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三维(3D)成像系统的标准术语
发布单位:美国-美国材料与试验协会(US-ASTM)
标准状态:现行
标准号:ASTM E2544-24
发布时间:2024-01-01
中标分类:-
国标分类:01.040.35 词汇 - 信息技术、办公机械设备 (词汇)
35.140 信息技术、办公机械 - 计算机图形技术
实施时间:摘要: 1.1This terminology contains common terms, definitions of terms, descriptions of terms, nomenclature, and acronyms associated with three-dimensional (3D) imaging systems in an effort to standardize terminology used for 3D imaging systems.1.2The definitions of the terms presented in3.1are obtained from various standard documents developed by various standards development organizations. The intent is not to change these universally accepted definitions but to gather, in a single document, terms and their definitions that may be used in current or future standards for 3D imaging systems.1.2.1In some cases, definitions of the same term from two standards have been presented to provide additional reference. The text in parentheses to the right of each defined term is the name (and, in some cases, the specific section) of the source of the definition associated with that term.1.3The definitions in3.2are specific terms developed by this committee for 3D imaging systems. Some terms may have generally accepted definitions in a particular community or are defined in existing standards. If there are conflicting definitions, our preference is to adapt (modify) the ISO standard (if available) for this standard.1.4A definition in this terminology is a statement of the meaning of a word or word group expressed in a single sentence with additional information included in notes or discussions.1.5This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.Note 1:The subcommittee responsible for this standard will review definitions on a five-year basis to determine if the definition is still appropriate as stated. Revisions will be made when determined necessary.1.6This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee. -
2.[标准] 建筑信息模型(BIM)技术应用标准发布单位:
中国-宁夏回族自治区地方标准(CN-DB64)
标准状态:现行
标准号:DB64/T 1912-2023
发布时间:2023-08-09
中标分类:P04 土木、建筑 - 工程建设综合 - 基础标准与通用方法
国标分类:35.140 信息技术、办公机械 - 计算机图形技术
实施时间:2023-11-09
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信息技术.计算机制图、图像处理和环境数据表示.混合和增强现实的风格表示
发布单位:国际组织-国际电工委员会(IX-IEC)
标准状态:现行
标准号:ISO/IEC 21145:2023
发布时间:2023-09-22
中标分类:-
国标分类:35.140 信息技术、办公机械 - 计算机图形技术
实施时间:摘要: This document specifies:1) Constructs for representing and specifying various augmentation and presentation styles. While augmentations can be in modalities other than the visual (e.g. aural, haptic), this work addresses the visual augmentation style only.2) A model for how to associate the stylization constructs to the augmentation objects. Specifically, the MAR behavior object in ISO/IEC 3721 is extended for this purpose.3) Other miscellaneous functionalities and abstractions that support the stylization of augmentation objects. -
信息技术.计算机制图、图像处理和环境数据表示.智能城市的表示和可视化指南
发布单位:国际组织-国际电工委员会(IX-IEC)
标准状态:现行
标准号:ISO/IEC TS 5147:2023
发布时间:2023-07-14
中标分类:-
国标分类:35.140 信息技术、办公机械 - 计算机图形技术
实施时间:摘要: ISO/IEC TS 5147:2023 This document specifies guidelines for the representation and visualization of smart cities. This document:a) describes the concepts of a smart city, smart city object and smart city data,b) describes categories of data associated with smart cities,provides guidance for representation of smart cities,c) describes guidance for visualization of smart cities,d) provides guidance in selecting the appropriate representation and visualization technique for different categories of smart city data using standards, ande) provides use cases for applying standards to the representation and visualization of smart cities. -
信息技术.计算机制图、图像处理和环境数据表示.混合和增强现实内容的信息模型.核心对象和属性
发布单位:国际组织-国际电工委员会(IX-IEC)
标准状态:现行
标准号:ISO/IEC 3721:2023
发布时间:2023-09-22
中标分类:-
国标分类:35.140 信息技术、办公机械 - 计算机图形技术
实施时间:摘要: ISO/IEC 3721:2023 This document specifies the information model for representing the mixed and augmented reality (MAR) scene/contents description, namely, information constructs for:a) representing the virtual reality scene graph and structure such that a comprehensive range of mixed and augmented reality contents can also be represented;b) representing physical objects in the mixed and augmented reality scene targeted for augmentation;c) representing physical objects as augmentation to other (virtual or physical) objects in the mixed and augmented reality scene;d) providing ways to spatially associate aforementioned physical objects with the corresponding target objects (virtual or physical) in the mixed and augmented reality scene;e) providing other necessary functionalities and abstractions that will support the dynamic MAR scene description such as event/data mapping, and dynamic augmentation behaviours;f) describing the association between these constructs and the MAR system which is responsible for taking and interpreting this information model and rendering/presenting it out through the MAR display device. -
计算机制图、图像处理和环境数据表示.可扩展三维(X3D).第1部分:结构和基本部件
发布单位:国际组织-国际电工委员会(IX-IEC)
标准状态:现行
标准号:ISO/IEC 19775-1:2023
发布时间:2023-12-20
中标分类:-
国标分类:35.140 信息技术、办公机械 - 计算机图形技术
实施时间:摘要: ISO/IEC 19775-1:2023 Extensible 3D (X3D) defines a software system that integrates network-enabled 3D graphics and multimedia. Conceptually, each X3D application is a 3D time-based space that contains graphic and aural objects that can be dynamically modified through a variety of mechanisms. This document defines the architecture and base components of X3D.The semantics of X3D describe an abstract functional behaviour of time-based, interactive 3D, multimedia information. This document does not define physical devices or any other implementation-dependent concepts ( e.g., screen resolution and input devices). This document is intended for a wide variety of devices and applications, and provides wide latitude in interpretation and implementation of the functionality. For example, this document does not assume the existence of a mouse or 2D display device.Each X3D application:a) implicitly establishes a world coordinate space for all objects defined, as well as all objects included by the application,b) explicitly defines and composes a set of 3D and multimedia objects,c) can specify hyperlinks to other files and applications,d) can define programmatic or data-driven object behaviours,e) can connect to external modules or applications via programming and scripting languages,f) explicitly declares its functional requirements by specifying a profile, andg) can declare additional functional requirements by specifying components. -
计算机制图、图像处理和环境数据表示.环境数据编码规范(EDCS)语言绑定.第5部分:C++
发布单位:国际组织-国际电工委员会(IX-IEC)
标准状态:现行
标准号:ISO/IEC 18041-5:2023
发布时间:2023-12-15
中标分类:-
国标分类:35.140 信息技术、办公机械 - 计算机图形技术
实施时间:摘要: ISO/IEC 18041-5:2023 This document specifies the binding of the application program interface (API) defined in ISO/IEC 18025 to the C++ programming language. -
在中等范围内评定三维成像系统相对距离测量性能的标准试验方法
发布单位:美国-美国材料与试验协会(US-ASTM)
标准状态:现行
标准号:ASTM E2938-15(2023)
发布时间:2023-12-01
中标分类:-
国标分类:35.140 信息技术、办公机械 - 计算机图形技术
实施时间:摘要: 1.1This standard describes a quantitative test method for evaluating the range measurement performance of laser-based, scanning, time-of-flight,3D imaging systemsin the medium range. The term “medium range” refers to systems that are capable of operating within at least a portion of ranges from 2 to 150 m. The term “time-of-flight systems” includes phase-based, pulsed, and chirped systems. The word “standard” in this document refers to adocumentary standardas per TerminologyE284. This test method only applies to 3D imaging systems that are capable of producing apoint cloudrepresentation of a measured target.1.1.1As defined in TerminologyE2544, arangeis the distance measured from the origin of a 3D imaging system to a point in space. This range is often referred to as an absolute range. However, since the origin of many 3D imaging systems is either unknown or not readily measurable, a test method for absolute range performance is not feasible for these systems. Therefore, in this test method, the range is taken to be the distance between two points in space on a line that passes through the origin of the 3D imaging system. Although the error in the calculated distance between these two points is arelative-range error, in this test method when the term range error is used it refers to the relative-range error. This test method cannot be used to quantify the constant offset error component of the range error.1.1.2This test method recommends that the first point be at the manufacturer-specifiedtarget 1 rangeand requires that the second target be on the same side of the instrument under test (IUT) as the first target. Specification oftarget 1 rangeby the manufacturer minimizes the contribution to the relative range measurement error from the target 1 range measurement.1.1.3This test method may be used once to evaluate the IUT for a given set of conditions or it may be used multiple times to better assess the performance of the IUT for various conditions (for example, additional ranges, various reflectances, environmental conditions).1.2The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. SI units are used for all calculations and results in this standard.1.3The method described in this standard is not intended to replace more in-depth methods used for instrument calibration or compensation, and specific measurement applications may require other tests and analyses.1.4This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.Some aspects of the safe use of 3D Imaging Systems are discussed in Practice ASTME2641.1.5This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee. ====== Significance And Use ======4.1This standard provides a test method for obtaining the range error for medium-range 3D imaging systems. The results from this test method may be used to evaluate or to verify the range measurement performance of medium-range 3D imaging systems. The results from this test method may also be used to compare performance among different instruments.4.2The range performance of the IUT obtained by the application of this test method may be different from the range performance of the IUT under some real-world conditions. For example, object geometry, texture, temperature and reflectance as well as vibrations, particulate matter, thermal gradients, ambient lighting, and wind in the environment will affect the range performance.4.3The test may be carried out for instrument acceptance, warranty or contractual purposes by mutual agreement between the manufacturer and the user. The IUT is tested in accordance with manufacturer-supplied specifications, rated conditions, and technical documentation. This test may be repeated for anytarget 2 rangewithin the manufacturer’s specifications and for any rated conditions.4.4For the purposes of understanding the behavior of the IUT and without warranty implications, this test may be modified as necessary to characterize the range measurement performance of the IUT outside the manufacturer’s rated conditions, but within the manufacturer’s limiting conditions.4.5The manufacturer may provide different values for the specifications for different sets of rated conditions, for example, better range measurement performance might be specified under a set of more restrictively rated environmental conditions. The user is advised that the IUT’s performance may differ significantly in other modes of operation or outside the rated conditions and should inquire with the manufacturer for specifications of the mode that best represents the planned usage. If a target other than that described in Section7, or if procedures other than those described in Section8are used, additional analysis not covered in this test method may be required. -
超声波试验方法无损评价中数字成像和通信的标准实施规程(DICONDE)
发布单位:美国-美国材料与试验协会(US-ASTM)
标准状态:现行
标准号:ASTM E2663-23
发布时间:2023-06-15
中标分类:-
国标分类:19.100 试验 - 无损检测
35.140 信息技术、办公机械 - 计算机图形技术
实施时间:摘要: 1.1This practice covers the interoperability of ultrasonic imaging equipment by specifying image data transfer and archival storage methods in commonly accepted terms. This document is intended to be used in conjunction with PracticeE2339. PracticeE2339defines an industrial adaptation of NEMA PS3 / ISO 12052 (DICOM, see http://medical.nema.org), an international standard for image data acquisition, review, transfer, and archival storage. The goal of PracticeE2339, commonly referred to as DICONDE, is to provide a standard that facilitates the display and analysis of NDE test results on any system conforming to the DICONDE standard. Toward that end, PracticeE2339provides a data dictionary and set of information modules that are applicable to all NDE modalities. This practice supplements PracticeE2339by providing information object definitions, information modules, and data dictionary that are specific to ultrasonic test methods.1.2This practice has been developed to overcome the issues that arise when analyzing or archiving data from ultrasonic test equipment using proprietary data transfer and storage methods. As digital technologies evolve, data must remain decipherable through the use of open, industry-wide methods for data transfer and archival storage. This practice defines a method where all the ultrasonic technique parameters and test results are communicated and stored in a standard format regardless of changes in digital technology.1.3This practice does not specify:1.3.1A testing or validation procedure to assess an implementation's conformance to the standard.1.3.2The implementation details of any features of the standard on a device claiming conformance.1.3.3The overall set of features and functions to be expected from a system implemented by integrating a group of devices each claiming DICONDE conformance.1.4Although this practice contains no values that require units, it does describe methods to store and communicate data that do require units to be properly interpreted. The SI units required by this practice are to be regarded as standard. No other units of measurement are included in this standard.1.5This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.1.6This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee. ====== Significance And Use ======5.1Personnel that are responsible for the creation, transfer, and storage of ultrasonic test results will use this standard. This practice defines a set of information modules that, along with PracticeE2339and the DICOM standard, provides a standard means to organize ultrasonic test parameters and results. The ultrasonic test results may be displayed and analyzed on any device that conforms to this standard. Personnel wishing to view any ultrasonic inspection data stored in DICONDE format may use this document to help them decode and display the data contained in the DICONDE compliant inspection record. -
涡流(EC)试验方法无损评价(DICONDE)中数字成像和通信的标准实施规程
发布单位:美国-美国材料与试验协会(US-ASTM)
标准状态:现行
标准号:ASTM E2934-23
发布时间:2023-06-15
中标分类:-
国标分类:19.100 试验 - 无损检测
35.140 信息技术、办公机械 - 计算机图形技术
实施时间:摘要: 1.1This practice covers the interoperability of eddy current imaging and data acquisition equipment by specifying the image data transfer and archival storage in commonly accepted terms. This document is intended to be used in conjunction with PracticeE2339on Digital Imaging and Communication in Nondestructive Evaluation (DICONDE). PracticeE2339defines an industrial adaptation of NEMA PS3 / ISO 12052, an international standard for image data acquisition, review, storage, and archival storage. The goal of PracticeE2339, commonly referred to as DICONDE, is to provide a standard that facilitates the display and analysis of NDE results on any system conforming to the DICONDE standard. Toward that end, PracticeE2339provides a data dictionary and a set of information modules that are applicable to all NDE modalities. This practice supplements PracticeE2339by providing information object definitions, information modules, and a data dictionary that are specific to eddy current test methods.1.2This practice has been developed to overcome the issues that arise when analyzing or archiving data from eddy current test equipment using proprietary data transfer and storage methods. As digital technologies evolve, data must remain decipherable through the use of open, industry-wide methods for data transfer and archival storage. This practice defines a method where all the eddy current technique parameters and inspection data are communicated and stored in a standard manner regardless of changes in digital technology.1.3This practice does not specify:1.3.1A testing or validation procedure to assess an implementation's conformance to the standard,1.3.2The implementation details of any features of the standard on a device claiming conformance, or1.3.3The overall set of features and functions to be expected from a system implemented by integrating a group of devices each claiming DICONDE conformance.1.4Units—Although this practice contains no values that require units, it does describe methods to store and communicate data that do require units to be properly interpreted. The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.1.5This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.1.6This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee. ====== Significance And Use ======5.1Personnel that are responsible for the creation, transfer, and storage of eddy current NDE test results will use this standard. This practice defines a set of information modules that, along with PracticeE2339and the DICOM standard, provide a standard means to organize eddy current test parameters and results. The eddy current examination results may be displayed or analyzed on any device that conforms to the standard. Personnel wishing to view any eddy current examination data stored according to PracticeE2339may use this document to help them decode and display the data contained in the DICONDE compliant inspection record. -
信息技术计算机图形学、图像处理和环境数据表示混合和增强现实内容的信息模型核心对象和属性
发布单位:国际组织-国际标准化组织(IX-ISO)
标准状态:现行
标准号:ISO/IEC 3721:2023
发布时间:2023-09-22
中标分类:-
国标分类:35.140 信息技术、办公机械 - 计算机图形技术
实施时间:摘要: This document specifies the information model for representing the mixed and augmented reality (MAR) scene/contents description, namely, information constructs for:a)?representing the virtual reality scene graph and structure such that a comprehensive range of mixed and augmented reality contents can also be represented;b)?representing physical objects in the mixed and augmented reality scene targeted for augmentation;c)?representing physical objects as augmentation to other (virtual or physical) objects in the mixed and augmented reality scene;d)?providing ways to spatially associate aforementioned physical objects with the corresponding target objects (virtual or physical) in the mixed and augmented reality scene;e)?providing other necessary functionalities and abstractions that will support the dynamic MAR scene description such as event/data mapping, and dynamic augmentation behaviours;f)?describing the association between these constructs and the MAR system which is responsible for taking and interpreting this information model and rendering/presenting it out through the MAR display device. -
信息技术.计算机制图、图像处理和环境数据表示.智能城市的表示和可视化指南
发布单位:国际组织-国际标准化组织(IX-ISO)
标准状态:现行
标准号:ISO/IEC TS 5147:2023
发布时间:2023-07-14
中标分类:-
国标分类:35.140 信息技术、办公机械 - 计算机图形技术
实施时间:摘要: This document specifies guidelines for the representation and visualization of smart cities. This document:describes the concepts of a smart city, smart city object and smart city data,describes categories of data associated with smart cities,provides guidance for representation of smart cities,describes guidance for visualization of smart cities,provides guidance in selecting the appropriate representation and visualization technique for different categories of smart city data using standards, andprovides use cases for applying standards to the representation and visualization of smart cities. -
信息技术计算机图形学、图像处理和环境数据表示混合和增强现实的风格表示
发布单位:国际组织-国际标准化组织(IX-ISO)
标准状态:现行
标准号:ISO/IEC 21145:2023
发布时间:2023-09-22
中标分类:-
国标分类:35.140 信息技术、办公机械 - 计算机图形技术
实施时间:摘要: This document specifies:1)?Constructs for representing and specifying various augmentation and presentation styles. While augmentations can be in modalities other than the visual (e.g. aural, haptic), this work addresses the visual augmentation style only.2)?A model for how to associate the stylization constructs to the augmentation objects. Specifically, the MAR behavior object in ISO/IEC 3721 is extended for this purpose.3)?Other miscellaneous functionalities and abstractions that support the stylization of augmentation objects. -
信息技术.计算机制图、图像处理和环境表示.混合和增强现实中的传感器表示
发布单位:韩国-韩国标准(KR-KS)
标准状态:现行
标准号:KS X ISO/IEC 18038-2023
发布时间:2023-04-21
中标分类:-
国标分类:35.140 信息技术、办公机械 - 计算机图形技术
实施时间:摘要: 이 표준은 3D 혼합 현실 세계에 포함시킬 물리적 센서의 표현 모델을 정의한다. 또한 물리적 센서의 3D 모델링, 렌더링, 시뮬레이션, 인터페이스를 정의한다. 그리고 3D 혼합 현실 표준의 전체 범위에 적용할 수 있는 물리적 센서의 원리, 개념, 기능을 정의한다. 이 표준은 다음과 같은 내용을 포함한다. -
信息技术.计算机制图、图像处理和环境数据表示.混合和增强现实(MAR)中的现场演员和实体表示
发布单位:韩国-韩国标准(KR-KS)
标准状态:现行
标准号:KS X ISO/IEC 18040-2023
发布时间:2023-04-21
中标分类:-
国标分类:35.140 信息技术、办公机械 - 计算机图形技术
实施时间:摘要: 이 표준은 혼합 증강 현실(MAR) 세계에 포함시킬 라이브 행위자와 실체 (LAE: live actor and entity)를 위한 표현 모델의 적용범위와 주요 개념을 정의한다. 관련 용어와 정의와 일반화된 시스템 아키텍처는 모두 MAR 애플리케이션, 구성요소, 시스템, 서비스 그리고 명세를 위한 기준 모델로 사용한다. 이 표준은 MAR 장면에서 LAE 표현과 렌더링 그리고 MAR 장면에서 LAE와 객체 간의 상호작용 인터페이스를 정의한다. 또한 현재와 미래 MAR 표준의 전체 범위에 적용할 수 있는 LAE에 대한 원리, 개념과 기능의 집합을 정의한다. 이러한 기준 모델은 필요한 모듈과 최소 기능의 집합, 관련 정보 내용 그리고 적합한 MAR 시스템이 제공하거나 지원해야 하는 정보 모델을 수립한다. 이 표준은 다음과 같은 내용(이에 국한되지 않음)을 포함한다. -
16.[标准] 政府网站集约化平台 数据接口规范发布单位:
中国-山西省地方标准(CN-DB14)
标准状态:现行
标准号:DB14/T 2545-2022
发布时间:2022-09-30
中标分类:L81 电子元器件与信息技术 - 信息处理技术 - 计算机图形
国标分类:35.140 信息技术、办公机械 - 计算机图形技术
实施时间:2022-12-30
摘要: 本文件规定了政府网站的信息资源库、信息资源元数据、信息资源编码规则、信息资源对接等内容。本文件适用于省、市、县(区)政府网站集约化平台的建设 -
17.[标准] 政府网站集约化平台 网页设计规范发布单位:
中国-山西省地方标准(CN-DB14)
标准状态:现行
标准号:DB14/T 2544-2022
发布时间:2022-09-30
中标分类:L81 电子元器件与信息技术 - 信息处理技术 - 计算机图形
国标分类:35.140 信息技术、办公机械 - 计算机图形技术
实施时间:2022-12-30
摘要: 本文件规定了政府网站集约化平台网页设计的原则和要求。本文件适用于省、市、县(区)政府网站集约化平台的建设 -
18.[标准] 游戏角色制作文件管理规范发布单位:
中国-团体标准(CN-TUANTI)
标准状态:现行
标准号:T/SHDSGY 098-2022
发布时间:2022-11-25
中标分类:-
国标分类:35.140 信息技术、办公机械 - 计算机图形技术
实施时间:2022-11-25
摘要: 主要技术内容:本文件规定了游戏角色制作文件管理的总则、文件形成与收集、文件命名、文件检查、截图整理及递交。本文件适用于游戏角色制作文件的管理 -
19.[标准] 动漫贴图设计技术规范发布单位:
中国-团体标准(CN-TUANTI)
标准状态:现行
标准号:T/SHDSGY 176-2022
发布时间:2022-11-30
中标分类:-
国标分类:35.140 信息技术、办公机械 - 计算机图形技术
实施时间:2022-11-30
摘要: 主要技术内容:本文件规定了动漫贴图设计的术语和定义、贴图分类、一般要求、贴图流程、设计检验、设计验证。本文件适用于动漫贴图的设计和制作 -
20.[标准] 游戏角色制作技术规范发布单位:
中国-团体标准(CN-TUANTI)
标准状态:现行
标准号:T/SHDSGY 097-2022
发布时间:2022-11-25
中标分类:-
国标分类:35.140 信息技术、办公机械 - 计算机图形技术
实施时间:2022-11-25
摘要: 主要技术内容:本文件规定了游戏角色模型制作的软件要求、高模制作要求、头发制作要求、低模制作要求、LOD制作、UV制作和贴图制作。本文件适用于游戏角色的制作