Design model of complex virtual instrument system

A virtual instrument and system design technology, applied in software simulation/interpretation/simulation, program control devices, etc., can solve problems such as reduced coupling, complex development process, and single function of virtual instrument system

Inactive Publication Date: 2013-11-06
OCEAN UNIV OF CHINA
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

In this patented technology, there are two main technical features: 1) Complex Virtual Instrument (CVI), 2) Unique Remote Access Interface for Real Time Interval Network Monitorings (RATM). These technologies allow users to easily manage large amounts of monitoring data without having them physically visit each other's location everyday. They work together like an ordinary computer program running over local area networks. Overall these improvements improve efficiency and flexibility in managing monitoring systems while reducing their overall size.

Problems solved by technology

This patents discusses how virtual instrument (VM) technology helps manage and measure critical situations quickly without requiring expensive equipment like conventional tools that require special training beforehand. However, existing VM systems suffer drawbacks due to their limited functionality and limitations in managing relevant information about targets being observed. These technical problem addressed by this patented solution involves developing a virtual instrument platform capable of providing advanced capabilities including realistic interactions between multiple devices and intuitive control experiences while maintaining compatibility across different types of monitoring scenarios.

Method used

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  • Design model of complex virtual instrument system
  • Design model of complex virtual instrument system
  • Design model of complex virtual instrument system

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Embodiment Construction

[0027] Below in conjunction with accompanying drawing, the implementation of the present invention is described in detail as follows:

[0028] exist figure 1 , shows the process of virtual instrument from customization to service provision. Firstly, the acquisition equipment and its acquisition function library for object monitoring are sorted into configuration information according to certain specifications, forming an information collection of acquisition equipment; then the equipment sensor information is abstracted into monitoring Object parameters include physical sensors and logical sensors. A physical sensor refers to a sensor that directly perceives a monitoring object, and its sensing data is a physical sensing parameter. A logical sensor is a virtual sensor corresponding to a parameter calculated according to a physical sensor parameter; then use The virtual instrument customization function of the system customizes virtual instruments that meet the actual requirements

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Abstract

A design model of a complex virtual instrument system is suitable for real-time monitoring systems such as environmental monitoring systems , household appliances testing systems, video surveillance systems and safety monitor systems under the environment of Internet of Things, solves the problems of simplex function and complex development process of the traditional virtual instrument system, and particularly comprises the following steps: converting the development process of a real-time monitoring system into a system configuration process according to sensor information, sensor data information, data display module information, system configuration information, mapping information and the like in an abstract monitoring system, providing related access information through a mapping model, and conducting diversified graphic display and corresponding statistics and calculation on data after the configuration of each complex virtual instrument. Moreover, the complex virtual instrument system can generate a Web Service standard data access interface for the complex virtual instruments, and provide data access and deriving service.

Description

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Claims

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Application Information

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Owner OCEAN UNIV OF CHINA
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