CN110543948A - Robot implementation method based on innovation method and tool - Google Patents

Abstract

The invention discloses a robot implementation method based on an innovation method and a tool, which is applied to an innovation invention implementation system and comprises the following steps: A) collecting problems and identifying the problems; B) performing problem solving; C) carrying out concept verification; the step A), the step B) or the step C) can be internally integrated with a plurality of innovative methods and tools, and any innovative method and tool specification of a third party provides a required interface for a modular small component with an input and output structure, so that the innovative method and tool can be embedded into the innovative invention realizing system. The implementation of the robot implementation method based on the innovative method and the tool has the following beneficial effects: the method saves a large amount of training and learning time and cost of the user, provides method and tool comparison information, the user can obtain a result only by timely interaction, scheme verification can support multiple verification modes, and the most direct visual experience is provided for the user.

Description

Robot implementation method based on innovation method and tool

Technical Field

The invention relates to the field of innovative methods and tool application, in particular to a robot implementation method based on the innovative methods and tools.

Background

With the continuous rising of the innovation enthusiasm of the public, various innovation methods and tools are continuously applied, verified and developed, so that the generation and development of new concepts and new products are powerfully promoted, and the efficiency of product upgrading is accelerated.

At present, various innovation methods and tools are different in implementation method, logic, input data form, result form and the like, oriented problems to be analyzed or solved are also emphasized, some of the innovation methods and tools are advantageous in quantitative analysis and results, and some of the innovation methods and tools are characterized in qualitative, so that the innovation methods and tools in the market are generally used independently, mutual association and comparative analysis are carried out manually, the conditions of low efficiency and unsatisfactory effect exist, innovation is a mental thinking process, only human inertial thinking is broken, new thinking is expanded and introduced, more and better innovation paths can be generated, and more results are generated more probably.

Because various innovative methods and tools are independent of each other and cannot provide information for mutual reference and comparison, users need to manually analyze the similarities and differences, and time and labor are wasted. The advantages and disadvantages of various innovative methods and tools and the application of the innovative stages of the invention belong to special knowledge, and the users are required to be trained, fully learn and understand the methods and tools, and the technical knowledge influences the exertion of the original thinking and is time-consuming and expensive.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a robot implementation method based on innovative methods and tools, which saves a lot of training and learning time and cost of users, provides method and tool comparison information, enables users to obtain results only by timely interaction, supports multiple verification modes for scheme verification, and provides users with the most direct visual experience, aiming at the defects in the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: the method for realizing the robot based on the innovative method and the tool is constructed, is applied to an innovative invention realizing system, and comprises the following steps:

A) Collecting problems and identifying the problems;

B) Performing problem solving;

C) carrying out concept verification;

The step A), the step B) or the step C) can be internally integrated with a plurality of innovative methods and tools, and any innovative method and tool specification of a third party provides a required interface for a modular small component with an input and output structure, so that the innovative method and tool can be embedded into the innovative invention realizing system.

In the robot implementation method based on the innovative method and the tool, the interface of the innovative method and the tool of the third party is required to comprise an input data part, a data processing part and an output or result data part, and the input data part, the data processing part and the output or result data part can selectively provide process interaction and view data facing a user according to requirements.

In the robot implementation method based on the innovative method and the tool, the input data part comprises input information, information decomposition and verification and data specification and determination; the format of the input information is not limited, and includes at least text, tables, formatted data, images, voice, video, electromagnetic fields, and biological fields.

In the robot implementation method based on the innovation method and the tool, after the input information is collected to the innovation invention implementation system, the innovation invention implementation system determines whether information verification is necessary according to the collected information format, if so, the verification work of the input information is completed in the interface, and after the information is determined to be available and correct, the information meeting the data specification is generated through information decomposition, in the process, the interface sends out process interaction and view data as required, and finally, the information meeting the current innovation method and tool specification and capable of being processed by the data processing part of the next step is generated.

In the robot implementation method based on the innovative method and the tool, the data input by the input data part at least comprises data type, data, a to-be-processed mode, whether interaction is needed, process interaction and view data, exception data and processed physical materials which can be detected.

in the robot implementation method based on the innovation method and the tool, the data processing part completely completes processing by the specific innovation method and the tool, and in the process, the data processing part can collect process data timely, send out process interaction and view data according to needs, and collect supplementary information and logic judgment information.

In the robot implementation method based on the innovative method and the tool, the output or result data part is used for presenting the result obtained by the data processing part, and the presentation mode comprises a format type which can be identified by software and a machine and a format type which can be identified and felt by a human.

In the robot implementation method based on the innovative method and the tool, the format types which can be recognized by the software and the machine at least comprise binary codes and database data, and the format types which can be recognized and felt by the human at least comprise characters, tables, images, voice, video, real objects or fields.

In the robot implementation method based on the innovative method and the tool, the result data part at least comprises a processing mode, a data type, data, a supported third party comparison processing mode, a supported third party comparison processing comparison data node, exception data and processing, a supported next processing mode, whether interaction is needed in the next processing, process interaction and view data in the next processing, and exception data and processing in the next processing.

In the robot implementation method based on the innovative method and tool, the robot is represented in a physical form, a solidified mobile phone or a computer chip, or a webpage, an APP or a third-party service that can be called by any software.

The implementation of the robot implementation method based on the innovative method and the tool has the following beneficial effects: as various innovative methods and tools can be integrated in the system for collecting problems, identifying problems, solving problems and verifying concepts, any third-party innovative method and tool are required to be standardized to be a modular small component with an input-output structure, new innovative methods are allowed to be added continuously, a required interface is provided, the innovative method and tool can be embedded into the innovative invention implementation system, scheme verification can support various verification modes, and even can be directly butted with an e-commerce platform to purchase or check the possibility of physical implementation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a flow chart of an embodiment of the robot implementation method based on the innovative method and tool of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the embodiment of the robot implementation method based on the innovative method and the tool, the robot implementation method based on the innovative method and the tool is applied to the innovative invention implementation system. The flow chart of the implementation method of the robot based on the innovative method and the tool is shown in figure 1. The robot implementation method based on the innovative method and the tool comprises three parts, namely problem identification, problem solving and concept verification. Specifically, in fig. 1, the implementation method of the robot based on the innovative method and tool comprises the following steps:

Step S01 collects the questions and performs question identification: in this step, the problems are collected and identified.

Step S02 performs problem solving: in this step, the problem is solved.

Step S03 performs concept verification: in this step, concept verification is performed.

The above steps S01, S02 or S03 can be integrated with various innovative methods (innovative invention methods) and tools commonly recognized in the industry, such as TRIZ, six sigma, patent library, etc., requiring any third party innovative method and tool specification to be embedded as a modular gadget with i/o structure, and allowing new innovative methods to be added continuously, saving the user a lot of training and learning time and cost. In addition, any third-party innovative method and tool can be embedded into the innovative invention implementation system and selected by the user as long as the innovative method and tool provide an interface meeting the specification requirement of the invention. The user can also choose to use only one of the three steps to complete the corresponding function.

The invention provides an innovative method and a tool for comparing information, and a user can obtain a result only by timely interaction. The scheme verification can support various verification modes, and even can be directly docked with an e-commerce platform to purchase or view the possibility of physical implementation, so that the most direct visual experience is provided for users.

in this embodiment, the interface of the innovative method and tool requiring the third party includes an input data portion, a data processing portion, and an output or result data portion, where the input data portion, the data processing portion, and the output or result data portion can selectively provide user-oriented process interaction and view data according to requirements, that is, each portion can have user-oriented process interaction and view data, so as to allow a user to provide information such as supplementary information, judgment, and path at a proper time, and the process interaction and view data portion can be selectively provided according to the requirements of the specific innovative method and tool.

in this embodiment, the input data part includes three parts, i.e., input information, information decomposition and verification, and data specification and determination. The format of the input information is not limited as long as the information can be collected and recognized, and includes at least characters, tables, formatted data, images, voice, video, electromagnetic fields, biological fields, and the like.

After the input information is collected to the innovative invention realization system, the innovative invention realization system determines whether the information is necessary to be checked according to the collected information format, if so, the checking work of the input information is completed in the interface to ensure the availability and the correctness of the information so as to prepare for the next information decomposition. After determining the information that is available and correct, the information is decomposed to generate information that conforms to the data specification, and in the process, the interface sends out process interaction and view data as needed (not necessary options) so as to interact with the user to determine the reasonability and correctness of the information of the specification. And finally, generating information which is in accordance with the current innovative method and tool specification and can be processed by a data processing part of the next step.

In this embodiment, the data input by the input data part at least includes data type, data, to-be-processed mode, whether interaction is required, process interaction and view data, exception data and processing, and even some physical materials which can be detected.

In this embodiment, the data processing part is completely processed by a specific innovative method and tool, and the implementation manner is not limited, and may be a computer language or an application scenario, and in this process, the data processing part may collect process data in time, and send out process interaction and view data as needed to collect some information such as supplement and logic judgment, so as to complete the data processing part.

In this embodiment, the output or result data part is to present the result obtained by the data processing part, the specific presentation manner is not limited, and the presentation manner generally includes two types, one type is a format type that can be recognized by software and machine, and can be but is not limited to binary code, database data, and the like, and the other type is a format type that can be recognized and felt by human, and can be but is not limited to text, table, image, voice, video, and even real object or various fields such as electromagnetic field, and the like.

In this embodiment, the result data part at least includes a processing mode, a data type, data, a supported third-party comparison processing mode, a comparison data node and exception data and processing of the supported third-party comparison processing, a supported next processing mode, whether interaction is needed in the next processing, process interaction and view data in the next processing, exception data and processing in the next processing, and the like.

in this embodiment, the representation form of the robot is not limited, and may be a robot represented in a physical form, a fixed mobile phone or a computer chip, or may also be a web page, an APP, or a third-party service that can be called by any software.

The innovative research and development process relates to three stages of problem identification, problem solving and concept verification, each innovative method and tool in each stage can be independently used, and results obtained by the methods and tools in the same stage can be transversely compared, ranked and evaluated so as to provide a multi-dimensional method, a multi-dimensional visual angle and a multi-dimensional comparison result for a user, thereby providing a wider and effective way for innovative invention activities.

In summary, in the present embodiment, various innovative methods and tools generally recognized in the industry, such as TRIZ, SISigma, patent library, etc., can be integrated therein, and it is required that these innovative methods and tools are standardized to be embedded as modular small components with I/O structure, and that new innovative methods can be continuously added, thereby saving the user a lot of training and learning time and cost. The method and the tool comparison information are provided, and the user can obtain the result only by timely interaction. The scheme verification can support various verification modes, and even can be directly docked with an e-commerce platform to purchase or view the possibility of physical implementation, so that the most direct visual experience is provided for a user.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. A robot implementation method based on innovation method and tool is characterized by being applied to an innovation invention implementation system and comprising the following steps:

A) Collecting problems and identifying the problems;

B) Performing problem solving;

C) carrying out concept verification;

the step A), the step B) or the step C) can be internally integrated with a plurality of innovative methods and tools, and any innovative method and tool specification of a third party provides a required interface for a modular small component with an input and output structure, so that the innovative method and tool can be embedded into the innovative invention realizing system.

2. The method of claim 1, wherein the interface of the innovative method and tool requiring the third party comprises an input data component, a data processing component, and an output or result data component, the input data component, the data processing component, and the output or result data component being capable of selectively providing user-oriented process interaction and view data as desired.

3. The method of claim 2, wherein the input data portion includes input information, information decomposition and verification, and data specification and determination; the format of the input information is not limited, and includes at least text, tables, formatted data, images, voice, video, electromagnetic fields, and biological fields.

4. the robot implementing method based on innovative method and tool as claimed in claim 3, characterized in that after the input information is collected to the innovative invention implementing system, the innovative invention implementing system will decide whether the information is necessary to be checked according to the collected information format, if necessary, the checking work of the input information is completed in the interface, after the information is determined to be usable and correct, the information conforming to the data specification is generated through information decomposition, in the process, the interface sends out process interaction and view data as required, and finally the information conforming to the current innovative method and tool specification and capable of being processed by the data processing part of the next step is generated.

5. A robot implementing method based on innovative method and tool according to claim 4 characterized in that the data input by the input data part at least includes data type, data, way to be processed, need of interaction, process interaction and view data, exception data and processing and physical material which can be detected.

6. A robot implementing method based on innovative method and tool according to claim 2 characterized in that the data processing part will complete the process completely inside the specific innovative method and tool, in the process, the data processing part will collect the process data in time and send out the process interaction and view data, collect the supplementary information and logic judgment information as required.

7. a robot implementation method based on innovative methods and tools according to claim 6 characterized in that the output or result data part is used to present the results from the data processing part in a way that includes the format types that software and machine can recognize and the format types that human can recognize and feel.

8. A robot implementation method based on innovative methods and tools according to claim 7 characterized by the fact that the software and machine recognizable format types comprise at least binary codes and database data, the human recognizable and perceived format types comprise at least words, tables, images, voice, video, real objects or fields of all kinds.

9. The robot implementing method based on innovative methods and tools according to claim 2, characterized in that the result data part includes at least processing mode, data type, data, supported third party comparison processing mode, supported third party comparison processing comparison data node and exception data and processing, supported next processing mode, whether next processing requires interaction, process interaction and view data in next processing, and exception data and processing in next processing.

10. The method for implementing a robot based on innovative method and tool as claimed in claim 2, characterized in that the representation form of the robot is a robot represented in physical form, a fixed mobile phone or a computer chip, or a web page, APP or a third party service that can be called by any software.