Method for developing intelligent control-oriented virtual instrument capable of reconfiguring functions

Abstract

The invention discloses a method for developing an intelligent control-oriented virtual instrument capable of reconfiguring functions, which is carried out according to the following steps: (1) analyzing demands, establishing an architecture mode of a development system, designing a development blueprint of the development system, and establishing a development scheme of the system; (2) setting up a resource library of the instrument; (3) establishing a function configuration model, and assembling the instrument; (4) establishing a universal data acquisition and management module; (5) establishing a simple and high-efficient development mode; (6) establishing an interaction mechanism with other systems; and (7) establishing a system network interface based on code transmission. The methodhas the significant effects of setting up a template, calling the template into a system assembly field, and making appropriate changes to the module for becoming the special instrument, thereby having convenient use, meeting the public demands and improving the research and development efficiency.

Description

technical field [0001] The invention belongs to the field of test instrument development systems, and in particular relates to a method for developing function reconfigurable intelligent control virtual instruments. Background technique [0002] The development of testing and measuring instruments can be roughly divided into three stages: the first stage is the traditional hardware instrument, the second stage is the popular virtual instrument with software as the main body, and the third stage is the intelligent control virtual instrument. Intelligent control-based virtual instruments are divided into two categories according to their essential characteristics: one is a graphical development environment represented by LabVIEW, also known as G language; the other is an object-oriented visual text development environment represented by VC. Graphical development environment has won a wide range of applications for its remarkable ease of use and specialization. [0003] No mat...

AI Technical Summary

Problems solved by technology

Although the virtual instrument implements software to the traditional hardware instrument, it has many advantages and characteristics that the traditional hardware instrument cannot have, but in the structure of the instrument, in the relationship between the function of the instrument and the panel control, the virtual instrument It is still consistent with traditional hardware instruments, especially because the "user design" cannot be avoided when assembling virtual instruments, so every user of virtual instruments must have the ability to design and assemble virtual instruments by themselves. to, and the research and development efficiency of virtual instruments is low

[0004] The disadvantage of the existing technology is: the "user design" is unavoidable, and every user of virtual instruments must have the ability to design and build virtual instruments by themselves. Not only is it difficult to do, but also the research and development efficiency of virtual instruments is low

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