

2) If f in the target mark recognition result₁₁> 0 and f₁₀0 means that the coordinate curve integral mode to be recognized is f (xy) f (x, y) dy, x (y), c → y → d or equivalent mode thereof, and there are 6 equivalent input modes in this case; the calculation method selected at this time is

3) If f in the target mark recognition result₁₀> 0 and f₁₁> 0, and dx<dy, which means that the coordinate curve integration pattern to be recognized is f (xy) ═ f (x, y) dx + g (x, y) dy, x ═ x (y), c → y → d or its equivalent pattern, in which case there are 6 equivalent input patterns; therefore, the calculation method selected at this time is

4) If f in the target mark recognition result₁₀> 0 and f₁₁> 0, and dx>dy, which means that the coordinate curve integration pattern to be recognized is f (xy) ═ f (x, y) dy + g (x, y) dx, x ═ x (y), c → y → d or its equivalent pattern, in which case there are 6 equivalent input patterns; therefore, the calculation method selected at this time is

(2) If f in the target mark recognition result_d＝2，f₂＞0，f₄＞0，f₆If the value is more than 0, further selecting as follows:

1) if f in the target mark recognition result₁₀> 0 and f₁₁0 means that the coordinate curve integral mode to be recognized is f (xy) f (x, y) dx, y (x), a → x → b or equivalent mode thereof, and there are 6 equivalent input modes in this case; the calculation method selected at this time is

2) If f in the target mark recognition result₁₁> 0 and f₁₀0 means that the coordinate curve integral mode to be recognized is f (xy) f (x, y) dy, y (x), a → x → b or equivalent mode thereof, and there are 6 equivalent input modes in this case; the calculation method selected at this time is

3) If f in the target mark recognition result₁₀> 0 and f₁₁> 0, and dx<dy, which means that the coordinate curve integration pattern to be recognized is f (xy) f (x, y) dx + g (x, y) dy, y (y) (x), a → x → b or its equivalent pattern, in which case there are 6 equivalent input patterns; therefore, the calculation method selected at this time is

4) If f in the target mark recognition result₁₀> 0 and f₁₁> 0, and dx>dy, which means that the coordinate curve integration pattern to be recognized is f (xy) f (x, y) dy + g (x, y) dx, y (y) (x), a → x → b or its equivalent pattern, in which case there are 6 equivalent input patterns; therefore, the calculation method selected at this time is

(3) Such asIf the target mark recognition result is f_d＝3，f₂＞0，f₃＞0，f₄＞0，f₉If the value is more than 0, further selecting as follows:

1) if f in the target mark recognition result₁₀> 0 and f₁₁0 means that the coordinate curve integral mode to be recognized is f (xy) f (x, y) dx, x (t), y (y) (t), α → t → β or its equivalent mode, in which case there are 24 equivalent input modes; the calculation method selected at this time is

2) If f in the target mark recognition result₁₁> 0 and f₁₀0 means that the coordinate curve integral mode to be recognized is f (xy) f (x, y) dy, x ═ x (t), y ═ y (t), α → t → β or its equivalent mode, and there are 24 equivalent input modes in this case; the calculation method selected at this time is

3) If f in the target mark recognition result₁₀0 and f₁₁> 0 and dx<dy, which means that the coordinate curve integration pattern to be recognized is f (xy) f (x, y) dx + g (x, y) dy, x ═ x (t), y ═ y (t), α → t → β or its equivalent pattern, in this case, there are 24 equivalent input patterns; therefore, the calculation method selected at this time is:

4) if f in the target mark recognition result₁₀0 and f₁₁> 0 and dx>dy, which means that the coordinate curve integration pattern to be recognized is f (xy) f (x, y) dy + g (x, y) dx, x ═ x (t), y ═ y (t), α → t → β or its equivalent pattern, and there are 24 equivalent input patterns; therefore, the calculation method selected at this time is:

(4) if f in the target mark recognition result_d＝3，f₁＞0，f₃＞0，f₄＞0，f₈If the value is more than 0, further selecting as follows:

1) if f in the target mark recognition result₁₀＞0、f₁₁0 and f₁₂0 means that the coordinate curve integration pattern to be recognized is f (xyz) ═ f (x, y, z) dx, x ═ x (z), y ═ y (z), p → z → q or equivalent patterns thereof, in which case there are 24 equivalent input patterns; at this time, the corresponding target calculation formula is

2) If f in the target mark recognition result₁₁＞0、f₁₀0 and f₁₂0 means that the coordinate curve integration pattern to be recognized is f (xyz) ═ f (x, y, z) dy, x ═ x (z), y ═ y (z), p → z → q or its equivalent pattern, and there are 24 equivalent input patterns in this case; at this time, the corresponding target calculation formula is:

3) if f in the target mark recognition result₁₀＝0、f₁₁0 and f₁₂If > 0, this means that the coordinate curve integration pattern to be recognized is f (xyz) ═ f (x, y, z) dz, x ═ x (z), y ═ y (z), p → z → q or equivalent patterns thereof, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

4) if f in the target mark recognition result₁₀＞0、f₁₁＞0、f₁₂0 and dx<dy, it means that the integration pattern of the coordinate curve to be identified is:

f (xyz) ═ f (x, y, z) dx + g (x, y, z) dy, x ═ x (z), y ═ y (z), p → z → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

5) if f in the target mark recognition result₁₀＞0、f₁₁＞0、f₁₂0, and dx>dy, it means that the integration pattern of the coordinate curve to be identified is:

f (xyz) ═ f (x, y, z) dy + g (x, y, z) dx, x ═ x (z), y ═ y (z), p → z → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

6) if f in the target mark recognition result₁₀＞0、f₁₁＝0、f₁₂> 0 and dx<dz, meaning that the integration pattern of the coordinate curve to be identified is:

f (xyz) ═ f (x, y, z) dx + g (x, y, z) dz, x ═ x (z), y ═ y (z), p → z → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

7) if f in the target mark recognition result₁₀＞0、f₁₁＝0、f₁₂> 0, and dx>dz, meaning that the integration pattern of the coordinate curve to be identified is:

f (xyz) ═ f (x, y, z) dz + g (x, y, z) dx, x ═ x (z), y ═ y (z), p → z → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

8) if f in the target mark recognition result₁₀＝0、f₁₁＞0、f₁₂> 0 and dy<dz, meaning that the integration pattern of the coordinate curve to be identified is:

f (xyz) ═ f (x, y, z) dy + g (x, y, z) dz, x ═ x (z), y ═ y (z), p → z → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

9) if f in the target mark recognition result₁₀＝0、f₁₁＞0、f₁₂> 0, and dy>dz, meaning that the integration pattern of the coordinate curve to be identified is:

f (xyz) ═ f (x, y, z) dz + g (x, y, z) dy, x ═ x (z), y ═ y (z), p → z → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

10) if f in the target mark recognition result₁＞0、f₁₀＞0、f₁₁＞0、f₁₂And dx < dy < dz, the integral mode of the coordinate curve to be identified is as follows:

f (xyz) ═ f (x, y, z) dx + g (x, y, z) dy + h (x, y, z) dz, x ═ x (z), y (z), p → z → q or equivalent patterns thereof, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

11) if f in the target mark recognition result₁＞0、f₁₀＞0、f₁₁＞0、f₁₂And dy < dx < dz, the integral mode of the coordinate curve to be identified is as follows:

f (xyz) ═ f (x, y, z) dy + g (x, y, z) dx + h (x, y, z) dz, x ═ x (z), y (z), p → z → q or equivalent patterns thereof, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

12) if f in the target mark recognition result₁＞0、f₁₀＞0、f₁₁＞0、f₁₂And dx < dz < dy, the integral mode of the coordinate curve to be identified is as follows:

f (xyz) ═ f (x, y, z) dx + g (x, y, z) dz + h (x, y, z) dy, x ═ x (z), y (z), p → z → q or equivalent patterns thereof, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

13) if f in the target mark recognition result₁＞0、f₁₀＞0、f₁₁＞0、f₁₂And dz < dx < dy, the coordinate curve integral mode to be identified is as follows:

f (xyz) ═ f (x, y, z) dz + g (x, y, z) dx + h (x, y, z) dy, x ═ x (z), y (z), p → z → q or equivalent patterns thereof, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

14) if f in the target mark recognition result₁＞0、f₁₀＞0、f₁₁＞0、f₁₂And dy < dz < dx, the integral mode of the coordinate curve to be identified is as follows:

f (xyz) ═ f (x, y, z) dy + g (x, y, z) dz + h (x, y, z) dx, x ═ x (z), y (z), p → z → q or equivalent patterns thereof, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

15) if f in the target mark recognition result₁＞0、f₁₀＞0、f₁₁＞0、f₁₂And dz < dy < dx, the coordinate curve integral mode to be identified is as follows:

f (xyz) ═ f (x, y, z) dz + g (x, y, z) dy + h (x, y, z) dx, x ═ x (z), y (z), p → z → q or equivalent patterns thereof, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

(5) if f in the target mark recognition result_d＝3，f₁＞0，f₃＞0，f₅＞0，f₇If the value is more than 0, further selecting as follows:

1) if f in the target mark recognition result₁₀＞0、f₁₁0 and f₁₂0 means that the coordinate curve integration pattern to be recognized is f (xyz) ═ f (x, y, z) dx, x ═ x (y), z ═ z (y), p → y → q or equivalent patterns thereof, in which case there are 24 equivalent input patterns; at this time, the corresponding target calculation formula is

2) If f in the target mark recognition result₁₁＞0、f₁₀0 and f₁₂0 means that the coordinate curve integration pattern to be recognized is f (xyz) ═ f (x, y, z) dy, x ═ x (y), z ═ z (y), p → y → q or its equivalent pattern, and there are 24 equivalent input patterns; at this time, the corresponding target calculation formula is:

3) if f in the target mark recognition result₁₀＝0、f₁₁0 and f₁₂If > 0, this means that the coordinate curve integration pattern to be recognized is f (xyz) ═ f (x, y, z) dz, x ═ x (y), z ═ z (y), p → y → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dx + g (x, y, z) dy, x ═ x (y), z ═ z (y), p → y → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dy + g (x, y, z) dx, x ═ x (y), z ═ z (y), p → y → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dx + g (x, y, z) dz, x ═ x (y), z ═ z (y), p → y → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dz + g (x, y, z) dx, x ═ x (y), z ═ z (y), p → y → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dy + g (x, y, z) dz, x ═ x (y), z ═ z (y), p → y → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dz + g (x, y, z) dy, x ═ x (y), z ═ z (y), p → y → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

10) if f in the target mark recognition result₁₀＞0、f₁₁＞0、f₁₂And dx < dy < dz, the integral mode of the coordinate curve to be identified is as follows:

f (xyz) ═ f (x, y, z) dx + g (x, y, z) dy + h (x, y, z) dz, x ═ x (y), z ═ z (y), p → y → q or equivalent patterns thereof, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

11) if f in the target mark recognition result₁₀＞0、f₁₁＞0、f₁₂And dy < dx < dz, the integral mode of the coordinate curve to be identified is as follows:

f (xyz) ═ f (x, y, z) dy + g (x, y, z) dx + h (x, y, z) dz, x ═ x (y), z ═ z (y), p → y → q or equivalent patterns thereof, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

12) if f in the target mark recognition result₁₀＞0、f₁₁＞0、f₁₂And dx < dz < dy, the integral mode of the coordinate curve to be identified is as follows:

f (xyz) ═ f (x, y, z) dx + g (x, y, z) dz + h (x, y, z) dy, x ═ x (y), z ═ z (y), p → y → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

13) if f in the target mark recognition result₁₀＞0、f₁₁＞0、f₁₂And dz < dx < dy, the coordinate curve integral mode to be identified is as follows:

f (xyz) ═ f (x, y, z) dz + g (x, y, z) dx + h (x, y, z) dy, x ═ x (y), z ═ z (y), p → y → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

14) if f in the target mark recognition result₁₀＞0、f₁₁＞0、f₁₂And dy < dz < dx, the integral mode of the coordinate curve to be identified is as follows:

f (xyz) ═ f (x, y, z) dy + g (x, y, z) dz + h (x, y, z) dx, x ═ x (y), z ═ z (y), p → y → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

15) if f in the target mark recognition result₁₀＞0、f₁₁＞0、f₁₂And dz < dy < dx, the coordinate curve integral mode to be identified is as follows:

f (xyz) ═ f (x, y, z) dz + g (x, y, z) dy + h (x, y, z) dx, x ═ x (y), z ═ z (y), p → y → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

(6) if f in the target mark recognition result_d＝3，f₁＞0，f₄＞0，f₅＞0，f₆If the value is more than 0, further selecting as follows:

1) if f in the target mark recognition result₁₀＞0、f₁₁0 and f₁₂0 means that the coordinate curve integration pattern to be recognized is f (xyz) f (x, y, z) dx, y (y) (x), z (z) (x), p → x → q or equivalent patterns thereof, in which case there are 24 equivalent input patterns; at this time, the corresponding target calculation formula is

2) If f in the target mark recognition result₁₀＝0、f₁₁> 0 and f₁₂0 means that the coordinate curve integration pattern to be recognized is f (xyz) ═ f (x, y, z) dy, y ═ y (x), z ═ z (x), p → x → q or its equivalent pattern, and there are 24 equivalent input patterns in this case; at this time, the corresponding target calculation formula is:

3) if f in the target mark recognition result₁₀＝0、f₁₁0 and f₁₂If > 0, this means that the coordinate curve integration pattern to be recognized is f (xyz) ═ f (x, y, z) dz, y ═ y (x), z ═ z (x), p → x → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dx + g (x, y, z) dy, y ═ y (x), z ═ z (x), p → x → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dy + g (x, y, z) dx, y ═ y (x), z ═ z (x), p → x → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dx + g (x, y, z) dz, y ═ y (x), z ═ z (x), p → x → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dz + g (x, y, z) dx, y ═ y (x), z ═ z (x), p → x → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

8) if f in the target mark recognition result₁₀＝0、f₁₁＞0、f₁₂> 0 and dy<dz, then means thatThe integral mode of the coordinate curve to be identified is as follows:

f (xyz) ═ f (x, y, z) dy + g (x, y, z) dz, y ═ y (x), z ═ z (x), p → x → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dz + g (x, y, z) dy, y ═ y (x), z ═ z (x), p → x → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dx + g (x, y, z) dy + h (x, y, z) dz, y ═ y (x), z ═ z (x), p → x → q or equivalent patterns thereof, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dy + g (x, y, z) dx + h (x, y, z) dz, y ═ y (x), z ═ z (x), p → x → q, or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dx + g (x, y, z) dz + h (x, y, z) dy, y ═ y (x), z ═ z (x), p → x → q or equivalent patterns thereof, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dz + g (x, y, z) dx + h (x, y, z) dy, y ═ y (x), z ═ z (x), p → x → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dy + g (x, y, z) dz + h (x, y, z) dx, y ═ y (x), z ═ z (x), p → x → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dz + g (x, y, z) dy + h (x, y, z) dx, y ═ y (x), z ═ z (x), p → x → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

(7) if f in the target mark recognition result_d＝4，f₁＞0，f₃＞0，f₄＞0，f₅＞0，f₉If the value is more than 0, further selecting as follows:

1) if f in the target mark recognition result₁₀＞0、f₁₁0 and f₁₂0 means that the coordinate curve integration pattern to be identified is f (xyz) f (x, y, z) dx, x (x) (t), y (t), z (z) (t), p → t → q or equivalent patterns thereof, in which case there are 120 equivalent input patterns; at this time, the corresponding target calculation formula is

2) If f in the target mark recognition result₁₀＝0、f₁₁> 0 and f₁₂0 means that the coordinate curve integration pattern to be recognized is f (xyz) f (x, y, z) dy, x (x) (t), y (t), z (z) (t), p → t → q or equivalent patterns thereof, and there are 120 equivalent input patterns; at this time, the corresponding target calculation formula is:

3) if f in the target mark recognition result₁₀＝0、f₁₁0 and f₁₂> 0, this means that the coordinates are to be recognizedThe curve integration mode is f (xyz) ═ f (x, y, z) dz, x ═ x (t), y ═ y (t), z ═ z (t), p → t → q or equivalent mode, in this case, there are 120 equivalent input modes; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dx + g (x, y, z) dy, x ═ x (t), y ═ y (t), z ═ z (t), p → t → q or their equivalent patterns, in this case there are 120 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dy + g (x, y, z) dx, x ═ x (t), y ═ y (t), z ═ z (t), p → t → q or their equivalent patterns, in this case there are 120 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dx + g (x, y, z) dz, x ═ x (t), y ═ y (t), z ═ z (t), p → t → q or their equivalent patterns, in which case there are 120 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dz + g (x, y, z) dx, x ═ x (t), y ═ y (t), z ═ z (t), p → t → q or their equivalent patterns, in which case there are 120 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dy + g (x, y, z) dz, x ═ x (t), y ═ y (t), z ═ z (t), p → t → q or their equivalent patterns, in which case there are 24 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dz + g (x, y, z) dy, x ═ x (t), y ═ y (t), z ═ z (t), p → t → q or their equivalent patterns, in which case there are 120 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dx + g (x, y, z) dy + h (x, y, z) dz, x ═ x (t), y ═ y (t), z ═ z (t), p → t → q, or their equivalent patterns, in which case there are 120 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dy + g (x, y, z) dx + h (x, y, z) dz, x ═ x (t), y ═ y (t), z ═ z (t), p → t → q, or their equivalent patterns, in which case there are 120 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dx + g (x, y, z) dz + h (x, y, z) dy, x ═ x (t), y ═ y (t), z ═ z (t), p → t → q, or their equivalent patterns, in which case there are 120 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dz + g (x, y, z) dx + h (x, y, z) dy, x ═ x (t), y ═ y (t), z ═ z (t), p → t → q, or their equivalent patterns, in which case there are 120 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dy + g (x, y, z) dz + h (x, y, z) dx, x ═ x (t), y ═ y (t), z ═ z (t), p → t → q, or their equivalent patterns, in which case there are 120 equivalent input patterns; therefore, the corresponding target calculation formula is:

f (xyz) ═ f (x, y, z) dz + g (x, y, z) dy + h (x, y, z) dx, x ═ x (t), y ═ y (t), z ═ z (t), p → t → q, or their equivalent patterns, in which case there are 120 equivalent input patterns; therefore, the corresponding target calculation formula is as follows:

in this embodiment, the calculating a target coordinate curve integral of the to-be-identified coordinate curve integral mode according to the target calculation formula specifically includes:

In a specific implementation, the preset test tool is usually matlab7.0, and the target coordinate curve integral of the coordinate curve integral mode to be identified is calculated by taking matlab7.0 as the test tool according to the target calculation formula. The mode conversion device for coordinate curve integration can be a personal desktop computer with a CPU of 3.2GHz and a memory of 1.86 GB. The target coordinate curve integral of the coordinate curve integral mode to be recognized can be calculated on the personal desktop computer through matlab7.0 according to the target calculation formula.

In the embodiment, the target conversion rule of the coordinate curve integral mode to be recognized is recognized by extracting the target character number of the special characters from the target mark recognition result, the coordinate curve integral mode is converted into the coordinate curve integral standard mode according to the target conversion rule, the corresponding target calculation formula is searched according to the coordinate curve integral standard mode, and the target coordinate curve integral is calculated, so that the efficiency and the accuracy of searching the target calculation formula are improved, and the efficiency of calculating the coordinate curve integral is improved.

In addition, an embodiment of the present invention further provides a storage medium, where a coordinate curve integral mode conversion program is stored on the storage medium, and when executed by a processor, the coordinate curve integral mode conversion program implements the following steps:

acquiring an integral mode of a coordinate curve to be identified;

Further, the mode conversion program for coordinate curve integration, when executed by the processor, further implements the following operations:

In addition, referring to fig. 5, an embodiment of the present invention further provides a coordinate curve integration mode conversion apparatus, where the coordinate curve integration mode conversion apparatus includes:

the acquisition module 10 is used for acquiring an integral mode of a coordinate curve to be identified;

the identification module 20 is configured to perform mark identification on the coordinate curve integral mode to be identified according to a preset mark set, so as to obtain a target mark identification result;

a selecting module 30, configured to select a corresponding target transformation rule according to the target mark identification result;

and the conversion module 40 is configured to convert the coordinate curve integral mode to be identified according to the target conversion rule to obtain a coordinate curve integral standard mode.

In an embodiment, the recognition module 20 is further configured to perform character splitting on the to-be-recognized coordinate curve integral mode to obtain a character set of the to-be-recognized coordinate curve integral mode; and matching each character member in the character set with each preset mark in a preset mark set to obtain a target mark identification result.

In an embodiment, the recognition module 20 is further configured to split the to-be-recognized coordinate curve integral mode into a plurality of character groups, where the number of characters in the character groups is an integer greater than 1; and constructing a character set of the coordinate curve integral mode to be recognized according to the character set.

In an embodiment, the conversion module 40 is further configured to re-splice each character member in the character set of the coordinate curve integral mode to be recognized according to the target conversion rule, so as to obtain a coordinate curve integral standard mode.

In an embodiment, the selecting module 30 is further configured to extract a target character number of special characters from the target mark recognition result; searching a corresponding conversion rule set to be selected according to the number of the target characters; and selecting a corresponding target conversion rule from the conversion rule set to be selected according to the target mark identification result.

In one embodiment, the coordinate curve integrating mode conversion device further comprises:

the searching module is used for searching a corresponding target calculation formula according to the coordinate curve integral standard mode;

and the calculation module is used for calculating the target coordinate curve integral of the coordinate curve integral mode to be identified according to the target calculation formula.

In an embodiment, the calculating module is further configured to calculate a target coordinate curve integral of the coordinate curve integral mode to be recognized through a preset testing tool according to the target calculation formula.

Other embodiments or specific implementation manners of the coordinate curve integration mode conversion device according to the present invention may refer to the above method embodiments, and are not described herein again.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments. In the unit claims enumerating several means, several of these means may be embodied by one and the same item of hardware. The use of the words first, second, third and the like do not denote any order, but rather the words first, second and the like may be interpreted as indicating any order.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present invention or portions thereof that contribute to the prior art may be embodied in the form of a software product, where the computer software product is stored in a storage medium (e.g., a Read Only Memory (ROM)/Random Access Memory (RAM), a magnetic disk, an optical disk), and includes several instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A coordinate curve integration mode conversion method, comprising:

acquiring an integral mode of a coordinate curve to be identified;

converting the coordinate curve integral mode to be identified according to the target conversion rule to obtain a coordinate curve integral standard mode;

the method includes the steps of performing mark recognition on the coordinate curve integral mode to be recognized according to a preset mark set to obtain a target mark recognition result, and specifically includes:

2. The coordinate curve integration mode conversion method according to claim 1, wherein the performing character splitting on the to-be-recognized coordinate curve integration mode to obtain the character set of the to-be-recognized coordinate curve integration mode specifically includes:

3. The coordinate curve integration mode conversion method according to claim 1, wherein the converting the to-be-recognized coordinate curve integration mode according to the target conversion rule to obtain a coordinate curve integration standard mode specifically comprises:

4. The coordinate curve integration mode conversion method according to claim 1, wherein the selecting a corresponding target conversion rule according to the target mark recognition result specifically includes:

5. The coordinate curve integration mode conversion method according to any one of claims 1 to 4, wherein after the coordinate curve integration mode to be recognized is converted according to the target conversion rule and a coordinate curve integration standard mode is obtained, the coordinate curve integration mode conversion method further comprises:

6. The coordinate curve integration mode conversion method according to claim 5, wherein the calculating a target coordinate curve integration of the to-be-recognized coordinate curve integration mode according to the target calculation formula specifically includes:

7. A coordinate curve integrating mode conversion apparatus, characterized in that the coordinate curve integrating mode conversion apparatus comprises: memory, processor and a coordinate curve integrating mode conversion program stored on the memory and executable on the processor, which when executed by the processor implements the steps of the coordinate curve integrating mode conversion method according to any one of claims 1 to 6.

8. A storage medium, characterized in that the storage medium has stored thereon a coordinate curve integrated mode conversion program, which when executed by a processor implements the steps of the coordinate curve integrated mode conversion method according to any one of claims 1 to 6.

9. A coordinate curve integrating mode conversion device, comprising:

the conversion module is used for converting the coordinate curve integral mode to be identified according to the target conversion rule to obtain a coordinate curve integral standard mode;

the identification module is further configured to perform character splitting on the to-be-identified coordinate curve integral mode to obtain a character set of the to-be-identified coordinate curve integral mode;

the identification module is further configured to match each character member in the character set with each preset mark in a preset mark set, so as to obtain a target mark identification result.