GB/T 29261.3-2012 English PDF

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GB/T 29261.3-2012: Information technology -- Automatic identification and data capture (AIDC) techniques -- Vocabulary -- Part 3: Radio-frequency identification
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Standard ID	USD	BUY PDF	Lead-Days	Standard Title (Description)	Status
GB/T 29261.3-2012	509	Add to Cart	4 days	Information technology -- Automatic identification and data capture (AIDC) techniques -- Vocabulary -- Part 3: Radio-frequency identification	Valid

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Basic data

Standard ID: GB/T 29261.3-2012 (GB/T29261.3-2012)
Description (Translated English): Information technology -- Automatic identification and data capture (AIDC) techniques -- Vocabulary -- Part 3: Radio-frequency identification
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: L70
Classification of International Standard: 01.040.35; 35.040
Word Count Estimation: 22,240
Adopted Standard: ISOIEC 19762-3-2008, NEQ
Regulation (derived from): National Standards Bulletin No. 41 of 2012
Issuing agency(ies): General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China
Summary: This standard specifies the automatic identification and data capture techniques in the field of radio frequency identification terminology and definitions. This section applies to the field of radio frequency identification for non-professional users and

GB/T 29261.3-2012: Information technology -- Automatic identification and data capture (AIDC) techniques -- Vocabulary -- Part 3: Radio-frequency identification

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Information technology - Automatic identification and data capture (AIDC) techniques - Vocabulary - Part 3.Radio-frequency identification ICS 01.040.35;35.040 L70 National Standards of People's Republic of China Information technology automatic identification and data collection technology Vocabulary Part 3.Radio Frequency Identification 2012-12-31 released 2013-06-01 implementation General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China Issued by China National Standardization Administration

Table of contents

Foreword Ⅰ 1 Scope 1 2 Entry classification 1 3 Terms and definitions 1 4 Abbreviations 9 Reference 10 Index 11

Foreword

GB/T 29261 "Vocabulary of Information Technology Automatic Identification and Data Collection Technology" is divided into the following five parts. ---Part 1.Automatic identification data collection; ---Part 2.Optically readable media; ---Part 3.Radio Frequency Identification; ---Part 4.Radio communications; ---Part 5.Positioning system. This part is Part 3 of GB/T 29261. This section was drafted in accordance with the rules given in GB/T 1.1-2009. This section uses the redrafting method and refers to the international standard ISO /IEC 19762-3.2008 "Automatic Information Technology Identification and Data Acquisition Harmonized Vocabulary Part 3.Radio Frequency Identification" is compiled, and the degree of consistency with ISO /IEC 19762-3.2008 is not equivalent. Please note that certain contents of this document may involve patents. The issuing agency of this document is not responsible for identifying these patents. This part is proposed and managed by the National Information Technology Standardization Technical Committee (SAC/TC28). Drafting organizations of this section. China Electronic Technology Standardization Institute, China Article Coding Center, Beijing University of Posts and Telecommunications. The main drafters of this section. Wang Wenfeng, Geng Li, Feng Jing, Xia Dina, Hong Weijun, Wang Lijian, Gao Lin, Li Shufang, Zhao Chen, Wang Yi, Yan Ruoyun, Liu Xiaodong. Information technology automatic identification and data collection technology Vocabulary Part 3.Radio Frequency Identification

1 Scope

This part of GB/T 29261 specifies the specific terms and definitions of radio frequency identification in the field of automatic identification and data acquisition technology. Headquarters It is suitable for non-professional users and experts in the radio frequency identification field to communicate.

2 Item classification

The numbering system format adopted by GB/T 29261 is nn.nn.nnn, where the first two numbers (nn.nn.nnn) represent the "top level" and its value 01 means universal to all automatic identification and data acquisition technologies, 02 means universal to all optically readable media, 03 means one-dimensional bar code, 04 stands for two-dimensional bar code, 05 stands for radio frequency identification, 06 stands for general radio terminology, 07 stands for real-time positioning system, 08 stands for moving objects Product identification management. The two numbers in the middle (nn.nn.nnn) represent "middle level", and its value is 01 for basic concepts or data, and 02 for technology Attribute, 03 stands for symbol, 04 stands for hardware, 05 stands for application. The following two or three numbers (nn.nn.nnn) indicate the order of a term The "segment" of the column. The “top layer” number value of the label (nn.nn.nnn) used in this part of GB/T 29261 is 05.

3 Terms and definitions

05.01.01 Radio Frequency Identification In the radio frequency part of the spectrum, electromagnetic coupling or inductive coupling is used to communicate with radio frequency tags through various modulation and coding schemes. A technology to read the identity of a radio frequency tag. 05.01.02 Backscatter The radio frequency tag modulates and re-radiates (transmits) the response signal of the same carrier frequency to respond to the reader signal or electromagnetic field. in In this process, the narrowband energy from the reader is reflected back to the reader, and the reflected energy varies with the degree of modulation of the antenna impedance of the radio frequency tag. 05.01.03 Tag identifier Refers to chip identifier, manufacturer tag identifier, or user tag identifier. 05.01.04 Chip identifier A code that uniquely identifies the tag chip defined by the chip manufacturer. 05.01.05 User tag identifier The code of the user-defined identification label. Note. The user tag identifier may not be a unique identifier. 05.01.06 Tag manufacturer tag identifier The code of the identification label defined by the manufacturer. 05.01.07 Application family identifier A mechanism used in data protocols and air interface protocols, which is used to select an application or an aspect related to an application Class RFID tags, and ignore further communication with other types of RFID tags with different identifiers. 05.01.08 Abstract syntax < Open System Interconnection Representation Service> Specification of application layer data or application protocol control information, which uses coding technology independent Notation rules indicate. 05.01.09 Transfer syntax Abstract and concrete syntax used to transfer data between open systems. Note. The term "transmission syntax" is sometimes used to refer to encoding rules and sometimes to the bit representation of data in transmission. 05.01.10 Basic coding rules One of the ASN.1 encoding methods. 05.01.11 Type reference The unique name associated with a feature in the ASN.1 grammar. Example. objectID. 05.01.12 Element name A reference type or part of an enumeration list in the ANS.1 syntax. 05.01.13 Octet An ordered sequence composed of 8 bits, as a unit, is equivalent to an 8-bit byte. Note. In the automatic identification and data acquisition basic technical vocabulary standard and the ASN.1 standard, this term takes precedence over "bytes" to avoid hardware-related Circumstances (for example, 7-bit bytes, 16-bit bytes) confusion. 05.01.14 Object A precisely defined piece of information, definition, or specification. Note. It must have a name to identify its use in the communication instance. 05.01.15 Object identifier A globally unique value associated with the object that unambiguously identifies it. [GB/T 16262.1-2006, definition 3.6.47] 05.01.16 Object identifier type Its value is a simple type of a collection of all object identifiers allocated according to the rules of the standard GB/T 17969 series. Note. The rules of GB/T 17969.1 allow various organizations to independently associate object identifiers with information objects. [GB/T 16262.1-2006, definition 3.6.48] 05.01.17 Relative object identifier relative-OID Identify the value of an object by its position relative to some known object identifier. [GB/T 16262.1-2006, definition 3.6.56] 05.01.18 Root object identifier root-OID The specific object identifiers (hence the common root) that constitute the first, second and subsequent public arcs in the set of object identifiers. Note. The root object identifier plus the relative object identifier equals the complete object identifier. 05.01.19 Arc arc A specific branch of the object identifier tree, when a specific object needs to be defined, a new branch needs to be added. Note. The top three arcs of all object identifiers that comply with ISO /IEC 9834-1.2005 are defined in ISO /IEC 9834-1.2005 Appendix A. 05.02.01 Forward link Downlink The communication channel from the reader to the radio frequency tag. 05.02.02 Reverse link Uplink The communication channel from the radio frequency tag to the reader. 05.02.03 Identify The process of distinguishing radio frequency tags enables the reader to communicate with radio frequency tags uniquely. Note. Application data has not been accessed yet. 05.02.04 The radio frequency tag transaction process of extracting information from the identified radio frequency tag, including single-byte and multi-byte transaction processing. 05.02.05 The radio frequency tag transaction process of storing information into the identified radio frequency tag, including single-byte and multi-byte transaction processing. Note. It should have a verification function. 05.02.06 ask The process of communicating with tags and reading tags. 05.02.07 roaming The ability to move tags from one reader's work area to another reader's work area. 05.02.08 select The reader requires one or more specific radio frequency tags to respond to the reader. 05.02.09 Shade An object between the reader and the radio frequency tag blocked the signal and prevented communication. 05.02.10 Simplification The process of identifying a single RFID tag separately in a multiple RFID environment. 05.02.11 Time slot In an inventory, the time period during which the radio frequency tag may respond. 05.02.12 Label recognition layer Operating procedures A collection of reader functions and commands used to identify and modify tags. 05.02.13 Register The process by which the tag initially establishes contact with the reader. 05.02.14 False activation It is caused by the radio frequency tag that is not the radio frequency identification system enters the identification range of the reader, and the radio frequency tag produces an error or other response. The response of the reader. 05.02.15 Tag family A set of tags, despite having different capabilities, can still transmit ID numbers and/or data with the same reader. 05.02.16 Block The data unit read or written to the radio frequency tag through the air interface is expressed in bytes. 05.02.17 storage A measure of data that can be expressed in bits or bytes, and the data can be stored in the transponder. Note. This measurement may only be related to the user-accessible part or related to all storage, including data identifiers and error control bits. 05.02.18 Addressability The ability to address bits, fields, pages, files, or other defined memory areas within a tag. 05.02.19 Monolithic memory structure Memory addressable by a single addressing element. 05.02.20 Segmented memory structure The memory storage area is divided into multiple independent parts, and multiple addressing elements are required for access. 05.02.21 In-use programming During use, the reader writes data to the label attached to the physical entity. 05.02.22 Reprogramming ability The tag can be changed by a suitable programming device to store data content. 05.02.23 On-site programming When the radio frequency tag is shipped from the manufacturer to the OEM customer or end user, or in some cases, it is shipped to the manufacturer's distribution location. The process of writing data to a tag. Note. On-site programming often occurs before the tag is installed on the object to be identified. This method can write application-related data into the target at any time. Label, but usually remove the label from the object it is attached to. In some cases, it may be necessary to modify or copy all the data in the label. in In some other cases, a certain part of the data area of the label is reserved for factory programming, which may be a unique label serial number. On-site programming Often need write once read many (WORM) and read/write equipment. The data written into the transponder may be a combination of factory programming and field programming. 05.02.24 Factory programming The process of writing data into the label is realized during the manufacturing process. 05.02.25 Read only The data of the transponder is stored in an immutable way, so it can only be read. 05.02.26 Write once and read more The transponder can be programmed once by the user to part or the entire memory, and can only be read thereafter. 05.02.27 Write protection A capability provided in label design that prevents all or part of the label memory from being modified, overwritten or erased. 05.02.28 Data field protection Measures to control access or operation of data fields or data items stored on the transponder. 05.02.29 Application memory User memory The area in the RFID tag that can store the data written to the tag. 05.02.30 Permanently locked The locked state of the storage location cannot be changed. 05.02.31 Persistent memory When the radio frequency tag loses energy for a short time, the state is still maintained. 05.02.32 Continuous flag When the radio frequency tag loses energy for a short time, the status is still maintained. 05.02.33 Data Format The mechanism used in the data protocol to identify how the object identifier is encoded in the radio frequency tag. And (if possible) identify A specific data dictionary for a collection of related object identifiers for the application. 05.02.34 Application command Instructions sent from the application system to the reader to perform one or more operations on the radio frequency tag through the reader. 05.02.35 response The feedback received by the application after sending the application command to the data protocol processor. 05.02.36 Batch read read more The process or ability of a radio frequency identification reader to simultaneously read multiple transponders in the system's reading range. 05.02.37 Interoperability Definition 1.The conditions required for the two-way data exchange function between systems of different manufacturers, so that they can effectively coordinate in some way The same work. Definition 2.A guarantee of a certain level of compatibility between different implementations of the same standard. Note. The expected level of compatibility is specific to a given standard and can be limited to basic services. Interconnection and interoperability are the main goals of standardization. 05.02.38 Signaling technology A complete description of the modulation, data encoding, protocol and timing required for communication between the radio frequency tag and the reader. 05.02.39 Tree algorithm When the reader detects a collision, it searches the available space where the radio frequency tag generates a random number until all the tags are parsed. The deterministic algorithm used. 05.02.40 Reader first talk Only after being instructed by the reader, the radio frequency tag responds with information signals. ......

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