Information technology - Coding of audio-visual objects - Part 4: Conformance testing AMENDMENT 6: Advanced Video Coding conformance

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Scope 1.1 This Standard applies to apparatus, including apparatus intended for professional use, that is used to transmit, receive, and process electronic signals and signals of vocal, musical, or visual origin, and which is not necessarily under the

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4.1 Assuming the vehicle stays on its path and an obstacle appears within the stop zone, the vehicle will collide with the obstacle. Even within the stop zone, obstacle detection should cause the vehicle to slow down as early as possible using non-contact sensing or contact bumpers. ANSI/ITSDF B56.5:2012 discusses a test method to detect standard test pieces beyond the minimum vehicle stopping distance at 50 % and 100 % of vehicle rated speeds.4.2 This test method can apply to A-UGVs for testing obstacle-sensing capabilities and automatic guided industrial vehicles in automatic mode of operation in non-restricted areas as described in ANSI/ITSDF B56.5.4.3 Researchers2, 3 used two-dimensional (2D) laser detection and ranging (LADAR) sensors mounted to an A-UGV. In contrast to the earlier experiments in which the test piece was static, in these experiments the A-UGV and the test piece were both moving. The 2D sensor was mounted to the A-UGV to scan horizontally with the beam approximately 10 cm (4 in.) above and parallel to the floor and confined to detecting the vehicle path (vehicle width) at the maximum stopping distance (coasting or braking). Note that the sensor scan width can be set to any width, including the ANSI/ITSDF B56.5 standard, non-hazard zone vehicle path width of the vehicle plus 0.5 m (1.6 ft). The test piece entered the A-UGV path within the exception zone, was detected by the safety sensor, and the distance of the test piece to the A-UGV and the A-UGV stopping distance measurements were calculated and analyzed.1.1 This test method measures an automatic/automated/autonomous-unmanned ground vehicle (A-UGV) kinetic energy reduction when objects appear in the A-UGV path and within the stop-detect range of the vehicle safety sensors in situations in which the desired reaction is for the vehicle to stop as opposed to avoiding the obstacle by traveling on an alternative path. The test method measures the performance of the A-UGV only and does not measure the effect on the stability of loads. This test method describes the use of one test piece as described in ANSI/ITSDF B56.5. Other test pieces from ANSI/ITSDF B56.5 could be used. This test method is intended for use by A-UGV manufacturers, installers, and users. This test method does not substitute for required safety testing under ANSI/ITSDF B56.5 or other normative standards.1.2 Performing Location—This test method shall be performed in a testing laboratory or the location where the apparatus and environmental test conditions are implemented. Environmental conditions are recorded as specified in Practice F3218.1.3 Units—The values stated in SI units are to be regarded as the standard. The values given in parentheses are not precise mathematical conversion to inch-pound units. They are close approximate equivalents for the purpose of specifying material dimensions or quantities that are readily available to avoid excessive fabrication costs of test apparatuses while maintaining repeatability and reproducibility of the test method results. These values given in parentheses are provided for information only and are not considered standard.1.4 This 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.1.5 This 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.

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1.1 Scope 1.1.1 This International Safety Standard applies to electronic apparatus designed to be fed from the MAINS, from a SUPPLY APPARATUS, from batteries or from REMOTE POWER FEEDING and intended for reception, generation, recording or reproductio

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Amendment 1:2006 to CAN/CSA-C22.2 No. 60065-03, Audio, Video and Similar Electronic Apparatus - Safety Requirements (Adopted Amendment 1:2005 to CEI/IEC 60065:2001) | Modification 1:2006 à CAN/CSA-C22.2 no 60065-03, Appareils audio, vidéo et appareils éle

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1.1 This practice covers the flexible fiberoptic and video endoscopes that are fully immersible in liquid and are used in the examination of the hollow viscera (that is, colonoscopes, gastroscopes, duodenoscopes, and sigmoidoscopes). These endoscopes will be referred to as flexible gastrointestinal (GI) endoscopes. 1.2 This practice is intended to complement, not replace the instructions and labeling provided by product manufacturers. Endoscope manufacturers must provide instructions and labeling necessary for users to know the basic design, specifications, nomenclature, and components of specific flexible GI endoscopes and to properly inspect, prepare, use, clean, disinfect, rinse, dry, and store these instruments. 1.3 Endoscopic technique and the medical aspects of gastrointestinal endoscopy are not covered in this practice. 1.4 This practice details the steps necessary to properly reprocess flexible GI endoscopes and render them patient-ready. 1.5 A patient-ready endoscope is one that has been rendered visibly clean after being subjected to a validated cleaning procedure, subjected minimally to a high-level disinfection process, and rinsed so that it does not contain residual reprocessing chemicals in amounts which can be harmful to humans. 1.5.1 It is recognized that in some circumstances, portions of endoscopes that neither contact patients directly nor contact fluids that may contact patients probably do not have to be subjected to high-level disinfection. 1.6 This practice details manual reprocessing as well as automated reprocessing of flexible GI fiberoptic and video endoscopes. 1.7 The application of all practices relating to endoscopic reprocessing will ultimately fall into the purview of the individual assigned to that task in an endoscopic area. 1.7.1 To ensure the proper adherence to this practice, those personnel should themselves meet certain requirements as specified in 4.8. 1.8 This practice does not detail the steps necessary for the reprocessing of endoscopic accessories. 1.9 This 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 and health practices and determine the applicability of regulatory limitations prior to use. Specific precautionary statements are given in Notes 1 and 2.

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This PDF includes Technical Corrigendum 2

1 Scope

This document specifies ITU-T Recommendation H.264 | ISO/IEC
International Standard ISO/IEC 14496-10 video coding.

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Information technology - Coding of audio-visual objects - Part 15: Advanced Video Coding (AVC) file format AMENDMENT 1: Support for FRExt

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本标准规定了只读类光盘DVD-Video的常规检测参数适用于只读类光盘DVD-Video产品的主要质量参数检测

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