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DBT80-2018: (Earthquake Disaster Remote Sensing Assessment Product Output Technical Requirements)
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Std ID	Version	USD	Buy	Deliver [PDF] in	Title (Description)
DB/T 80-2018	English	599	Add to Cart	4 days [Need to translate]	(Earthquake Disaster Remote Sensing Assessment Product Output Technical Requirements)

DBT80-2018: (Earthquake Disaster Remote Sensing Assessment Product Output Technical Requirements)

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(Earthquake Disaster Remote Sensing Assessment Product Output Technical Requirements) ICS 91.120.25 P15 People's Republic of China Earthquake Industry Standard Technical requirements for the output of seismic disaster remote sensing assessment products 2018-12-26 released 2019-03-01 Implementation Issued by China Earthquake Administration

Table of contents

Preface Ⅲ Introduction Ⅳ 1 Scope 1 2 Normative references 1 3 Basic rules 1 4 Earthquake disaster remote sensing assessment map 2 5 Earthquake disaster remote sensing assessment report 6 Appendix A (Normative Appendix) Figure layout 8 Appendix B (Normative Appendix) Drawing Style 10 Appendix C (Normative Appendix) Basic Requirements for Picture Finishing 12 Appendix D (Normative Appendix) Symbol Styles of Basic Geographic Data Elements 13 Appendix E (Normative Appendix) Symbol styles of basic earthquake emergency data elements 14 Appendix F (Normative Appendix) Symbol styles of remote sensing evaluation data elements for earthquake disaster 15 Appendix G (informative appendix) Figure 18 Reference 21

Foreword

This standard is one of the series of "Earthquake Disaster Remote Sensing Assessment". The standard structure and name of the series are expected to be as follows. ---Evaluation of earthquake disasters by remote sensing of earthquake disasters; ---Evaluation of building damage by remote sensing of earthquake disaster; ---Evaluation of highway earthquake damage by remote sensing of earthquake disaster; ---Remote sensing of earthquake disasters to assess railway system earthquake damage; ---Destruction of key targets in remote sensing assessment of earthquake disasters; ---Evaluation of earthquake disaster area by remote sensing of earthquake disaster; ---Evaluation of earthquake intensity by remote sensing of earthquake disaster; ---Evaluation of the direct economic loss of earthquake disaster by remote sensing; ---Earthquake disaster remote sensing evaluation product output technical requirements; ... This standard was drafted in accordance with GB/T 1.1-2009 "Guidelines for Standardization Part 1.Standard Structure and Compilation". This standard was proposed by the China Earthquake Administration. This standard is under the jurisdiction of the National Seismic Standardization Technical Committee (SAC/TC225). Drafting organizations of this standard. Xinjiang Uygur Autonomous Region Earthquake Administration, China Earthquake Administration Institute of Earthquake Prediction, China Earthquake Administration Institute of Geology, Crustal Stress Research Institute of China Earthquake Administration, Chinese Academy of Surveying and Mapping, Tianjin Earthquake Administration, Jiangsu Earthquake Administration. The main drafters of this standard. Wen Heping, Wang Xiaoqing, Dou Aixia, Zhang Guifang, Zhang Jingfa, Zhao Rong, An Liqiang, Zhang Xihai, Shan Xinjian, Jiang Hongbo, Qiu Hu, Li Bin, Bi Xuemei, Li Jinxiang. Important note. If you have any comments or suggestions during the implementation of this standard, please send them to, Or send it to the Secretariat of the National Seismological Standardization Technical Committee (Address. No. 5, Minzu University South Road, Haidian District, Beijing, Institute of Geophysics, China Earthquake Administration; Zip Code. 100081), and indicate the contact information.

Introduction

After a severely destructive earthquake occurs, quickly and accurately determine the type of earthquake disaster, the extent and scope of the earthquake disaster, is the earthquake emergency rescue command and operation. Important basis for movement. Remote sensing technology has the characteristics of all-time, all-weather, and not affected by the damage of the earthquake in the earthquake-hit area. Therefore, the earthquake should be used after the earthquake. In the emergency rescue, the disaster situation information of the earthquake-stricken area can be obtained quickly and comprehensively. There are many types and wide distribution of earthquake disasters, and different types of disaster information are provided. There are obvious differences in the objects and methods of taking and evaluating, and it is difficult to adopt a single standard to regulate. For coordinated, orderly, efficient and accurate extraction and evaluation To estimate the main types of earthquake disasters, it is necessary to standardize the methods, indicators, procedures and results of remote sensing evaluation. Disaster Remote Sensing Assessment" series of standards. This standard is based on GB/T 15968-2008 "Remote Sensing Image Plan Production Specification", GB/T 20257-2017 "National Basic Scale Map Schematic and GB/T 24354-2009 Common Map Symbols for Public Geographic Information. The output of images and text products of the results of building damage, highway damage, earthquake disaster area, earthquake intensity, and direct economic loss of the earthquake, etc. skills requirement. Technical requirements for the output of seismic disaster remote sensing assessment products

1 Scope

This standard specifies the technical requirements for products such as maps and evaluation reports produced by remote sensing evaluation of earthquake disasters. This standard applies to the production of seismic disaster assessment products based on remote sensing.

2 Normative references

The following documents are indispensable for the application of this document. For dated reference documents, only the dated version applies to this article Pieces. For undated references, the latest version (including all amendments) applies to this document. GB/T 958-2015 Regional Geological Map Legend GB/T 13989-2012 National Basic Scale Topographic Map Framing and Numbering GB/T 15968-2008 Specification for making plan of remote sensing image GB 17740 Earthquake magnitude regulations GB/T 17742 China Earthquake Intensity Table GB/T 20257 (all parts) Basic scale map of the country GB/T 24354-2009 General map symbols for public geographic information DB/T 58-2014 Rules for determining earthquake names

3 Basic regulations

3.1 The maps and reports produced by remote sensing assessment of earthquake disasters should use the earthquake magnitude M specified in GB 17740. 3.2 The maps and reports produced by the remote sensing assessment of earthquake disasters shall use the seismic intensity in accordance with the provisions of GB/T 17742. 3.3 The name of the earthquake shall comply with the regulations of DB/T 58-2014. 3.4 Earthquake disaster remote sensing evaluation products include evaluation maps and evaluation reports. The assessment drawings are divided into the following seven categories. a) Earthquake emergency response maps; b) Earthquake geological disaster maps; c) Earthquake building damage map; d) Maps of highway earthquake damage; e) Maps of the extent of the earthquake-stricken area; f) Earthquake intensity maps; g) Maps of the direct economic losses of the earthquake. 3.5 According to the source and nature of the data, the data for compiling remote sensing assessment maps of earthquake disasters is divided into remote sensing data, basic geographic information data, First-level sub-categories such as basic earthquake emergency data and remote sensing evaluation data for earthquake disasters. Under the first-level sub-categories, according to the data content, further division Second-level sub-category and third-level sub-category. 3.6 The data coding for the compilation of remote sensing maps of earthquake disasters adopts a three-digit code of a mixture of letters and numbers, and its structure is shown in Figure 1.among them, The first digit represents the first-level sub-category code, using capital letters, using the English or Chinese Pinyin first letter of the data name. The second and third place respectively For the second-level sub-category code and third-level sub-category code, use Arabic numerals 1~9.When the number is insufficient, use lowercase English letters for continuation. ...