FI105988B - Method and apparatus for identifying the sender of a short message - Google Patents

Description

105988

Method and apparatus for identifying the sender of a short message

Background of the Invention

The invention relates to communication systems, and in particular to a method and apparatus for identifying a sender of a short message to a mobile station in a mobile communication system.

In digital mobile communication systems, in addition to normal voice and data connections established on traffic channels, short digital data messages can be transmitted, which are transmitted on the control and signaling channels of the system in between the actual signaling. These messages are commonly referred to as short messages. To implement short messages, a short message center is typically added to the mobile communication system. In connection with a short message from the terminal, the subscriber creates a short message on the terminal keypad and the terminal transmits the short message via a signaling channel through the base station and the mobile switching center 15 to the short message center. The short message service center transmits the short message over the mobile network via signaling channels to another network. broad terminal or other destination.

. ! *. The subscriber who received the short message receives in its message the address of the sending element of the message, typically the MS-ISDN number of the sender. In a way, the number serves as a signature for the message, which allows the recipient to determine the identity of the sender of the message.

• “In some less sophisticated short message centers, sender number: can be processed through an application program interface, leaving the system with the ability to send short messages using the wrong identity.

25 Some SMS Service Centers, such as NOKIA SMSC, above · * ": The sender identity spoofing described above is made impossible. But since · the subscriber can receive messages from several different SMS Service Centers, the quality of the checking routines may vary significantly. '···' There is a clear need to improve the identification of the sender of the short message.

'• \ m 30 Identifying the sender is very important for any communication. The use of a false identity allows for misleading and intrusive communications, which in some circumstances may be very harmful to the recipient. Particularly nowadays, with the ever increasing number and diversity of services provided to subscribers via short messages, prevention of abuse is very important.

2 105988 However, the prevention of abuse must be adapted to the scale of the problem, ie the checks to be added to the system must be sufficiently clear, quick and easy to implement. In particular, there is a need for a method that provides a simple and advantageously customizable means for verifying the originator of a ly-5 message.

Brief Description of the Invention

It is an object of the invention to provide a method and apparatus implementing the method so that the above problem can be solved. The objects of the invention are achieved by the method of claim 1 for verifying the correctness of the sender of a received short message. The method is characterized by verifying the authenticity of the sender of the short message based on the identification information, which identifies at least the sender of the short message, and the short message center that sent the message.

The invention also relates to a terminal capable of receiving ly-clicks messages according to claim 5, characterized in that the terminal is arranged to generate the sender identification information which. at least indicates the sender of the short message and the short message center that sent the message; and display the identification information on the display of the terminal. _ for identification by the taker.

lal. The invention also relates to a terminal capable of receiving short messages according to claim 6, characterized by: data stored in the memory and accept the short message if · * '*: the identification data matches the said data.

The invention is based on the fact that the sender identification is based not only on the sender's address but also on the address of the sending short message center. Typically, a particular sender of a short message operates through a specific short message service center. Forging a short message center number without the help of an operator is almost impossible. If the combination of the sender's address and the address of the sending short message center is acceptable on the basis of the recipient's information, the recipient may in all probability consider the subscriber's identity to be correct. If the sender is new but the sending short message service center 35 is, based on the recipient's information, a trusted short message service center, 105988

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confidently identify the sender of the received short message and possibly add the combination to the list of acceptable combinations. If the combination of the sender of the message and the sending short message center is not known, the subscriber is able to directly distinguish these cases and deal with the received messages in the manner of his choice by means of the method according to the invention. In its simplest form, the check according to the invention may be based on the addresses of the sender and the sending short message center printed on the display of the mobile station, but the check may also be arranged to be performed automatically.

An advantage of the method and system of the invention is that it is simply adaptable to the system and thus provides a cost-effective tool for reducing the potential for abuse. Still, it operates sufficiently efficiently to eliminate most potential misuse cases, thereby contributing to the reliability of the services provided through the application interface. The subscriber may receive messages from an increasing number of short message centers in the future, but does not have direct control over the short message centers he is using. safety features. Thus, the subscriber's ability to influence the most advantageous one. there are 20 benefits to the security level of your own short messaging service. In addition, .i,., Can use more reliable encryption protocols, such as those implemented with a SIM card, to protect and authenticate important data. rhymes, but their use is already more demanding and thus more expensive to the subscriber.

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BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be further described in connection with preferred embodiments · ** ': with reference to the accompanying drawings, in which:

Fig. 1 is a block diagram showing the basic components of the GSM system according to the prior art; Figure 2 shows the protocol layers of short messages in the GSM my 30 system according to the prior art; 3 is a block diagram illustrating an arrangement for implementing a short message message in a mobile communication system according to the prior art; 4 is a block diagram illustrating a structure of a mobile station according to the prior art; 35 is a block diagram illustrating a problem to be solved by the invention; 4 105988 is a flow chart of Figure 6 illustrating a first embodiment of the invention; 7 is a block diagram illustrating another preferred embodiment of the method according to the invention; and 5 is a block diagram illustrating a third preferred embodiment of the method of the invention.

DETAILED DESCRIPTION OF THE INVENTION

The invention will now be described using, by way of example, 10 GSM short message service (Global System for Mobile Communications) GSM systems, but the invention can also be applied to other radio systems using the same type of message service, such as DCS1800 (Digital Communication System) and PCN (Personal Communication Network). ΤΊΑ For mobile communication systems compliant with INTERIM standards.

In the following examples, a mobile station operating in connection with a mobile communication system is used as a receiver. The receiver may also be other,. a digital terminal adapted at least to receive short messages transmitted over a radio system. Examples of such may include a personal digital assistant (PDA) with integrated telephone functionality, an integrated calling card and a PDA, and an integrated telephone and personal computer.

I i: "Figure 1 briefly describes the basic components of the GSM system,« I «v: without going into further detail in their features or other aspects of the system. Referring to the GSM Recommendations and the book" The GSM System for Mobile " Communications, "M. Mouly, and · · ·. ··. M. Pautet, Palaiseau, France, 1992, ISBN: 2-9507190-0-0-7.

Mf. ·. The MSC is responsible for switching incoming and outgoing calls. It performs tasks similar to those of a public switched telephone (PSTN) exchange. In addition to these, it also performs functions specific to mobile ··· 30 traffic only, such as subscriber location management,

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. ···. working with network subscriber registers. The GSM system includes a home location register HLR and a visitor location register VLR. Subscriber information is permanently stored in the HLR as well as information in the VLR area of which the mobile station MS is located. The visitor location register VLR, in turn, temporarily stores subscriber information 35 of the mobile station MS while the mobile station is in the MSC associated with the visitor location register VLR. One VLR typically serves a single mobile phone exchange MSC. The mobile stations MS connect to the MSC by means of base station systems BSS. The base station system BSS consists of base station controllers BSC and base stations BTS. One base station controller BSC is used to control multiple base stations BTS.

Each base station BTS has one or more pairs of carriers at its disposal to establish a duplex radio connection with a mobile station MS in its area. Each carrier is divided into several, usually eight, TDMA time slots, or channels. These GSM system channels can be divided into two categories: traffic channels (TCH) and control or signaling-10 channels (CCH). Traffic channels can carry either speech or data, and the traffic channel is allocated to only one call at a time. The signaling required to control the system is performed on control or signaling channels. There are fixed signaling and traffic channels between the base station BTS, the base station controller BSC and the mobile services switching center MSC.

There are still several types of control channels. The Broadcast Control Channel (BCCH) is a unidirectional control channel from the base station BTS to the mobile station MS and transmits to the mobile station a cellular location. information on the power levels used, the BCCH frequencies of neighboring cells, etc.

• «·. The BCCH channel also contains synchronization and equalization information which. : ·. 20 allows the mobile station to lock into the system.

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; i. ·, After locking, the mobile station MS listens to the base station BTS

* ·!. 1 calls on a common channel CCCH (Common Control Channel), which is used exclusively for establishing a signaling connection. The connection is established

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in several steps: 1.) relaying the call from the base station BTS to the mobile station 25 MS 1, 2.) transmitting random access access from the mobile station to the base station BTS as a result of the call received or otherwise, and 3.) a dedicated control channel SDCCH (Stand alone .v. Dedicated Control Channel) indicates the connection. The actual signaling between the base station and the mobile station MS is performed on the SDCCH control channel.

If the signaling on the SDCCH is call setup signaling, the connection is transferred to the traffic channel TCH.

A parallel-channel control channel SACCH (Slow Associated Control Channel) is used alongside the TCH or the dedicated control channel SDCCH for signaling between the base station BTS and the mobile station MS or for the signaling between them. A parallel control channel 6,105,988 is mainly used for transferring the measurements made by the mobile station MS during the connection from the mobile station to the base station BTS.

The SDCCH and SACCH control channels can be used in the GSM mobile communication system for short digital data messages, i.e. so-called. for transmitting short messages 5 (Short Message) between the mobile station MS and the Short Message Service Center (SMSC) connected to the system. The Short Message Service Center is a center connected to the GSM system, through which short messages are transmitted and can be stored for later transmission if the recipient cannot be reached. Messages sent by the short message service center are received at the mobile switching center, which acts as a short message service center for the GSM-10 system, which interrogates routing and short message information from the home location register and forwards the short message to the recipient's visitor center.

In the GSM system, short messages can be data messages of up to 140 bytes in length. The short message may be a Mobile Terminating (MT) short message (MT) or a Mobile Originating (MO) message terminating at a mobile station. A short message service can also be used to deliver a delivery, which means sending a message to one or: '; in the multi-cell area for all mobile stations there.

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. If the mobile station MS has a connection on the traffic channel TCH, short messages are transmitted on the SACCH control channel. Otherwise,

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mat is transmitted on the SDCCH control channel. HLR and VLR registers are used for routing short messages in a mobile network in substantially the same way as: ((j ') for routing calls.

I <f '' 'Figure 2 shows a short message message according to GSM specifications.

25 t protocol transfer architecture. In the GSM system, SM-TP

(Short Message Transfer Layer Protocol) is a protocol defined between the SMSC and \ m \: mobile station MS with the SMS-DELIVER message, v. is a data message sent from the short message center to the mobile station, and SMS · · · SUBMIT is a 30 data message sent from the mobile station to the short message center, respectively. The SM-RP layer is a protocol layer between the mobile station and the MSC * mobile network switching center of the GSM network, mainly for reference and address information. The RP-MT-DATA message is a data message terminating on the RP layer mobile station and, respectively, the RP-MO-DATA message is a data message departing from the RP layer mobile station.

In the following descriptions of preferred embodiments of the invention, the parameters of the TP layer SMS-DELIVER message and the RP layer RP-7 105988 MT-DATA message are used without limiting the invention to these messages or to the alternatives presented.

The SMS-DELIVER message comprises a TP-OA parameter that identifies the source address of the message. The TP-OA can be the whole address, or part of the total 5 addresses. For example, the TP-PID (Protocol Identifier) field in the SMS-DELIVER message may also be used as address information, or part of the address may also be in the data field of the SMS_DELVER message. In the following example, the TP-OA indicates the entire address, and this address is typically displayed on the terminal in addition to the actual message. Similarly, the RP-MT-DATA-10 message comprises the RP-OA parameter which indicates the SMSC address of the short message service center that sent the message.

Figure 3 is a block diagram showing an arrangement for implementing a short message message in a mobile communication system. For short message service, two short message service centers (SMSC1) are connected to the mobile communication system via the short message service center SMS-GW 15 and each short message center comprises a plurality of application programs APP1.1-APP1.5 and APP2.1-APP2.2 for providing different services to subscribers. Short Message Service Center SMS-GW is a short message service center SMS_GW

• · I *. (Gateway Mobile Switching Center for Short Message Services) and SMSJWMSC (Interworking Mobile Switching Center for Short Message Service), which transmits short messages to mobile stations. In the case of the short message center SMSC1 application program APPI.3, a short message is sent to the mobile station MS, comprising periodically transmitted information subscribed to by the subscriber on the subject selected by the subscriber. The message source address 25 is transmitted to the mobile station MS in the TP-OA parameter is the address of the application APPI.3 (app1.3). The SMSC1 address (sc1) of the SMSC1 that sent the message is transmitted to the mobile station MS in the short message via the RP-OA parameter. .

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Fig. 4 is a block diagram illustrating a simplified structure of a MS 30 for a mobile station. It will be clear to one skilled in the art that each block can be implemented in a number of different ways. The radio part 41 comprises the components necessary for crossing the radio path: ***: components related to the transmission and reception functions, such as radio transceiver, modulator, channel coding and decoding, etc. The signaling and control part 42 controls the operation of the entire mobile station. Upon receipt of the short messages 35, said signaling and control unit decodes the received short message received by the radio part 41 and directs it to be printed on the display 45. Similarly, the 8 105988 signaling and control part 42 forms a short message to be transmitted over the radio part 41 The mobile station further comprises a memory 44, which is typically composed of the memory of the terminal and the memory of the SIM-5 smart card used as the mobile unit identification unit.

Once the message has been forwarded to the recipient, the mobile station MS outputs 45 messages and the source address of the message according to the prior art. In connection with the SMSC2 short message service center, an application program APP2.2 operates, which enables the subscribers of the public telephone network to send messages to the subscribers of the mobile station 10 via a modem. The application program asks the sender for the sender's number, among other things, which is, of course, to provide the sender's own fixed network number. Assume that the sender does not do this, for example, composes a text message of its own that resembles that of APPI.3 and gives the sender number the address of app1.3 (app1.3). The SMSC2 Short Message Service Center does not always check the accuracy of the information provided, but transmits the message with the information provided. When the message sent by the application program APP2.2 arrives at the mobile station MS, it is printed on the display. work according to the state of the art as shown in case b. Mobile, 'j ·. A subscriber using 20 MS is unable to see the difference between APPI.3

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. between the message sent through APP2.2, and the abuse ιοί. * likely to succeed.

: <(i 'With reference to FIG. 4 and FIG. 5,

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v 'the effect produced by this method. When the message arrives at the mobile station MS, the signaling and control section 42 of the mobile station separates from the SMS-DELIVER and RP-OA messages the addresses of the short message sender and the short message center. By printing both §. \ T data M (e.g., a sub-name) derived from one or both addresses simultaneously to the mobile station display 45, the subscriber is provided with the ability to distinguish a fake ly- · ** ** message, in which case the malfunction will fail. In case b, the subscriber can see directly from the display by comparing the source address (app1.3) and the short message center address (sc2) that the sent message is incorrect and can ignore the falsified information.

A first embodiment of the method according to the invention is illustrated in the flowchart of Figure 6. At step 61, the mobile station MS receives the short message. The message identifiers, i.e. here the source addresses, are extracted from the short message (step 62) and output (step 63) after the short message to the display of the mobile station MS (step 64). Upon seeing the combined data, the subscriber can use it to infer the source address.

The use of the solution according to the invention can be facilitated by providing the subscriber 5 with the ability to determine the address book of the short message centers which he uses in the database 44 stored in the memory of the mobile station. The method may then include a step where the signaling and control unit retrieves from the database the name of the subscriber corresponding to the source address of the short message center and prints the sender number of that name, or the corresponding name specified in the address book 10 on the mobile display 45. you need to perform identification based on harder-to-remember sequences.

In the first embodiment of the invention, the subscriber was able to determine the correctness of the sender after receiving the short message. As the supply of short message services increases and, in particular, paid newsletters come into the picture, it may be necessary to include in the system the possibility to reject the short message even before it is read. This preferred embodiment of the invention is illustrated in the flow chart of Figure 7. In step 71, the mobile station MS responds

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,, \ returns a short message. The source addresses of the message are again separated from the short message I · 20, (step 72), but now information on the short message i · f,! . and said source addresses (item 73), either in numerical form or as a sub-name retrieved from the subscriber's address book. Upon seeing the information, the subscriber can decide whether to accept

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If the recipient does not agree, the subscriber may reject the short message (item 75), so that 25 short messages will not be printed on the display of the mobile station. If the source information of the message is from the subscriber the acceptable short message is printed on the display of the mobile station.

t. \ # Verification of the sender information can also be done automatically, so that the subscriber only needs to evaluate the sender • * 30 for combinations where the sender / short message center combination differs *: · from the allowed combinations. This embodiment is illustrated by the block diagram of Figure 8. In step 81, the mobile station MS receives the short message, and in * 82, the addresses of the sender and the sending short message service center SMSC are separated from the short message (step 83). The mobile station database has a user-defined list of permitted address pairs to which said short message address pair is compared (step 84). If the address pair is found in the database, the 10 105988 short message is accepted (step 85) and printed on the display of the mobile station (step 86). If the address pair is not found in the list of allowed address pairs, the user is informed of the incoming short message (step 87) and said address pair is displayed. The subscriber can then decide whether or not to receive the message (step 88).

5 If the subscriber rejects the message, it will not be printed and the message will not be acknowledged. If the subscriber decides to receive the message, he or she can also decide whether or not to add the address pair to the list of allowed address pairs (step 89). If the subscriber decides that the combination is allowed, the address pair is added to the database (step 90). Otherwise, the process proceeds directly to step 85 where the short message 10 is accepted and step 86 where the short message is displayed, whereupon the subscriber's position for receiving the short message is again requested the next time the subscriber receives the short message from the same address.

It will be obvious to one skilled in the art that as technology advances, the basic idea of the invention can be implemented in many different ways. The invention and its embodiments are thus not limited to the examples described above, but may vary within the scope of the claims.

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Claims (7)

A method for verifying the transmitter to a short message received, characterized in that in the method, the transmitter (APPI.3) is verified from identification data, which indicates at least the transmitter of the short message and a short message center (SMSC1) which sent the message. Method according to claim 1, further characterized in that in the method identification data is displayed on a receiving terminal (MS) display 10 (45) and verification is performed by a receiving subscriber starting from identification data shown on said display. Method according to claim 1, characterized in that, in the method, the verification is performed automatically by the receiving terminal (MS) by comparing the identification data of the received message with the identification data stored in the terminal's memory (44). Method according to claim 3, further characterized in that the method informs the subscriber of cases in which the identification data for a message received differs from the identification data stored in the terminal. ; 20 minutes (44). 5. Terminal (MS) that receives receiving short messages, known as e -. that the terminal (MS) is arranged to form a transmitter's identification data, which indicates at least the transmitter (appi.3) of a short message and a short message center (SMSC1) that sent the message; and display identification data on the terminal (MS) display (45) to be identified by the receiver. • * · _ 6. Terminal (MS) that prevents receiving short messages, feeling · ·. ·. characterized in that the terminal (MS) is arranged to form a transmitter's identification data, which comprises at least one source address (appr1.3) for a card message and an address (sc1) for a card message. 9 message center (SMSC1) which sent the message; and comparing said identification data with data stored in the terminal's memory (44) and approving the short message, if identification data matches 35 with said data. 105988 Terminal (MS) according to claim 6, characterized in that the terminal (MS) is further arranged to inform the subscriber of cases, in which identification data for a message received deviating from the data stored in the terminal's memory (44). 5 <t IM • · · «· · 1 · •« • · / • · · I »I 9 •« · • * · · • · I «· · · 9» • · • · «