Information technology — Radio frequency identification (RFID) for item management — Data protocol: data encoding rules and logical memory functions

The data protocol used to exchange information in a radio frequency identification (RFID) system for item management is specified in ISO/IEC 15961 and in ISO/IEC 15962:2013. Both International Standards are required for a complete understanding of the data protocol in its entirety; but each focuses on one particular interface: ISO/IEC 15961 addresses the interface with the application system. ISO/IEC 15962:2013 deals with the processing of data and its presentation to the RF tag, and the initial processing of data captured from the RF tag. ISO/IEC 15962:2013 focuses on encoding the transfer syntax, as defined in ISO/IEC 15961 according to the application commands defined in ISO/IEC 15961. The encodation is in a Logical Memory as a software analogue of the physical memory of the RFID tag being addressed by the interrogator. ISO/IEC 15962:2013 defines the encoded structure of object identifiers; specifies the data compaction rules that apply to the encoded data; specifies a Precursor for encoding syntax features efficiently; specifies formatting rules for the data, e.g. depending on whether a directory is used or not; defines how application commands, e.g. to lock data, are transferred to the Tag Driver; specifies processes associated with sensory information and the transfers to the Tag Driver; defines other communication to the application.

Technologies de l'information — Identification par radiofréquence (RFID) pour la gestion d'objets — Protocole de données: règles d'encodage des données et fonctions logiques de mémoire

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Status
Withdrawn
Publication Date
07-Mar-2013
Current Stage
9599 - Withdrawal of International Standard
Completion Date
04-Jan-2022
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ISO/IEC 15962:2013 - Information technology -- Radio frequency identification (RFID) for item management -- Data protocol: data encoding rules and logical memory functions
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INTERNATIONAL ISO/IEC
STANDARD 15962
Second edition
2013-03-15


Information technology — Radio
frequency identification (RFID) for item
management — Data protocol: data
encoding rules and logical memory
functions
Technologies de l'information — Identification par radiofréquence
(RFID) pour la gestion d'ojects — Protocole de données: règles
d'encodage des données et fonctions logiques de mémoire





Reference number
ISO/IEC 15962:2013(E)
©
ISO/IEC 2013

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ISO/IEC 15962:2013(E)

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©  ISO/IEC 2013
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ii © ISO/IEC 2013 – All rights reserved

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ISO/IEC 15962:2013(E)
Contents Page
Foreword . vii
Introduction . viii
1 Scope . 1
2 Normative references . 1
3 Terms, definitions and conventions . 2
3.1 Terms and definitions . 2
3.2 Conventions . 2
4 Conformance . 2
4.1 Conformance with the air interface . 2
4.2 Conformance with the application interface . 2
4.3 Conformance with the Access-Method . 3
5 Protocol model . 4
5.1 Overview . 4
5.2 Layered protocol . 4
5.3 Flexible implementation configurations . 6
5.4 Functional processes – interrogator implementation . 6
5.5 ISO/IEC 15962 and the Data Processor . 9
6 Data and presentation conventions . 9
6.1 Data types in ISO/IEC 15961-1 commands and responses . 10
6.2 Extensible bit vector (EBV) . 10
6.3 Object Identifier presentation in the application interface . 10
6.4 The Object . 12
6.5 The 8-bit byte . 12
6.6 N-bit encoding . 12
7 Data Processor – high level processing . 12
8 Data Processor and the application interface . 13
8.1 Application commands – overview . 13
8.2 Application commands and responses– write . 15
8.3 Application commands and responses– read . 31
8.4 Application commands and responses– other . 40
8.5 Air interface support for application commands . 49
9 Data Processor and the air interface . 49
9.1 Air interface services . 49
9.2 Defining the system information . 50
9.3 Configuring the Logical Memory . 58
10 The Command/Response Unit: processing of command and response arguments . 58
10.1 Process arguments . 59
10.2 Completion-Codes . 71
10.3 Execution-Codes . 74
11 Access-Method . 74
11.1 No-Directory structure . 75
11.2 Directory structure . 77
11.3 Packed-Objects structure . 79
11.4 Tag Data Profile . 80
11.5 Multiple-Records . 80
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ISO/IEC 15962:2013(E)
12 ISO/IEC 15434 direct encoding and transmission method using Access-Method 0 and
Data-Format 3 .86
12.1 General rules for ISO/IEC 15434 direct encoding .86
12.2 Specific support for ISO TC122 standards .87
13 Monomorphic-UII encoding .87
13.1 6-bit encoding .88
13.2 7-bit encoding .88
13.3 URN Code 40 encoding .88
13.4 8859-1 octet encoding .89
13.5 Application-defined 8-bit coding .89
Annex A (informative) Air interface support for application commands .90
A.1 Overview .90
A.2 ISO/IEC 18000-3 Mode 1 support .90
A.3 ISO/IEC 18000-6 Type C support .91
A.4 ISO/IEC 18000-6 Type D support .93
Annex B (normative) Pro forma description for the Tag Driver .96
B.1 Defining the Singulation-Id .96
B.2 System information : AFI .96
B.3 System information: DSFID .96
B.4 Memory-related parameters .96
B.5 Support for commands .97
Annex C (normative) ISO/IEC 18000 Tag Driver Descriptions .98
C.1 Tag Driver for ISO/IEC 18000-2: Parameters for air interface communications below
135 kHz .98
C.2 Tag Driver for Mode 1 of ISO/IEC 18000-3: Parameters for air interface communications at
13,56 MHz .99
C.3 Tag Driver for Mode 2 of ISO/IEC 18000-3: Parameters for air interface communications at
13,56 MHz . 101
C.4 Tag Driver for ISO/IEC 18000-4: Parameters for air interface communications at 2,45 GHz -
Mode 1 . 102
C.5 Tag Driver for ISO/IEC 18000-4: Parameters for air interface communications at 2,45 GHz -
Mode 2 . 104
C.6 Tag Driver for ISO/IEC 18000-6 Type A: Parameters for air Interface Communications at
860 MHz to 960 MHz . 104
C.7 Tag Driver for ISO/IEC 18000-6 Type B: Parameters for air Interface Communications at
860 MHz to 960 MHz . 105
C.8 Tag Driver for ISO/IEC 18000-6 Type C: Parameters for air Interface Communications at
860 MHz to 960 MHz . 107
C.9 Tag Driver for ISO/IEC 18000-6 Type D: Parameters for air Interface Communications at
860 MHz to 960 MHz . 108
Annex D (normative) Encoding rules for No-Directory Access-Method . 112
D.1 Object processing. 112
D.2 Encoding the length of the compacted Object . 114
D.3 Processing the Object-Identifier . 114
D.4 Processing the Relative-OID . 116
D.5 Encoding the length and Object-Identifier or Relative-OID . 119
D.6 The Precursor . 120
D.7 The Offset byte . 121
D.8 The Precursor expansion byte . 121
D.9 Decoding the Logical Memory . 122
Annex E (normative) Basic Data Compaction Schemes . 125
E.1 Integer compaction . 125
E.2 Numeric compaction . 125
E.3 5-bit compaction . 126
E.4 6-bit compaction . 126
E.5 7-bit compaction . 127
E.6 Octet encodation . 129
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ISO/IEC 15962:2013(E)
Annex F (normative) ISO/IEC 646 Characters Supported by the Compaction Schemes . 130
Annex G (informative) Encoding example for No-Directory structure . 133
G.1 Starting position . 133
G.2 Encoding the Object-Identifiers . 133
G.3 The initial state of the entry for the Logical Memory . 133
G.4 The Logical Memory after data compaction . 134
G.5 The Logical Memory after formatting for a No-Directory Access-Method . 134
Annex H (informative) Encoding example for Directory structure. 136
H.1 The base data . 136
H.2 Encoding the first Directory entry . 136
H.3 Encoding the second Directory entry . 137
H.4 Encoding the remaining Directory entries . 137
H.5 Decoding the Directory and reading the target Object-Identifier . 138
Annex I (normative) Packed-Objects structure . 139
I.1 Overview . 139
I.2 Overview of associated Annexes . 139
I.3 High-level Packed-Objects format design . 139
I.4 Format Flags section . 142
I.5 Object Info section . 144
I.6 Secondary ID Bits section . 150
I.7 Aux Format section . 150
I.8 Data section . 152
I.9 ID Map and Directory encoding options . 155
Annex J (normative) Packed Objects ID Tables . 161
J.1 Packed Objects Data Format registration file structure . 161
J.2 Mandatory and Optional ID Table columns . 163
J.3 Syntax of OIDs, IDString, and FormatString columns . 166
J.4 OID input/output representation . 168
Annex K (normative) Packed Objects Encoding tables . 170
Annex L (informative) Encoding example for Packed Objects . 175
Annex M (informative) Decoding Packed Objects . 179
M.1 Overview . 179
M.2 Decoding Alphanumeric data . 180
Annex N (normative) Tag Data Profile encoding . 183
N.1 Scope . 183
N.2 The Registered Table . 183
N.3 Encoding the Tag Data Profile on the RFID tag . 184
N.4 Decoding the Tag Data Profile . 186
N.5 Modifying Data . 187
Annex O (normative) Tag Data Profile ID tables . 188
O.1 Tag-Data-Profile Data-Format registration file structure . 188
O.2 File Header section . 189
O.3 Table Header section . 189
O.4 Table Trailer section . 190
O.5 Mandatory ID Table columns . 190
Annex P (informative) Encoding example for Tag Data Profile . 192
P.1 Encoded data segment . 192
P.2 Encoding the header segment . 195
Annex Q (normative) Basic encoding rules for Multiple-Records Access-Method . 196
Q.1 Overview . 196
Q.2 Encoding the Multiple-Records header . 196
Q.3 Encoding the preamble of an individual record that is not part of a hierarchical structure . 200
Q.4 The record . 203
Q.5 The directory . 203
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ISO/IEC 15962:2013(E)
Q.6 Appending a new record . 207
Q.7 Modifying an existing record . 208
Q.8 Deleting an existing record . 208
Q.9 Constructing the Object-Identifier from the MR-header, preamble and individual record . 209
Annex R (normative) Multiple-Records encoding rules for hierarchical records . 212
R.1 Overview . 212
R.2 Encoding the Multiple-Records header . 213
R.3 Encoding the preamble of hierarchical record . 214
R.4 The hierarchical record . 216
R.5 Data element list . 216
R.6 The directory . 218
R.7 Appending a new record . 218
R.8 Modifying an existing record . 218
R.9 Deleting a record . 218
Annex S (informative) Encoding example for the Multiple-Records Access-Method . 219
S.1 The heterogeneous multiple record example . 219
S.2 An encoding example of a homogeneous multiple record . 226
S.3 An encoding example of a hierarchical multiple record . 229
Annex T (normative) ISO/IEC 15434 Direct Encoding and Transmission . 232
T.1 DSFID . 232
T.2 Precursor byte . 232
T.3 Data byte-count indicator . 232
T.4 Encoding and Decoding . 233
T.5 Encoding and Decoding Example using Data Identifiers . 234
T.6 Additional Code Values and other Precursor features . 236
Annex U (informative) ISO/IEC 15434 Direct DI Encoding and Transmission for ISO TC122
Standards . 238
U.1 DSFID . 238
U.2 Precursor byte . 238
U.3 Data byte-count indicator . 238
U.4 Encoding and Decoding . 239
U.5 Encoding and Decoding Example . 241
Annex V (normative) URN Code 40 encoding . 243
V.1 Basic Character Set . 243
V.2 Extended Encoding . 244
V.3 Encoding Example . 245
V.4 Resolver Example . 245
Bibliography . 246

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ISO/IEC 15962:2013(E)
Foreword
ISO (the International Organization for Standardization) and IEC (the International Electrotechnical
Commission) form the specialized system for worldwide standardization. National bodies that are members of
ISO or IEC participate in the development of International Standards through technical committees
established by the respective organization to deal with particular fields of technical activity. ISO and IEC
technical committees collaborate in fields of mutual interest. Other international organizations, governmental
and non-governmental, in liaison with ISO and IEC, also take part in the work. In the field of information
technology, ISO and IEC have established a joint technical committee, ISO/IEC JTC 1.
International Standards are
...

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