DE10120043A1 - Transmitting short message involves connectionless transmission using information element facility in signaling channel based on QSIG standard between telecommunications systems - Google Patents

Abstract

The method involves connectionless transmission of the short message between the first and second telecommunications systems using the information element facility in a signaling channel based on the QSIG standard established between the telecommunications systems. The signaling channel is established after the first user sends a transmit request to the first telecommunications system. AN Independent claim is also included for the following: a telecommunications system for implementing the method.

Description

The invention relates to a method for transmitting a Short message between at least two telecommunication ends advise according to the preamble of claim 1 and a tele nication system according to the preamble of claim 10.

Methods of transmitting short messages are from mobiles radio networks as well as line-bound digital communication on networks, in particular ISDN networks, known. For such Fixed networks, for example, BOSCH developed the proprietary "Minimail" feature, especially for digital telecommunications BOSCH TN1R6 communication terminals. This feature times allowed a participant who be a first terminal uses, sending short messages to one or more other terminal (s).

If a communication network is not based on ISDN, but on the QSIG (signaling at the Q reference point) standard or on the PSS1 (Private Integrated Signaling System Number 1 ) standard, this feature for the transmission of short messages can either not at all or at most be used when the sending and receiving telecommunications terminal are connected to a common telecommunications system.

ISDN is a digital switching technology that transmits everyone technical services (e.g. voice, data, video and fax) integrated into a digital network. ISDN provides an interface to digital services independent of Lei types of use or the use of the line. QSIG or PSS1, on the other hand, designate a signaling method that is described in international and standardized for the European area. Standardization takes place at the international level ISO / IEC and in Europe through ITSI and ECMA, whereby ei mutual harmonization of the standards is sought. QSIG is open to manufacturers of telecommunications systems. It therefore enables in particular the signaling and thus the Communication between telecommunication systems from various those manufacturers, provided that they make telecommunications systems Signal the QSIG standard. QSIG or PSS1 define an ISDN for the participants of a private communication network.

The following standards describe the basic communication at QSIG, the so-called Basic Calls: ETS 300 172 Edition 3 , ISO / IEC 11572 Edition and ECMA 143 3 ^rd Edition. The basic functions of signaling are defined in the standard. Additional functions (called supplementary services in international usage) use the standardized ROSE (Remote Operation Service Element) concept to control them. The ROSE concept defines the environment in order to implement additional functions. The ROSE concept is used for standardized supplementary services, but it is also used to control manufacturer-specific supplementary services. ROSE generally defines five actions:

RO Invoke

An operation is called by this action, i. H. the The operation is carried out at the partner instance, i.e. the tele called communication system or the network node, triggered.  

RO-Result

The positive result of an operation is reported here. H. the operation has been successfully called.

RO Error

This action reports a negative result of an operation, d. H. the operation was not carried out.

RO-Reject U

This action is taken when a request fails rejected by the subscriber using the service becomes.

RO-Reject P

Here is a request from the provider in the event of an error of the service, for example a switching center rejected.

The ROSE protocol elements are created using the FACILITY informa tion element. The FACILITY information element is either with basic messages (messages that connect setup and disconnection control), such as SETUP, ALERT, CON- NECT, PROGRESS or DISCONNECT, or if none Basic messages are available with which to use the message FACILITY. Multiple ROSE protocol elements can be in a FACILITY information element.

Supplementary services and additional features can be set up on the Basic Call using so-called "generic functions", similar to a modular principle. Here, the generic functions signaling protocols for the transport of protocol information, which are part of a supplementary service or a feature (EDI) in the private telecommunications network. The generic functions are described in the following standards: ETS 300 239 Edition 2 , ISO / IEC 11582 Edition 1 and ECMA 165 .

The ROSE actions are mapped onto four protocol elements det. Such protocol elements are called Applica tion Protocol Data Unit (APDU). The four minutes elements are: RO-Invoke, RO-Return-Result, RO-Return-Error and RO-Reject.

If the tele sending and / or receiving the short message communication terminal within a communication network is ordered, which is based on the QSIG standard at least in parts len is based on the previously standardized Supple mentary services or performance features no application of feature previously known on ISDN-based network Minimail.

Accordingly, the present invention is based on the object de, a method of transmitting short messages between at least two telecommunication terminals are available which is the sending and receiving of short messages in communication networks based on the QSIG standard facilitated in many ways. Furthermore, the present Er Find the task of a telecommunications system To provide implementation of the procedure.

On the procedural side, this task is characterized by the characteristics of the contractor claim 1 and device side through the features of the An Proverb 10 solved.

An essential point of the invention is that the short message using the Facility information element in one Signaling channel is transmitted without a connection. This Signaling channel becomes available upon the arrival of a request message from a first terminal to the first telecom  communication system is sent and by means of which the sending a short message (minimail) is requested by the first System to a second telecommunications system built on which connects the terminal receiving the short message is. The short message is then sent via the signal Sationskanal that be designed as a D-channel connection can, from the first to the second system without connection (Call-Oriented-Connection-Independent Signaling) transmitted. By using the D-channel connection there is a transmission a short message between two within one on QSIG Standard based communication network arranged Telekom communication systems that can be assigned to a network node NEN, made possible in a simple manner.

According to a preferred embodiment, the short message after establishing the signaling channel connection within this by means of the basic message SETUP from the first to the second telecommunications system are sent. For this will the information of the minimail (short message) within a newly defined, manufacturer-specific ROSE operation mini Transfer Mail INV using the protocol element RO-Invoke. In this way, the transfer is simple and quick Short message between the plants possible if the first Attaches the request message of the first sending terminal tes to send a short message, answered positively.

As soon as the short message sent to the second, receiving Arrives, depending on the specification of the second plant different answers to the first plant be sent back. If the second system has a reception and further processing of the short message sent is yes, because she facilities for receiving the ROSE operation and for Wei ter processing of the short message, so a Ver loyalty to the first system and a positive confirmation confirmation message sent using the FACILIY message. As well  can send a negative confirmation message to an impossible Further processing of the short message can be sent back.

After receiving such confirmation messages, the ers corresponding attachment confirmation messages to the first sending device to make this a successful or unsuccessful transfer or processing of the minimail display.

However, the second facility is not for reception and Wei processing of the minimail is specified accordingly, so the connection through the second plant terminated for further ver looking for the transmission of the short message by the first tele communication system or the first telecommunications terminal to avoid.

A telecommunications system for performing the fiction According to the procedure, a feature "Minimail QSIG lines "for transmitting short messages in the Signaling channel based on the QSIG standard. By ver a correspondingly defined new ROSE operation if the sending and receiving end devices or to were aligned for the processing of the performance feature are possible in a simple manner. Analog devices can do that Do not process such a feature. Accordingly, the telecommunication terminals that the Use performance feature, trained as digital devices his.

The signaling channel connection can advantageously be a fixed or dial-up connection, or at least partially via QSIG IP gateways as interface systems between communications networks with and / or without a QSIG standard over the Internet leads.  

Further advantageous embodiments result from the Un dependent claims.

Preferred embodiments are based on the following Description and the illustrations explained in more detail. Here zei gene:

Fig. 1 is an illustration of the assignment of Telecommun munication (PINX) according to the invention,

Fig. 2 is a schematic representation of a procedural rensablaufs successfully carrying out transmission of the short message according to a first embodiment of the invention,

Fig. 3 is a schematic representation of a procedural rensablaufs an unsuccessful Runaway led transmission of the short message according to a second embodiment of the invention,

Fig. 4 is a schematic representation of a procedural flow of a non-transmission of the short message with the interruption of all connections according to the third embodiment of the invention and

Fig. 5 shows the individual operations according to the inventive method.

Fig. 1 shows apparatus aspects of the invention. Between a first telecommunications system 1 , hereinafter referred to as the originating system (Originating PINX), and a second telecommunications system 2 , hereinafter referred to as the target system (Terminating PINX), a transport telecommunications system 3 (Transit PINX) is connected, which is used for the onward transport of the between the systems 1 and 2 transmitted messages is provided. A first, a short message-sending (digital) telecommunication terminal 4 is connected to the original system. A second receiving (also digital) telecommunication terminal 5 is connected to the target system 2 . Connections 6 and 7 based on the QSIG standard exist between the individual systems 1 , 2 and 3 .

Fig. 2 shows a schematic representation of the procedural flow of a successful transmission of a short message (minimail information). After a query message arrives at the QSIG line on the part of the first terminal 4 , by means of which the sending of a minimail is requested, the original system 1 establishes a D-channel connection to the system 2 of the second terminal 5 receiving the minimail. The SETUP message used for this already contains the minimail information in a new ROSE operation.

When the SETUP message ( 10 , 11 ) arrives in the target system 2 , a check is carried out to determine whether the target system 2 is equipped for receiving a minimail transmitted by means of the "minimail via QSIG lines" feature and for further processing of the minimail. If the performance feature is supported by the target system and can be processed further, after maintaining the connection (steps 12 , 13 ), the CONNECT 14 , 15 and CONN_ACK 16 and 17 message confirms that the connection is based on the QSIG standard the original plant. The target system then sends a positive confirmation message (positive acknowledgment) in the form of a return result APDU to the original system 1 using the message FACILITY 18 , 19 . This gives a corresponding confirmation message after the arrival of this confirmation message in the system to the sender of the mini mail, namely the sending telecommunication terminal 4 further.

After the confirmation message has been received, the call connection between systems 1 , 2 and 3 is ended by message RELEASE 20 , 21 on the part of system 1 of origin. A confirmation message RELEASE_COMPLETE 22 , 23 is returned in response to the message RELEASE from the target system or the transit system to the original system 1 .

Fig. 3 shows schematically the process flow of a second embodiment of the invention. The same and similar step or messages are designated with the same reference numerals as in Fig. 2. In contrast to the first embodiment shown in FIG. 2 supports the goal of Appendix 2 after receiving the message SETUP 10 and 11 with the new ROSE operation Mini-mail INV Although the term "mini-mail about the QSIG line", but this feature is in the Target system 2 either not activated or cannot be processed further by the receiving second terminal 5 , since this terminal is an analog terminal. Consequently, the objective system 2 responds by sending the CONNECT message 14, 15 and sending back the message CONN_ACK 16, 17 of the Ursprungsanla ge of target plant with a negative acknowledgment message (Ne gativ acknowledgment) as the return Error APDU using the message FACI LIY 24 , 25 This negative confirmation message is passed on from the original system 1 to the sending first terminal 4 . Then, as in the first embodiment of the invention, the connection between the systems 1 , 2 and 3 is ended by the message RELEASE 20 , 21 and REL-COMP 22 and 23 .

Fig. 4 shows a third embodiment of the invention, in which again the same and similar steps or Meldun gene are designated with the same reference numerals. In contrast to the process flows according to the first and second embodiment of the invention, the process flow according to the third embodiment determines after sending the short message by means of the message SETUP 10 , 11 that the target system 2 has the feature "minimail via a QSIG line " unsupported. As a result, the target system 2 ends the signaling channel connection to the transit system 3 by means of the message RELEASE 26 and the transit system 3 ends the connection to the original system 1 by means of the message RELEASE 27 . Both messages are confirmed by the confirmation messages RELEASE_COMPLETE 28 and 29 . These confirmation messages are sent from the original facility 1 to the transit facility 3 and from the transit location 3 to the target facility 2 .

As soon as the RELEASE 27 message arrives at the original system, a corresponding negative confirmation message (negative acknowledgment) is transmitted to the sender, namely the sending first telecommunications terminal 4 , to indicate that the minimail was not accepted by the target system or the target terminal 5 ,

The new ROSE operation is transferred in the Facility information element. For this purpose, the facility information element is sent with the following coding for the network facility extension:
Source entity: EndPINX
DestinationEntity: EndPINX

The facility information element comes with the following code sent for the interpretation APDU: ClearCall.

The individual operations for the method according to the invention can be found in more detail in the table according to FIG. 5.

The implementation of the invention is not based on those described Examples and highlighted aspects are limited but is within the scope of the claims also in a variety of modifications possible that are within the scope of professional action.

LIST OF REFERENCE NUMBERS

1

origin system

2

objective The investment

3

transit system

4

first transmitting telecommunications terminal

5

second receiving telecommunication terminal

6

Connection based on the QSIG standard

7

Connection based on the QSIG standard

10

.

11

Connection message SETUP

12

.

13

Connection message CALL-PROC

14

.

15

Connection message CONNECT

16

.

17

Connection message CONN-ACK

18

.

19

FACILITY message

20

.

21

RELEASE message

22

.

23

REL-COMP message

24

.

25

FACILITY message with negative confirmation message

26-28

Terminate the connection on the part of the target system

Claims (12)

1. A method for transmitting a short message from a first telecommunications terminal ( 4 ) to at least one second telecommunications terminal ( 5 ), the first telecommunications terminal ( 4 ) of a first telecommunications system ( 1 ) and the second telecommunications terminal ( 5 ) of a second telecommunications system ( 2 ) is assigned, characterized in that the short message is transmitted by means of the information element Facili ty in a between the telecommunications systems ( 1 , 2 ) based on QSIG standard signaling channel from the first to the second telecommunications system ( 1 , 2 ) without connection. 2. The method according to claim 1, characterized in that the method comprises the following steps:

• - Sending an inquiry message from the first telecommunications terminal ( 4 ) to the first telecommunications system ( 1 ), by means of which a first subscriber using the first telecommunications terminal ( 4 ) requests to send a short message,
• - Establishing a signaling channel connection between the first and second telecommunication systems ( 1 , 2 ),
• - Sending ( 10 , 11 ) of the short message entered into the first telecommunication terminal by means of the basic message SETUP from the first to the second telecommunication system ( 1 , 2 ), and
• - Receiving the short message by the second telecommunications terminal ( 5 ) via the second telecommunications system ( 2 ).

3. The method according to claim 2, characterized in that after receiving the short message a connection based on the QSIG standard by means of connection messages, in particular special CONNECT ( 14 , 15 ) and CONNECT_ACK ( 16 , 17 ), from the second to the first telecommunications system ( 2 , 1 ) is built on. 4. The method according to claim 3, characterized in that the second telecommunications system ( 2 ) sends a positive Be confirmation message for the reception and further processing of the short message by means of the FACILITY message ( 18 , 19 ) to the first telecommunications system ( 1 ). 5. The method according to claim 4, characterized in that a further positive confirmation message for the reception and further processing of the short message from the first telecommunications system ( 1 ) to the first Telekommunikati onsendgerät ( 4 ) is sent. 6. The method according to claim 3, characterized in that the second telecommunications system ( 2 ) sends a negative Be confirmation message for the reception and the impossible further processing of the short message by means of the message FACILITY ( 24 , 25 ) to the first telecommunications system ( 1 ). 7. The method according to claim 6, characterized in that a further negative confirmation message for the reception and the impossibility of further processing the short message from the first telecommunications system ( 1 ) to the first telecommunications terminal ( 4 ) is sent. 8. The method according to any one of claims 2 to 7, characterized in that after the transmission ( 10 , 11 ) of the short message to the second telecommunications system ( 2 ) the signaling channel by means of the message RELEASE ( 26 , 27 ) and RELEASE_COMPLETE ( 28 , 29 ) is interrupted when the receipt and further processing of the short message from the second telecommunications system ( 2 ) is rejected. 9. The method according to any one of claims 4-7, characterized in that after the return of the negative or positive confirmation message, the connection based on the QSIG standard is interrupted by means of the messages RELEASE ( 20 , 21 ) and RELEASE_COMPLETE ( 22 , 23 ) , 10. Telecommunication system for performing the method according to one of the preceding claims, with a first telecommunication terminal ( 4 ), which is assigned to a first telecommunication system ( 1 ) of a QSIG network, and a second telecommunication terminal ( 5 ), which is a second telecommunication system ( 2 ) is assigned to this network, characterized by
Arranged in the first telecommunications system A devices for setting up the signaling channel to the second telecommunications system;
arranged in the telecommunication systems for transmitting short messages in the signaling channel;
Devices arranged in the telecommunication systems for establishing a connection based on the QSIG standard and
Arranged in the second telecommunications system for further processing the transmitted short messages. 11. Telecommunication system according to claim 10, characterized in that the telecommunication terminals ( 4 , 5 ) are designed as digital tele communication terminals. 12. Telecommunication system according to claim 10 or 11, characterized in that the signaling channel or based on the QSIG standard rend established connection as a fixed or dial-up connection are trained, or at least partially via QSIG-IP Gateways as interfaces between communication networks are managed over the Internet.