ISO/IEC 29109-7:2011

INTERNATIONAL ISO/IEC
STANDARD 29109-7
First edition
2011-10-01

Information technology — Conformance
testing methodology for biometric data
interchange formats defined in
ISO/IEC 19794 —
Part 7:
Signature/sign time series data
Technologies de l'information — Méthodologie d'essai de conformité
pour les formats d'interéchange de données biométriques définis dans
l'ISO/CEI 19794 —
Partie 7: Données de série chronologique de signature/signe




Reference number
ISO/IEC 29109-7:2011(E)
©
ISO/IEC 2011

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ISO/IEC 29109-7:2011(E)

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©  ISO/IEC 2011
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ISO/IEC 29109-7:2011(E)
Contents Page
Foreword . iv
Introduction . v
1  Scope . 1
2  Conformance . 1
3  Normative references . 2
4  Terms and definitions . 2
5  Symbols and abbreviated terms . 2
6  Conformance testing methodology . 2
6.1  General . 2
6.2  Table of requirements in the base standard . 2
6.3  Table of Test Assertions – Full Format . 10
6.4  Table of Test Assertions – Compact Format . 21

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ISO/IEC 29109-7:2011(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 drafted in accordance with the rules given in the ISO/IEC Directives, Part 2.
The main task of the joint technical committee is to prepare International Standards. Draft International
Standards adopted by the joint technical committee are circulated to national bodies for voting. Publication as
an International Standard requires approval by at least 75 % of the national bodies casting a vote.
Attention is drawn to the possibility that some of the elements of this document may be the subject of patent
rights. ISO and IEC shall not be held responsible for identifying any or all such patent rights.
ISO/IEC 29109-7 was prepared by Joint Technical Committee ISO/IEC JTC 1, Information technology,
Subcommittee SC 37, Biometrics.
ISO/IEC 29109 consists of the following parts, under the general title Information technology — Conformance
testing methodology for biometric data interchange formats defined in ISO/IEC 19794:
 Part 1: Generalized conformance testing methodology
 Part 2: Finger minutiae data
 Part 3: Finger pattern spectral data
 Part 4: Finger image data
 Part 5: Face image data
 Part 6: Iris image data
 Part 7: Signature/sign time series data
 Part 8: Finger pattern skeletal data
 Part 9: Vascular image data
 Part 10: Hand geometry silhouette data
 Part 11: Signature/sign processed dynamic data
 Part 13: Voice data
 Part 14: DNA data
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ISO/IEC 29109-7:2011(E)
Introduction
ISO/IEC 19794-7 specifies two data interchange formats for storing, recording, and transmitting signature/sign
time series data records. This part of ISO/IEC 29109 establishes tests for checking the correctness of the
binary records.
Without standardized methods for conducting conformance tests of commercial products that claim to support
ISO/IEC 19794-7, application developers and implementers of Biometric Service Providers can interpret the
ISO/IEC 19794-7 specification differently and this can compromise interoperability. This possibility rests on the
assertion that conformance to ISO/IEC 19794-7 is a necessary prerequisite for achieving interoperability
among implementations. This is the motivation for development of this conformance testing methodology.
This part of ISO/IEC 29109 supports those applications that require use of signature/sign time series data
according to ISO/IEC 19794-7. It defines a testing methodology to assure conformance of a vendor's
application or service to the base ISO/IEC 19794-7 specification. Thus this document is intended to
 establish elements of the conformance testing methodology framework that are specific to the signature/
sign time series-based data record requirements of ISO/IEC 19794-7,
 define requirements and guidelines for specifying conformance test suites and related test methods for
measuring conformity of products and services to the signature/sign time series-based data record
requirements of ISO/IEC 19794-7, and
 define test procedures to be followed before, during, and after conformance testing.
This part of ISO/IEC 29109 is applicable to the development and use of conformity test method specifications,
conformity test suites for ISO/IEC 19794-7 records, and conformance testing programs for ISO/IEC 19794-7
conformant products. It is intended primarily for use by testing organizations, but can be applied by developers
and users of test method specifications and test method implementations.
The tables of test assertions in Clause 6 specify levels of testing for the conformance requirements of
ISO/IEC 19794-7.

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INTERNATIONAL STANDARD ISO/IEC 29109-7:2011(E)

Information technology — Conformance testing methodology
for biometric data interchange formats defined in
ISO/IEC 19794 —
Part 7:
Signature/sign time series data
1 Scope
This part of ISO/IEC 29109 specifies elements of conformance testing methodology, test assertions, and test
procedures as applicable to ISO/IEC 19794-7. ISO/IEC 19794-7 defines two data interchange formats for
signature/sign time series data, one for general use and one compact format for use with smart cards and
other tokens.
This part of ISO/IEC 29109 establishes
 test assertions of the structure of both signature/sign time series data formats as specified in
ISO/IEC 19794-7 (Type A Level 1 as defined in ISO/IEC 29109-1),
 test assertions of internal consistency by checking the types of values that may be contained within each
field (Type A Level 2 as defined in ISO/IEC 29109-1), and
 test assertions on the contents of data records in the signature/sign time series data formats as specified
in ISO/IEC 19794-7 (Type A Level 3 as defined in ISO/IEC 29109-1).
This part of ISO/IEC 29109 does not establish
 tests of other characteristics of biometric products or other types of testing of biometric products (e.g.
acceptance, performance, robustness, security), and
 tests of conformance of systems that do not produce ISO/IEC 19794-7 records.
2 Conformance
Biometric data interchange format conformance tests conform to this part of ISO/IEC 29109 if they satisfy all
of the normative requirements related to Clause 6. Specifically, they shall use the test methodology specified
in Clauses 6, 7 and 8 of ISO/IEC 29109-1:2009, and all tests shall use the assertions defined in Table 2 to
Table 4.
Implementations of ISO/IEC 19794-7 tested according to the methodology specified shall be able to claim
conformance only to those requirements specified in ISO/IEC 19794-7 that are tested by the test methods
established by this methodology.
Implementations of ISO/IEC 19794-7 do not necessarily need to conform to all possible aspects of
ISO/IEC 19794-7, but only to those ISO/IEC 19794-7 requirements that are claimed to be supported by the
implementation in an Implementation Conformance Statement, filled out in accordance with Clause 8 of
ISO/IEC 29109-1:2009 and Table 1 of this part of ISO/IEC 29109.
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ISO/IEC 29109-7:2011(E)
3 Normative references
The following referenced documents are indispensable for the application of this document. For dated
references, only the edition cited applies. For undated references, the latest edition of the referenced
document (including any amendments) applies.
ISO/IEC 19794-7:2007, Information technology — Biometric data interchange formats — Part 7:
Signature/sign time series data
ISO/IEC 29109-1:2009, Information technology — Conformance testing methodology for biometric data
interchange formats defined in ISO/IEC 19794 — Part 1: Generalized conformance testing methodology
4 Terms and definitions
For the purposes of this document, the terms and definitions given in ISO/IEC 19794-7 and ISO/IEC 29109-1
apply.
5 Symbols and abbreviated terms
For the purposes of this document, the symbols and abbreviated terms given in ISO/IEC 19794-7 and
ISO/IEC 29109-1 apply.
6 Conformance testing methodology
6.1 General
The testing methodology specified in Clauses 6, 7 and 8 of ISO/IEC 29109-1:2009 shall apply. The content of
the tables below is based on the conformance testing methodology outlined in ISO/IEC 29109-1 and shall only
be used in the context of that testing methodology.
6.2 Table of requirements in the base standard
The normative requirements of ISO/IEC 19794-7:2007 signature/sign time series data formats are listed in
Table 1. Under subformat applicability the columns labelled F and C indicate the Full and Compact Formats. The
supplier of the IUT can explain which optional components of the standard are supported and the testing
laboratory can note the results of the test.
Table 1 — Requirements of the base standard, ISO/IEC 19794-7:2007
Subformat
Reference
Require- IUT Supported Test
Applicability
in Base Requirement Summary Level Status
ment ID Support Range Result
Standard
F C
R-1 5.1 The coordinate system used to express 3B M Y Y
the pen position shall be a three-
dimensional Cartesian coordinate
system.
R-2 5.1 The x-axis shall be the horizontal axis of 3B M Y Y
the writing plane, with x coordinates
increasing to the right.
R-3 5.1 The y-axis shall be the vertical axis of 3B M Y Y
the writing plane, with y coordinates
increasing upwards.

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ISO/IEC 29109-7:2011(E)
Table 1 (continued)
Subformat
Reference
Require- IUT Supported Test
Applicability
in Base Requirement Summary Level Status
ment ID Support Range Result
Standard
F C
R-4 5.1 The z-axis shall be the axis 3C O Y Y
perpendicular to the writing plane, with z
coordinates increasing upwards out of
the writing plane starting from 0.
R-5 5.2 The more significant octets of any 1 M Y Y
multioctet quantity are stored at lower
addresses in memory than (and are
transmitted before) less significant
octets.
R-6 7.2 The organisation of the BDB shall be as 2 M Y N
follows:
R-7 1. mandatory variable-length BDB 2 M Y N
header containing information about the
overall BDB,
R-8 2. mandatory variable-length BDB body. 2 M Y N
R-9 7.3.1 The BDB header shall contain infor- 2 M Y N
mation about the overall signature/ sign
time series data block.
R-10 7.3.2 The signature/sign time series data 1 M Y N
block shall begin with the three ASCII
characters “SDI” to identify the data
block as following the full format defined
in ISO/IEC 19794-7:2007, followed by a
zero octet as a string terminator (5344
4900 ).
Hex
R-11 7.3.3 The version number for the version of 1 M Y N
ISO/IEC 19794-7:2007 used in
constructing the signature/sign time
series data block shall be placed in four
octets. This version number shall
consist of three ASCII characters
followed by a zero octet as a string
terminator. The first and second
character shall represent the major
revision number and the third character
will represent the minor revision
number. The version number shall be
“10” (203130 , an ASCII space
Hex
followed by an ASCII ‘1’ and an ASCII
‘0’).
R-12 7.3.4.1 The channel descriptions field shall 1 M Y N
begin with a channel inclusion field
indicating the presence or absence of
channels. The channel inclusion field
shall consist of 2 octets. Each bit shall
correspond to a channel as shown in
Table 4 of ISO/IEC 19794-7:2007. A bit
value of 1 shall encode the presence of
the corresponding channel; a bit value
of 0 shall encode the absence of the
corresponding channel.

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ISO/IEC 29109-7:2011(E)
Table 1 (continued)
Subformat
Reference
Require- IUT Supported Test
Applicability
in Base Requirement Summary Level Status
ment ID Support Range Result
Standard
F C
R-13 7.3.4.2 The channel inclusion field shall be 2 M Y N
followed by a sequence of channel
descriptions for the channels indicated
as present in the channel inclusion
field. The order of the channel
descriptions is determined by the order
of indicated inclusion within the
channel inclusion field (Table 4 of
ISO/IEC 19794-7:2007) starting with
the X channel. The channel
descriptions are mandatory for all
channels present in the signature/sign
time series data block.
R-14 7.3.4.2 Each channel description shall begin 2 M Y N
with a preamble. Each channel
description preamble shall consist of 1
octet. Each of the bits 4 through 8 of a
channel description preamble shall
correspond to a channel attribute as
shown in Table 5 of
ISO/IEC 19794-7:2007. A bit value of 1
shall encode the presence of the
corresponding channel attribute; a bit
value of 0 shall encode the absence of
the corresponding channel attribute. A
value of 1 for bit 3 of a channel
description preamble shall indicate that
the value of this channel is constant. If
bit 3 of a channel description preamble
is set to 1, then this channel shall be
absent in the BDB body even though
the BDB header indicates the presence
of the channel. If the channel
description contains a scaling value,
then the constant value of this channel
shall be 1 divided by the scaling value.
A value of 1 for bit 2 of a channel
description preamble shall indicate that
the linear component of the regression
line for this channel has been removed
from this channel. If any of the bits 4
through 8 of a channel description pre-
amble are set to 1, the preamble shall
be followed by a sequence of channel
attributes in the same order as
indicated in the preamble starting with
the scaling value.
R-15 7.3.4.3 If present, scaling values shall consist 2 M Y N
of 2 octets. The 5 most significant bits
of the first octet shall constitute the
exponent field and the remaining
11 bits shall constitute the fraction field.
These values should be encoded in 5
bits as an unsigned integer after
adding a value of 16.

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ISO/IEC 29109-7:2011(E)
Table 1 (continued)
Subformat
Reference
Require- IUT Supported Test
Applicability
in Base Requirement Summary Level Status
ment ID Support Range Result
Standard
F C
R-16 7.3.4.3, The channel values in the BDB body 3B M Y Y N/A
8.2.2.3 as well as the minimum, maximum,
and mean channel values and the
standard deviation in the BDB header
are to be divided by the corresponding
scaling value to obtain their actual
values.
R-17 7.3.4.4 If present, the minimum and maximum 2 M Y N
possible channel values shall indicate
the scaled range of values that the
deployed capture device may deliver
for the corresponding channel.
R-18 For the minimum and maximum 2 M Y N
possible channel values of the Z, T,
DT, F, Az, El, and R channels, integer
values in the range from 0 to 65535 are
allowed. These values shall be
encoded in 2 octets as unsigned
integers.
R-19 For the minimum and maximum 2 M Y N
possible channel values of the X, Y,
VX, VY, AX, AY, TX, and TY channels,
integer values in the range from –
32768 to 32767 are allowed. These
values shall be encoded in 2 octets as
unsigned integers after adding 32768
to each value.
R-20 7.3.4.5 If present, the mean value of the 2 M Y N
channel values shall be the arithmetic
mean, rounded to the nearest integer,
of all values for the corresponding
channel within a signature/sign time
series data block. If present, the
standard deviation of the channel
values shall be the standard deviation,
rounded to the nearest integer, of all
values for the corresponding channel
within a signature/sign time series data
block.
R-21 7.3.4.5 For the mean values of the Z, T, DT, F, 2 M Y N
Az, El, and R channels as well as for
the standard deviations of all channels,
integer values in the range from 0 to
65535 are allowed. These values shall
be encoded in 2 octets as unsigned
integers. For the mean values of the X,
Y, VX, VY, AX, AY, TX, and TY
channels, integer values in the range
from -32768 to 32767 are allowed.
These values shall be encoded in 2
octets as unsigned integers after
adding 32768 to each value.
R-22 7.3.5 A single octet shall be reserved for 2 M Y N
future revisions of this specification.
For Version 1.0 of
ISO/IEC 19794-7:2007 this octet shall
be set to 00 .
Hex
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ISO/IEC 29109-7:2011(E)
Table 1 (continued)
Subformat
Reference
Require- IUT Supported Test
Applicability
in Base Requirement Summary Level Status
ment ID Support Range Result
Standard
F C
R-23 7.4.1 The BDB body shall begin with a pre- 1 M Y N
amble indicating the presence or
absence of the optional extended data.
The preamble shall consist of 1 octet.
A value of 1 in bit 8 (MSB) of the
preamble shall encode the presence of
the extended data; a value of 0 in bit 8
(MSB) of the preamble shall encode
the absence of the extended data. The
trailing bits of the preamble shall have
the value 0.
R-24 7.4.2 The BDB body preamble shall be 1 M Y N
followed by a sequence of sample
points (cf. clause 7.4.2) and, as
indicated in the preamble, optional
extended data (cf. clause 7.4.3).
R-25 7.4.2 The sequence of sample points shall 2 M Y N
begin with a length field. The length
field indicates the number of sample
points. The length field shall consist of
3 octets, representing the number of
sample points as an unsigned integer.
R-26 7.4.2 The length field shall be followed by a 2 M Y N
sequence of fields for subsequent
sample points. For each sample point,
the field shall begin with a value for the
mandatory X channel, followed by a
value for the mandatory Y channel and
a sequence of optional channel values
as indicated by the channel inclusion
field in the BDB header.
R-27 7.4.2 For the Z, T, DT, F, Az, El, and R 2 M Y N
channels, integer values in the range
from 0 to 65535 are allowed. These
values shall be encoded in 2 octets as
unsigned integers.
R-28 7.4.2 For the X, Y, VX, VY, AX, AY, TX, and 2 M Y N
TY channels, integer values in the
range from –32768 to 32767 are
allowed. These values shall be
encoded in 2 octets as unsigned
integers, after adding 32768 to each
value. Hence, for non-negative num-
bers, bit 8 of the most significant octet
has the value 1; for negative numbers,
bit 8 of the most significant octet has
the value 0. For decoding these values,
32768 is to be subtracted from each
recorded value.
R-29 7.4.2 For the S channel, integer values in the 2 M Y N
range from 0 to 1 are allowed. These
values shall be encoded in one octet
as unsigned integers.

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ISO/IEC 29109-7:2011(E)
Table 1 (continued)
Subformat
Reference
Require- IUT Supported Test
Applicability
in Base Requirement Summary Level Status
ment ID Support Range Result
Standard
F C
R-30 7.4.2 The extended data field shall begin 2 M Y N
with a length field. The length field shall
indicate the number of contents octets
in the extended data field. The length
field shall consist of 2 octets,
representing the number of subsequent
contents octets as an unsigned integer.
R-31 8.2.1 If present, the matching algorithm 1 M N Y
parameters data object tag is B1 . Its
Hex
length shall be encoded following the
Distinguished Encoding Rules of
ASN.1 defined in ISO/IEC 8825-1.
R-32 8.2.2.1 If present, the sequence of channel 1 M N Y
descriptions shall begin with a channel
inclusion field as defined in clause
7.3.4.1 of ISO/IEC 19794-7:2007.
R-33 8.2.2.2 The channel inclusion field shall be 1 M N Y
followed by a sequence of channel
descriptions for the channels indicated
as present in the channel inclusion
field. The order of the channel
descriptions is determined by the order
of indicated inclusion within the
channel inclusion field (19794-7:2007
Table 4) starting with the X channel.
The channel descriptions are manda-
tory for all channels present in the
signature/sign time series data block.
R-34 Each channel description shall begin 1 M N Y
with a preamble as defined in clause
7.3.4.2 of ISO/IEC 19794-7:2007.
R-35 If any of the bits 4 through 8 of a 1 M N Y
channel description preamble are set
to 1, the preamble shall be followed by
a sequence of channel attributes in the
same order as indicated in the
preamble starting with the scaling
value.
R-36 8.2.2.3 If present, the meaning and encoding 2 M N Y
of the scaling values shall be as
defined in clause 7.3.4.3 of
ISO/IEC 19794-7:2007.
R-37 8.2.2.4 If present, the meaning of the minimum 2 M N Y
and maximum possible channel values
shall be as defined in clause 7.3.4.4 of
ISO/IEC 19794-7:2007.
R-38 For the minimum and maximum 2 M N Y
possible channel values of the Z, T,
DT, F, Az, El, and R channels, integer
values in the range from 0 to 255 are
allowed. These values shall be
encoded in 1 octet as unsigned
integers.

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ISO/IEC 29109-7:2011(E)
Table 1 (continued)
Subformat
Reference
Require- IUT Supported Test
Applicability
in Base Requirement Summary Level Status
ment ID Support Range Result
Standard
F C
R-39 For the minimum and maximum 2 M N Y
possible channel values of the X, Y,
VX, VY, AX, AY, TX, and TY channels,
integer values in the range from –128
to 127 are allowed. These values shall
be encoded in 1 octet as un-signed
integers after adding 128 to each
value. Hence, for non-negative
numbers, bit 8 of the most significant
octet has the value 1; for negative
numbers, bit 8 of the most significant
octet has the value 0. For decoding
these values, 128 is to be subtracted
from each recorded value.
R-40 8.2.2.5 If present, the meaning of the mean 2 M N Y
value and of the standard deviation of
the channel values shall be as defined
in clause 19794-7:2007 7.3.4.5.
R-41 For the mean values of the Z, T, DT, F, 2 M N Y
Az, El, and R channels as well as for
the standard deviations of all channels,
integer values in the range from 0 to
255 are allowed. These values shall be
encoded in 1 octet as unsigned
integers.
R-42 For the mean values of the X, Y, VX, 2 M N Y
VY, AX, AY, TX, and TY channels,
integer values in the range from -128 to
127 are allowed. These values shall be
encoded in 1 octet as unsigned inte-
gers after adding 128 to each value.
Hence, for non-negative numbers, bit 8
of the most significant octet has the
value 1; for negative numbers, bit 8 of
the most significant octet has the value
0. For decoding these values, 128 is to
be subtracted from each recorded
value.
R-43 8.2.3 If there is an upper limit to the number 2 M N Y
of sample points, the maximum
number of sample points that the
comparison algorithm is able to
process may be indicated in the
matching algorithm parameters data
object. If present, the maximum
number of sample points shall be
encoded as an unsigned integer.

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ISO/IEC 29109-7:2011(E)
Table 1 (continued)
Subformat
Reference
Require- IUT Supported Test
Applicability
in Base Requirement Summary Level Status
ment ID Support Range Result
Standard
F C
R-44 8.4 The body of a signature/sign time 1 M N Y
series data block consists of a
sequence of fields, each of which
consists of a sequence of channel
values at a particular sample point, for
subsequent sample points. For each
sample point, the field shall begin with
a value for the mandatory X channel,
followed by a value for the mandatory
Y channel, and a sequence of optional
channel values as indicated by the
channel inclusion field in the matching
algorithm parameters data object.
R-45 8.4 For the Z, T, F, Az, El, and R channels, 2 M N Y
integer values in the range from 0 to
255 are allowed. These values shall be
encoded in 1 octet as unsigned
integers. In the compact format, the T
channel shall contain time data relative
to the preceding sample.
R-46 8.4 For the X, Y, VX, VY, AX, AY, TX, and 2 M N Y
TY channels, integer values in the
range from –128 to 127 are allowed.
These values shall be encoded in 1
octet as unsigned integers after adding
128 to each value. Hence, for non-
negative numbers, bit 8 has the value
1; for negative numbers, bit 8 has the
value 0. For decoding these values,
128 is to be subtracted from each
recorded value.
R-47 8.4 For the S channel, integer values in the 2 M N Y
range from 0 to 1 are allowed. These
values shall be encoded in one octet
as unsigned integers.
R-48 8.3 The tag of a signature/sign time series 2 M N Y
data block shall be 5f2e if there is no
Hex
extended data and 7f2e if there is
Hex
also extended data.
R-49 8.3 The length of a signature/sign time 2 M N Y
series data block shall be encoded
following the Distinguished Encoding
Rules of ASN.1 defined in ISO/IEC
8825-1.
R-50 8.3 If there is extended data, the body of a 1 M N Y
signature/sign time series data block
shall be preceded by the tag 81 and
Hex
a length field.
R-51 8.3 If there is extended data, it shall follow 1 M N Y
the body of a signature/sign time series
data block and shall be preceded by
the tag 82 or A2 and a length
Hex Hex
field.

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ISO/IEC 29109-7:2011(E)
6.3 Table of Test Assertions – Full Format
The specific test assertions required for conformance testing of ISO/IEC 19794-7:2007 signature/sign time
series full format for data interchange are listed in Table 2.
The conformance test assertions are listed in the order in which the corresponding fields, if present, are
required to appear in a conforming data record.
Table 2 — ISO/IEC 19794-7:2007 full format test assertions
Op- IUT Sup- Test
Require- Test
Test Section Level Field era- Operands Status Sup- ported Re-
ment ID Note
tor port Range sult
1 BDB R-10 1 Format identifier EQ 53444900  M
Hex
Header
2 BDB R-11 1 Version EQ 20313000  M
Hex
Header
3.1 BDB R-12 1 xIncluded EQ 1 M
Bin
Header
3.2 BDB R-12 1 yIncluded EQ 1 M
Bin
Header
3.3 BDB R-12 1 zIncluded EQ 0 , 1 M
Bin Bin
Header
3.4 BDB R-12 1 vXIncluded EQ 0 , 1 M
Bin Bin
Header
3.5 BDB R-12 1 vYIncluded EQ 0
...