EN ISP 11185-11:1995

SLOVENSKI STANDARD
SIST EN ISP 11185-11:1997
01-december-1997
Information technology - International Standardized Profiles FVT2nn - Virtual
Terminal Basic Class - Register of control object type definitions - Part 11: FVT232
- Paged FEPCO (Field Entry Pilot Control Object) No.1 (ISO/IEC ISP 11185-11:1994)
Information technology - International Standardized Profiles FVT2nn - Virtual Terminal
Basic Class - Register of control object type definitions - Part 11: FVT232 - Paged
FEPCO (Field Entry Pilot Control Object) No.1 (ISO/IEC ISP 11185-11:1994)
Informationstechnik - Internationale Profilnorm FVT2nn - Virtuelles Terminal Grundstufe -
Verzeichnis der Definitionen von Kontrollobjekttypen - Teil 11: FVT232 - Kontrollobjekt
zur Behandlung von Feldeingaben im Seitenbetrieb Nr.1 (ISO/IEC ISP 11185-11:1994)
Technologies de l'information - Profils normalisés internationaux FVT2nn - Classe de
base de terminal virtuel - Registre de définitions de type d'objet de commande - Partie
11: FVT 232 - Page FEPCO (Objet de commande pilote d'entrée de zone) no 1 (ISO/IEC
ISP 11185-11:1994)
Ta slovenski standard je istoveten z: EN ISP 11185-11:1995
ICS:
35.100.05 9HþVORMQHXSRUDEQLãNH Multilayer applications
UHãLWYH
SIST EN ISP 11185-11:1997 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN ISP 11185-11:1997

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SIST EN ISP 11185-11:1997

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SIST EN ISP 11185-11:1997

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SIST EN ISP 11185-11:1997
INTERNATIONAL
ISO/IEC
STANDARDIZED
PROFILE
11185-11
First edition
1994-10-01
Information technology - International
Standardized Profiles FVT2nn - Virtual
Terminal Basic Class
- Register of control
Object type definitions -
Part 11:
FVT232 - Paged FEPCO (Field Entry Pilot
Control Object) No. 1
Technologies de I ’informa tion - Profils normalk& in terna tionaux
FVT2nn
- Classe de base de terminal virtuel - Registre de definitions
de type d ’objet de commande -
Partie 11: FVr232 - Page FEPCO (objet de commande pilote d ’entke
de Zone) no 1

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SIST EN ISP 11185-11:1997
lSO/IEC ISP 1118511: 1994(E)
Contents
. . .
Ill
Foreword. .
iv
.................................................
Introduction
Scope .
..............................................
1.1 General
...............................
1.2 Position within the taxonomy
..............................................
1.3 Scenario
3
.......................................
Normative references
................................................
Definitions
..................................
3.1 General OSI terminology
...........................
3.2 Terminology of VT base Standards
............................
3.3 Terminology of VT-user structure
..........................
3.4 Terminology of controlled data entry
.......................
3.5 Definitions of value types and properties
5
.............................................
Abbreviations
5
........................
Principles of conformance to VT Profiles
6
..............................................
Entrynumber
6
.................................
Name of sponsoring authority
6
Date .
6
Identifier .
6
IO Descriptor value . . , , , . , , , , . , . . . . . . . . . . . . . . . , . . . . . . . . . . . . . .
6
11 CO Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . , . . . . . . . .
6
.............................
12 CO values, Syntax and semantics
6
.....................................
12.1 The VT-user model
8
................................
12.2 Local processing function
9
12.3 FEPCO structure .
9
........................................
12.4 FEE definitions
i0
12.5 FEC definitions .
IO
12.6 FER definitions .
14
........................................
12.7 UpdateSyntax
14
........................................
12.8 Initial Content
15
13 Additional information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
15
14 Usage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
16
ANNEX A ISPICS Requirements List .
16
A.l Protocol requirements .
16
A.2 Profile-specific requirements .
0 ISO/IEC 1994
All rights reserved. No part of this publication may be reproduced or utilized in any form or by
any means, electronie or mechanical, including photocopying and microfilm, without Permission
in writing from the publisher.
ISO/IEC Copyright Office l Case Postale 56 l CH-121 1 Geneve 20 l Switzerland
Printed in Switzerland

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SIST EN ISP 11185-11:1997
0 ISO/lEC
ISO/IEC ISP 1118541: 1994(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, lSO/IEC JTCl. In addition to developing International Standards, lSO/IEC
JTCI has created a Special Group on Functional Standardization for the elaboration
of International Standardized Profiles.
An International Standardized Profile is an internationally agreed, harmonized document
which identifies a Standard or group of Standards, together with Options and
Parameters, necessary to accomplish a function or set of functions.
Draft International Standardized Profiles are circulated to national bodies for voting.
Publication as an International Standardized Profile requires approval by at least 75%
of the national bodies casting a vote.
International Standardized Profile ISO/IEC ISP 11185-11 was prepared with the
collaboration of
- OSI Asia-Oceania Workshop (AOW);
- European Workshop for Open Systems (EWOS);
- Open Systems Environment Implementors Workshop (OIW).
This International Standardized Profile lSO/IEC ISP 11185 forms an International
Register of information objects in accordance with the procedures for the Operation of
OSI Registration Authorities laid down in lSO/IEC 9834. lt is issued in Parts, with
additional Parts being issued as further entries are added to the register. Esch part is
prepared in accordance with an approval and maintenance process laid down by the
Special Group on Functional Standardization of lSO/IEC JTCl, Information technology.
lSO/IEC ISP 11185 is issued under the general title Information technology -
International Standardized Profiles M2nn - Vjrtuai Terminal Basic Ciass - Register
of controi Object type definitions. At present the following Parts are published or are
in the course of preparation:
Part 1: M211, M212 - Sequenced and Unsequenced Appijcation
Controi Objects
Part 2: M213, M214 - Sequenced and Unsequenced Terminal Controi
Objects
Part 3: M215, M216 - Appikation RIO Record Losding Controi Object,
Terminal RIO Record Notjfjcatjon Controi Object
Part 4: M217 - Horizontal Tabuiatjon Controi Object
Part 5: M218 - Logicai Image Controi Object
Part 6: M219 - Status Message Controi Object
Part 7: M2110 - Entry-Controi Controi Object
Part 8: M221 - Forms FEiCO (Fjeld Entry instruction Controi Object) No.1
Part 9: M222 - Paged FEICO (Fjeld Entry instruction Controi Object) No.1
Part 10: M231 - Forms FEPCO (Fjeld Entry Pilot Controi Object) No.1
Part 11: M232 - Paged FEPCO (Fjeld Entry Pilot Controi Object) No.1
Part 12: M2116, M2117, M2118, M2119 - Generaijzed Teinet Synch,
Signal, Negotiation and Subnegotjatjon Controi Objects
Part 13: M2111 - Waiting Time Controi Object
Part 14: FV72112 - Printer Controi Object
Part 15: M2113 - Fjeld Definition Management Controi Object
Part 16: M2114 - Terminal Signal Tjties Controi Object
- Heip Text Controi Object
Part 17: M2115
Annex A of this part of lSO/IEC ISP 11185 forms an integral part of this International
Standardized Profile.
. . .
Ill

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SIST EN ISP 11185-11:1997
0 ISO/IEC
lSO/IEC ISP 11185-11: 1994(E)
Introduction
This International Standardized Profile ISO/IEC ISP 11185 is defined within the context
of Functional Standardization, in accordance with the principles specified in lSO/IEC
TR 10000, “Framework and Taxonomy of International Standardized Profiles ”. The
context of Functional Standardization is one part of the Overall field of Information
Technology (IT) standardization activities, covering base Standards, profiles and
registration mechanisms.
The Open Systems Interconnection (OSI) Standard ISO 9040 for the Virtual Terminal
Basic Class Service identifies a requirement for an International Register of VT Control
Object type definitions. Procedures for the Operation of this International Register are
laid down in ISO/IEC 9834-5. This International Standardized Profile provides this
register. The individual entries in this register constitute Interchange Format and
Representation Profiles (F-Profiles) within the framework of lSO/IEC TR 10000.
This part of ISO/IEC ISP 11185 was developed in close cooperation between the three
Regional OSI Workshops, namely the OSE Implementors Workshop (ON) of the
United States, the European Workshop for Open Systems (EWOS) and the OSI Asia-
Oceania Workshop (AOW). lt was developed under the editorship of EWOS. The text
is harmonized between these three Workshops and it has been ratified by the plenary
assemblies of each Workshop.

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SIST EN ISP 11185-11:1997
INTERNATIONAL STANDARDIZED PROFILE @ ‘So ”EC lSO/lEC ISP 1118541: 1994(E)
Information technology - International Standardized
Profiles FVT2nn - Virtual Terminal Basic Class - Register
of control Object type definitions -
Part 11:
FVT232 - Paged FEPCO (Field Entry Pilot Control Object)
No.1
1 Scope interoperability constitutes a Virtual Terminal A-Profile within
the framework of ISO/IEC TR 10000.
1.1 General
The three International Registers of VT information structures
The concept of Profiles for OSI, and the structure of the
and the specifications of VT Application Profiles are each
International Standardized Profiles that document them, are
published as a separate multi-part ISP as follows:
defined in lSO/IEC TR 10000-1. Such Profiles are divided into
a number of different classes and sub-classes. Two of these
- lSO/lEC ISP 11184 is the Register of VTE-profiles;
classes contain sub-classes comprising functions of the
Virtual Terminal Basic Class Service and Protocol specified
- lSO/IEC ISP 11185 is the Register of control Object
in the base Standards ISO 9040 and ISO 9041. These are the
type definitions;
Application Profiles (A-Profiles) and the Interchange Format
and Representation Profiles (F-Profiles).
- lSO/IEC ISP 11186 is the Register of assignment-type
definitions;
The relationship between A-Profiles and F-Profiles is
described in 7.3.2 of ISO/IEC TR 10000-1 and is as follows.
- ISO/IEC ISP 11187 contains the specifications of VT
Application Layer base Standards require, implicitly or
Application Profiles.
explicitly, the structure of information carried or referenced by
them to be specified for each instance of communication. lt
This part of ISO/IEC ISP 11185 contains the type definition of
is the purpose of F-Profiles to specify such information
a Field Entry Pilot Control Object that provides substantial
structures. Particular functional requirements may then be
facilities during data entry for local processing under
met by the combination of an A-Profile with one or more F-
application control. lt is intended for use in form-filling, text
Profiles.
editing and similar applications during a VT-association in S-
mode (synchronous mode) Operation. The delegation of
Establishment of a VT-association involves the selection by
such processing to the terminal end System may reduce
negotiation of a particular Virtual Terminal Environment Profile
significantly the demands placed on the communication
(VI-E-Profile), and of particular values for any arguments of
network and the application process, and may substantially
that VI-E-Profile. The VTE-Profile specification, and possibly
improve the reaction time to users’ actions.
also the values of certain VI-E-Profile arguments, may in turn
reference the definitions of VT control Object types and
1.2 Position within the taxonomy
assignment types. These VTE-profiles, control Object types
and assignment types are thus information structures that
The taxonomy of International Standardized Profiles for OSI
require explicit reference within the VT protocol. Particular
is laid down in lSO/IEC TR 10000-2. Within the classification
instances of these structures are fully defined within the base
scheme of this taxonomy, the OSI Profiles specified in this
Standards, but the base Standards also provide for further
International Standardized Profile are in the Virtual Terminal
instances to be defined by registration. Esch registered
Registered Object sub-class of the class of Interchange
instance constitutes an F-Profile within the framework of
Format and Representation Profiles.
ISO/IEC TR 10000.
A Profile within this subclass has a Profile identifier of the
The Virtual Terminal Basic Class Service and Protocol may
form FVT&c, where abc is a structured numerical identifier
be used to realise a wide range of distinct functions.
that identifies the Position of the Profile within each of the
Particular functions may be realised through the selection of
appropriate VT functional units, F-Profiles and other VTE- three levels of subdivision of the subclass. The values of a
Profile argument values. The specification of the selection and b are Single digits but c is an integer that is not
required to realise a particular function and to promote necessarily a Single digit.
1

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SIST EN ISP 11185-11:1997
0 ISO/IEC
ISO/IEC ISP 11185-11: 1994(E)
In principle the ISO Virtual Terminal model allows for multiple
classes of Operation, although at the time of publication of
this International Standardized Profile only the Basic Class
has been defined. The value of the identifier component a
distinguishes between distinct types of information Object as
follows:
- a=
1 for Basic Class VTE-profiles;
Conceptual Communbtlon Area
-a = 2 for Basic Class Control Objects;
a = 3 for Basic Class Assig nment Types.
Values of a greater than 3 are reserved for future Figure 1 - Confrol objects in the VT Service model
developments.
This International Standardized Profile ISO/IEC ISP 11185
Structure Definition (DSD) component of the CCA contains
contains the specifications of the Profiles with identifiers of
the Syntax of its information content, including the range of
the form FVT2bc. For this form of identifier, the component
possible values and the permitted update operations. The
b distinguishes between the five major classifications of Basic
current value of its information content is contained in the
Class Control Objects as follows:
Control, Signal and Status store (CSS) component. Updates
to the current value take place through the issue of VT
- bz
1 for Miscellaneous Control Objects;
Service primitives by one VT-user to the service-provider.
Changes of state of the CCA are made accessible through
- b = 2 for Field Entry Instruction Control Objects;
the issue of VT Service primitives by the service-provider to
the peer VT-User.
- b = 3 for Field Entry Pilot Control Objects;
By clause 14 of ISO 9040, COS enable VT-users to handle
b = 4 for Reference Information Objects;
control information related to virtual terminal functions and to
real devices. This control is exercised by the VT-users
- b = 5 for Termination Conditions Control Objects.
through semantics associated with the information content
and with the update operations of the CO. Definition of the
Esch of these classifications corresponds to a sub-register
semantics, or specification of the Source of the semantics if
under the procedures of lSO/lEC 9834-5. The identifier
the semantic details are not fully prescribed, forms part of the
component c is the serial number of the control Object type
registered definition of the CO. These semantics are not
in the appropriate sub-register. Values of b greater than 5 are
however sf concern to the VT service-provider itself. The
reserved for new classifications of Basic Class Control
DSD will contain an ASN.l Object identifier that identifies the
Objects that may be defined in future amendments Po ISO
registered definition, but the VT service-provider merely acts
9040.
as a repository of this value. lt is only the VT-user that
requires knowledge of the registered definition.
This part of ISO/IEC ISP 11185 contains the definition of
the Field Entry Pilot Control Object type with the Profile
NOTE 1 - The VTE-Parameter values that determine the Syntax of
identifier
the information content may not be negotiated explicitly during
association establishment. Moreover, in the case of non-parametric
FVT232 - Paged FEPCO (Field Entry Pilot Control
COS these values do not determine the details of the Syntax. Such
Object) No. 1
values and details form part of the registered definition of the CO.
Since the VT service-provider is not required to have knowledge of
1.3 Scenario
this registered definition, in principle the VT-users provide the VT
service-provider with such information through local management
The specification of the Virtual Terminal Service is given in
procedures. Whether or not this is necessary in practice depends on
ISO 9040. lt is based on a model in which two VT-users the configuration of the implernentations concerned.
communicate by means of a shared Conceptual
The control Object type defined in this part of lSO/IEC
Communication Area (CCA) that is a conceptual part sf the
ISP 11185 assumes an asymmetry between the two
VT service-provider. Information exchange is modelled by
one VT-user updating the content of the CCA and the communicating end Systems. One end System is assumed
changed state of the CCA then being made accessible to the to have a terminal role and to contain devices for the input
peer VT-User. and display of data and for signalling. These devices form
part of the VT-user component of that end System. The other
Control objects (COS) form one of the types of information end System is assumed to have an application role and to
Object that may be present in the CCA. This is illustrated in
contain an application package that the terminal end System
desires to access.
figure 1, in which CO-l, CO-2, . . . CO-IJ represent a number
of different control objects present in the CCA. The
negotiation during establishment of a VT-association will This control Object is intended for use in S-mode
determine whether or not these will include a control Object (synchronous mode) Operation only. In S-mode Operation
of the type whose definition is given in this patt of ISO/IEC
such asymmetry is recognised by the VT Service in
ISP 11185.
accordance with 19.3.2 of ISO 9040. One VT-user is
designated as the Terminal VT-User, the other as the
The CCA is structured by the Virtual Terminal Service into a Application VT-User, and the two do not have equal access
number of components. For a control Object the Data to the functions of the VT Service.
2

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SIST EN ISP 11185-11:1997
0 ISO/IEC ISO/IEC ISP 11185-11: 1994(E)
A control Object of the type defined in this part of lSO/lEC ISP given in this part of lSO/IEC ISP 11185 is expressed in terms
of this model.
11185 is a Field Entry Pilot Control Object (FEPCO) as
defined in 20.3.5 of ISO 9040. The content of a FEPCO is an
Esch VTPM is permitted to store updates to its CCA before
array of records known as Field Entry Pilot Records (FEPRs)
onward delivery, in accordance with the data transfer
that may be referenced by a Field Definition Record (FDR).
mechanisms of annex A of ISO 9041-1. These mechanisms
Such reference determines reactions that should occur in
permit storage both for updates that result from the reception
response to specified events that may occur during data
of Service primitives and for those that result from the
entry. Provision is available for reactions to be conditional on
reception of protocol elements. The combined effect of these
the internal state of the VT-user at the time that the event
mechanisms in both VTPMs is to implement the delivery
occurs.
control mechanisms of ISO 9040. But the effect of such
storage is that the content of the two CCAs may differ from
The definition of a FEPCO type specifies the events that it
one another and that neither need correspond to the CCA of
recognises and the conditions and reactions which may be
the VT Service model. The CCA of each VTPM should
used in the construction of a FEPR. The event definitions
properly be regarded as an incompletely updated copy of the
may make use of properties of a field, including Validation
true CCA of the VT service-provider.
rules for data entry, that are determined by one or more Field
Entry Instruction COS (FEICOs) present in the VTE and
For certain types of control Object the abstract Syntax of ISO
referenced by the FDR of the field. A FEICO type suitable for
9041-1 does not provide a complete specification for the
use with the event definitions of this FEPCO type is defined
representation of CO update operations. This arises where
in ISO/IEC ISP 11185-9.
the abstract Syntax of ISO 9041-1 makes use of an ASN.1 any
type, or where symbolic values have to be encoded in terms
The reactions permitted by a FEPCO may be recursive in that
of an ASN.1 integer type. Control Object type definitions are
they may include the generation of further events to be
required by ISO/IEC 9834-5 to provide the necessary
processed in accordance with other FEPRs. These features
refinement of the abstract Syntax.
permit powerful local processing capabilities to be specified
by an Application VT-user for Operation by the Terminal VT-
NOTE 2 - Since an abstract Syntax is made available for use
user without further confirmation. through its inclusion in a presentation context, and since the
Presentation service-provider has no knowledge of control Object
type definitions, in principle the VT-users provide the Presentation
The VT service-provider may store updates received from
service-provider with these refinements to the abstract Syntax through
one VT-user before delivery to the peer VT-user in
local management procedures. Whether or not this is necessary in
accordance with the delivery control mechanisms of
practice depends on the configuration of the implernentations
clause 24 of ISO 9040. So although the model of the
concerned.
VT Service is expressed in terms of a Single shared CCA, at
any instant the various elements of the two communicating
end Systems may have differing knowledge of its current 2 Normative references
content.
The following documents contain provisions which, through
reference in this text, constitute provisions of this part of
Terminal Ap IkatSon
en CP System
end System lSO/lEC ISP 11185. At the time of publication, the editions
indicated were valid. All documents are subject to revision,
and Parties to agreements based on this International
VT-user B
Standardized Profile are warned against automatically
applying any more recent editions of the documents listed
below, since the nature of references made by ISPs to such
documents is that they may be specific to a particular edition.
Members of IEC and ISO maintain registers of currently valid
International Standards and ISPs, and CClll maintains
published editions of its current Recommendations.
r
ISO 7498:1984, Information processing Systems - Open
v-r Protocol
Systems Interconnection - Basic Reference Model.
ISO/TR 8509: 1987, Information processing Systems - Open
Systems Interconnection - Service conventions.
Figure 2 - Control objects in the VT Protocol model
ISO 8822:1988, Information processing Systems - Open
Systems Interconnection - Connection orientedpresentation
This Variation in knowledge extends within the VT service-
Service definition.
provider itself. The Virtual Terminal Protocol specification
given in ISO 9041-1 models the VT service-provider in terms
lSO/IEC 8824: 1990, Information technology - Open Systems
of protocol exchange between two Virtual Terminal Protocol Interconnection - Specification of Abstract Syntax Notation
Machines (VTPMs), each with its own CCA. The CCA of
One (ASN. 1).
each VTPM is updated both by Service primitives received
from its own VT-user and by protocol elements received from ISO 9040: 1990, Information technology - Open Systems
the peer VTPM. Corresponding Service primitives and Interconnection - Virtual Terminal Basic Class Service.
protocol elements are issued by the VTPM to provide
ISO 9041-1: 1990, Information technology - Open Systems
notification of changes to the content of its CCA. This is
illustrated in figure 2 in the context of the asymmetric end Interconnection - Vittual Terminal Basic C/ass Protocol-
Systems described above. The control Object type definition Part 1: Specification.
3

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SIST EN ISP 11185-11:1997
0 ISO/IEC
ISO/IEC ISP 1118511: 1994(E)
ISO/lEC 9041-2: 1993, Information technology - Open c) control Object;
Systems Interconnection - Virtual Terminal Basic Class
Protocol - Part 2: Protocol lmplementation Conformance d) device Object;
Statement (PICS) Proforma.
e) display Object;
lSO/IEC 9834-1: 1993, Information technology - Open
9 field;
Systems Interconnection - Procedures for the Operation of
OS/ Registration Authorities - Part 1: Genera/ Procedures.
g) Field Definition Record;
lSO/IEC 9834-5: 1991, Lqformation technology - Open
h) Field Entry Condition;
Systems Interconnection - Procedures for the Operation of
OS/ Registration Authorities - Part 5: Register of VT Control
Field Entry Event;
Object Definitions.
0
j) Field Entry Instruction;
lSO/lEC TR 10000-1: 1992, Information technology -
Framework and taxonomy of International Standardized
k) Field Entry Instruction Record;
Profiles - Part 1: Framework (second edition).
Field Entry Pilot Record;
lSO/IEC TR 10000-2: 1992, Information technology -
1)
Framework and taxonomy of International Standardized
m) Field Entry Reaction;
Profiles - Part 2: Taxonomy of Profi/es (second edition).
n) logical pointer;
3 Definitions
o) Object updating device;
For the purposes of this part of lSO/IEC ISP 11185 the
p) primary attribute;
following definitions apply.
q) rendition attribute;
3.1 General OSI terminology
r) S-mode;
3.1 .l This part of lSO/IEC ISP 11185 makes use of the
following terms defined in ISO/TR 8509:
s) secondary attribute;
a) Service primitive;
t) VT-association;
b) service-provider.
u) VT-environment (VTE);
3.1.2 This part of lSO/IEC ISP 11185 makes use of the
v) Vb-User;
following terms defined in ISO 8822:
w) mE-Parameter;
a) abstract Syntax;
x) VTE-Profile;
b) presentation context.
y) VTE-Profile argument.
3.1.3 This part of lSO/IEC ISP 11185 makes use of the
following terms defined in lSO/IEC 8824:
3.2.2 This part of ISO/IEC ISP 11185 makes use of the
following term defined in ISO 9041-1:
a> any typei
protocol element.
null type;
b)
3.3 Terminology of VT-user structure
c) Object descriptor type;
d) Object identifier. 3.3.1 device control store: A conceptual store containing
abstract objects which represent aspects of the internal state
3.1.4 This part of ISO/IEC ISP 11185 makes use of the of the VT-user that are not associated with a specific Object
following terms defined in ISO/IEC 9834-1: updating device.
3.3.2 device Status store: A conceptual store containing
a) registration;
abstract objects which represent aspects of the state of a
specific Object updating device.
b) registration-hierarchical-name.
3.3.3 external CCA: A conceptual copy of the CCA
3.2 Terminology of VT base Standards
maintained by a VT-user which takes account of all update
operations that either have been received from, or have been
3.2.1 This part of lSO/IEC ISP 11185 makes use of the
issued to, the VT service-provider.
following terms defined in ISO 9040:
3.3.4 interne1 CCA: A conceptual copy of the CCA
a) array element;
maintained by a VT-user which takes account of all update
operations that either have been received from the VT
b) Character-repertoire;
4

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SIST EN ISP 11185-11:1997
0 ISO/IEC
ISO/IEC ISP
...