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GB/T 36349-2018 English PDF

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GB/T 36349-2018: Information technology -- Learning, education and training -- Virtual experiment -- Data exchange
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Standard similar to GB/T 36349-2018

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Basic data

Standard ID GB/T 36349-2018 (GB/T36349-2018)
Description (Translated English) Information technology -- Learning, education and training -- Virtual experiment -- Data exchange
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard L67
Classification of International Standard 35.240.99
Word Count Estimation 18,167
Date of Issue 2018-06-07
Date of Implementation 2019-01-01
Issuing agency(ies) State Administration for Market Regulation, China National Standardization Administration

GB/T 36349-2018: Information technology -- Learning, education and training -- Virtual experiment -- Data exchange


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Information technology--Learning, education and training--Virtual experiment--Data exchange ICS 35.240.99 L67 National Standards of People's Republic of China Information Technology Learning, Education and Training Virtual experimental data exchange Published on.2018-06-07 2019-01-01 Implementation National Market Supervision Administration China National Standardization Administration released Directory Preface III Introduction IV 1 Scope 1 2 Terms and Definitions 1 3 Overview 1 4 Metadata Format 2 4.1 Virtual Experiment Component Data Metadata Format 2 4.2 Virtual Experiment Scene Data Metadata Format 3 4.3 Virtual Experiment Results Data Metadata Format 4 Appendix A (Informative) Virtual Experimental Data Exchange Format XML Binding Example Sample 6 Reference 12

Foreword

This standard was drafted in accordance with the rules given in GB/T 1.1-2009. Please note that some of the contents of this document may involve patents. The issuing agency of this document does not assume responsibility for identifying these patents. This standard was proposed and managed by the National Information Technology Standardization Technical Committee (SAC/TC28). This standard was drafted by. Central China Normal University, Huazhong University of Science and Technology, and China Electronics Standardization Institute. The main drafters of this standard. Wu Hao, Yu Yuntao, Cheng Wenqing, Jiang Wenbin, Peng Yu, Li Ying, Rao Jingyang, Wang Ziqin, Wang Yang Chunxiao.

Introduction

The virtual experiment system consists of different modules. In order to integrate different modules into a virtual experiment system, the virtual experimental teaching system Standards are required to regulate the interior of each layer and each layer. GB/T 36097-2018 is an experimental structure in the virtual experiment teaching system. The pieces of metadata are defined so that the components can be identified between different modules; GB/T 36098-2018 defines an information model to put different components Combined into a virtual experimental teaching resource package, resource packages can be interoperated between different modules; GB/T 36096-2018 specifies different modes Interfaces between blocks that call each other enable different modules to be coupled together; GB/T 36348-2018 is used to regulate the entire virtual experiment system The relationship between different parts describes how the different layers depend on each other and how the internal modules of each layer coordinate the functions of this layer task. This standard standardizes the data that needs to be exchanged so that data can be shared between different modules. Information Technology Learning, Education and Training Virtual experimental data exchange

1 Scope

This standard specifies the data types used for data exchange during the operation of the virtual experimental teaching system and the metadata of each type of data. format. This standard is applicable to supporting the development and implementation of specific virtual experimental components, virtual experimental teaching content and learning content, and application service programs. And data exchange on the virtual experimental teaching platform.

2 Terms and Definitions

The following terms and definitions apply to this document. 2.1 Virtual experiment virtualexperiment Experiments based on multimedia, simulation and virtual reality technology. [GB/T 36348-2018, definition 3.1] 2.2 Component component The software system has relatively independent functions, can be clearly identified, the protocol of the interface follows the agreement, and can be independently deployed and can be assembled entity. 2.3 Virtual experimental component virtualexperimentcomponent The independent operation unit in the virtual experiment environment is the base of the virtual experiment that can be operated and controlled. [GB/T 36348-2018, definition 3.2] 2.4 Plug-in plug_in Extend and strengthen software functions without modifying the subject of the program. Any company or individual can write their own extensions. The program to solve some of the operational inconvenience or add new features.

3 Overview

There are three types of data for exchanging experimental information in a virtual experiment system. a) Virtual experimental component data. Virtual experimental components from different disciplines make up component libraries, each component in the scene has its own The information, through the experimental component data, identifies the detailed information of the component so that it can be recognized by each module of the virtual experimental system; b) virtual experimental scene data. the information of the virtual experimental scene set up, which includes not only the experimental component information but also the structure Connection relationships between parts, experimental scene modeling information, etc. The client plugin will provide experimental scenario data for the platform to save after Taiwan calculation module calculation; c) Virtual experiment result data. The data returned from the server during the experiment run, describes the returned data of the virtual experiment result information.