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Instrument man-machine interaction unified processing method

A technology of human-computer interaction and processing methods, which is applied in the field of unified processing of instrument human-computer interaction, can solve the problems of rigid instrument architecture, low reusability, and increased module overhead, so as to reduce the degree of coupling, improve reusability, The effect of reducing complexity

Active Publication Date: 2014-02-12
CHINA ELECTRONIS TECH INSTR CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] The prior art has the following deficiencies: 1. High complexity and low reusability
As the current instrument is more and more inclined to comprehensive testing and multi-function, with more and more internal modules of the instrument, this design method will inevitably increase the coupling degree between modules and the overhead of the interface
If there is a new form of interaction, a new response module needs to be added, so the architecture of the instrument is relatively rigid and the scalability is not strong

Method used

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  • Instrument man-machine interaction unified processing method
  • Instrument man-machine interaction unified processing method

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Embodiment 1

[0032] like Figure 1-Figure 2 As shown, the present invention divides the human-computer interaction of the instrument into three layers: an interactive preprocessing layer 1, an instruction distribution layer 2, and an instrument model layer 3.

[0033] 1. Interactive preprocessing layer

[0034] Interaction preprocessing layer 1 contains multiple human-computer interaction preprocessing modules, such as menu preprocessing module 104, program control preprocessing module 105, GUI preprocessing module 106, etc. These modules are used to capture different forms of user input, and then input user input Unified conversion into three forms of instructions: the setting instruction 107 without parameters is used to instruct the instrument to perform the action corresponding to the instruction; the setting instruction 108 with parameters is used to instruct the instrument to set the parameters carried by the instruction and return Parameters actually set by the instrument; the quer...

Embodiment 2

[0051] On the basis of the above embodiments, further, a unified processing method for instrument human-computer interaction is provided, which includes the following steps:

[0052] Step 1: Divide the human-computer interaction of the instrument into an interactive preprocessing layer, an instruction distribution layer, and an instrument model layer; the interactive preprocessing layer is used to uniformly convert various forms of user input into three forms of instructions; The instruction distribution layer is used to collect instructions facing the interactive preprocessing layer and distribute instructions to the instrument model layer; the instrument model layer is used to provide interface functions to the instruction distribution layer, and further execute the distribution and response of received instructions;

[0053] Step 2: user input preprocessing, the interactive preprocessing layer uniformly converts various forms of user input into three forms of instructions; ...

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Abstract

The invention provides an instrument man-machine interaction unified processing method which includes the steps of (1) dividing instrument man-machine interaction into an interaction pre-processing layer, an instruction distributing layer and an instrument model layer, (2) pre-processing user input, and enabling the interaction pre-processing layer to convert the user input in various modes into instructions in three modes in a unified mode, (3) collecting the instructions, and enabling the interaction pre-processing layer to transmit the instructions to the instruction distributing layer through interfaces, and (4) distributing the instructions, and enabling the instruction distributing layer to transmit the instructions to the instrument model layer through a distributing route map. By means of the technical scheme, the user input in various modes is unified into the three instruction modes, then the instructions are collected and distributed through the standard interfaces, complexity caused by the multi-user interaction mode is reduced, and the reusability and the expandability of software are improved.

Description

technical field [0001] The invention belongs to the technical field of instrument human-computer interaction, and in particular relates to a unified processing method for instrument human-computer interaction. Background technique [0002] The instrument interacts with the user through a variety of external interfaces, including panel menus, program control, and touch-screen GUI. The resident software of the instrument includes various human-computer interaction preprocessing modules, which capture various forms of user input and analyze and process them, and then pass the processing results to the internal response module of the instrument, which will actually respond and give feedback . [0003] In the existing solution, the specific realization of panel menu, program control and touch screen GUI user interaction is as follows: [0004] 1. Panel menu: After the panel menu preprocessing module receives the user key press message, it translates the message, converts it int...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F3/048G06F9/44
Inventor 杨青韩晓东苏勇辉朱伟
Owner CHINA ELECTRONIS TECH INSTR CO LTD
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