Title of Invention

A MOBILE STATION FOR A MOBILE COMMUNICATION SYSTEM

Abstract A mobile station (8) for a mobile communication system, which stores groups of directory numbers in a memory (38). A short message signal is composed by the user of the mobile station, and one of the groups of directory numbers is selected by the user. The mobile station in response sends the short message to each of the directory numbers appearing in the selected group. Each of the groups is provided with an identifier which is programmable by a user of the mobile station. [FIGURE 5 IS TO ACCOMPANY THE ABSTRACT]
Full Text

MOBILE COMMUNICATIONS
This invention relates to mobile communications, in particular but not exclusively to cellular radio communications, such as in a GSM (Global System for Mobile communications) digital cellular radio network.
A known conventional GSM network, referred to as a public land mobile network (PLMN), is schematically illustrated in Figure 1. A mobile switching centre (MSC) 2 is connected via communication links to a number of base station controller (BSCs) 4. The BSCs 4 are dispersed geographically across areas served by the mobile switching centre 2. Each ESC controls one or more base transceiver stations (BTSs) 6 located remote from, and connected by further communication links to, the BSC. Each BTS 6 transmits radio signals to, and receives radio signals from, mobile stations 8 which are in an area served by that BTS. That area is referred to as a "cell". A GSM network is provided with a large number of such cells, which are ideally contiguous to provide continuous coverage over the whole network territory.
A mobile switching centre 2 is also connected via communications links to other mobile switching centres in the remainder of the mobile communications network 10, and to a public service telephone network (PSTN),

which is not illustrated. The mobile switching centre 2 is provided with a home location register (HLR) 12 which is a database storing subscriber authentication data including the international mobile subscriber identity (IMSI) which is unique to each mobile station 8. The IMSI is also stored in the mobile station in a subscriber identity module (SIM) along with other subscriber-specific information.
The mobile switching centre is also provided with a visitor location register (VLR) 14 which is a database temporarily storing subscriber authentication data for mobile stations which are active in the area served by the mobile switching centre 2.
The GSM system, in common with other mobile communication systems, supports a variety of teleservices. One such teleservice is a speech teleservice, for supporting voice calls on a speech traffic channel. Other teleservices include a short message service (SMS) which is used for transmitting alphanumeric messages in the system on a low rate data traffic channel. A user of the mobile station 8 may generate a message by input to a user interface device, and transmit the message, along with the directory number of the terminating station for the short message, to the service BTS 6. The message is forwarded to the MSC 2, which forwards the message

transmitted from the mobile station 8 to a short message service centre (SC) 15, which stores the message for onward transmission to the terminating station corresponding to the directory number specified by the user of the mobile station 8.
International Patent Application No. W094/09599 describes a method for transmitting short messages in a GSM network. In order to reduce the effort and signalling load required in order to transmit a large number of short messages to a large number of terminating subscribers, a short message service centre copies a message received from the message generating mobile station to produce a large number of messages, which are then forwarded to the intended recipients by the service centre.
When the service centre receives a short message signal, it analyses the part of the message signal containing the address of the recipient to determine whether it contains the address of a single subscriber or a predefined identifier for a group of recipients. This identifier, if present, is used to access a list of directory numbers stored in the service centre, which is used to determine the intended recipients of the message. The message is copied by the service centre to each of those intended recipients.
Thus, all mobile stations which are to have the

capability of sending a single message to be copied to a number of recipients must be capable of generating the group identifiers to be sent in place of the single recipient address.
In addition, this proposal requires the replacement of a network element, namely the short message service centre for an existing mobile communications network, which in some cases is not practical.
In accordance with an aspect of the invention there is provided a user station for use in a mobile communications system, said station comprising: means for storing data relating to a plurality of groups of recipient addresses, each said group having an identifier (e.g. a name) which is programmable by a user of the station; and means for presenting said identifiers to a user of the station in order to allow user selection of one of said groups.
Thus, the invention in this aspect allows a user to select a group of recipient addresses from a plurality of groups of recipient addresses, for call establishment, display or other purposes, by means of a convenient identifier preprogrammed by a user of the station. User programmable identifiers are known. However, they have only been associated with a single recipient address, to allow the recipient address to

be readily recognised by the user.
The user station preferably further comprises means for presenting to a user of the station a further information item relating to recipient addresses in a group. This information item may for example inform the user of the number of recipient addresses in the group.
The storing means may comprise means for storing a list of recipient addresses, the data relating to each group of recipient addresses identifying each recipient address in the group, in said list. This can reduce duplication of data where the user station is provided with such a list of recipient addresses. The data relating to each group need not include the recipient addresses in full, and may for example refer to the addresses in the stored list.
If a recipient address is deleted from the list, the data relating to the addresses in each group will no longer be valid insofar as one of the addresses identified in the data, if it is the deleted address, will no longer be available. The user station preferably further comprises means for automatically revising the data relating to the deleted recipient address•
The user station may further be provided with a menu facility allowing a user to create a group by

selecting recipient addresses from a list of stored recipient addresses.
In accordance with a further aspect of the present invention there is provided a method of allowing user selection of recipient addresses in a user station for use in a mobile communications system, said method comprising:
storing data relating to a plurality of groups of recipient addresses;
storing for each said group an identifier which is programmable by a user of the station; and
presenting said identifiers to a user of the station in order to allow user selection of one of said groups,
A further aspect provides a user station for use in a mobile communications system, said user station comprising means for storing a plurality of recipient addresses, means for selecting a group of recipient addresses from said plurality of recipient addresses, and means for sending a teleservice signal for each member of said selected group of directory numbers automatically in consecutive order.
Thus, a number of teleservice signals can be sent for each of a desired group of recipient addresses without reguiring the user of the mobile station to separately select and cause the mobile station to send

a signal for each of the recipient addresses individually.
The procedure used may be such that the sending of one teleservice signal is completed before a subsequent teleservice connection is established. The invention is thus implementable on a user station capable of supporting only one such teleservice signal at a time.
Preferably, the subsequent teleservice signal is automatically sent without requiring user input after one teleservice signal is sent. This further increases the convenience of use of the feature. Even more preferably, each of the teleservice signals is automatically sent without requiring intervening user input after the first of said teleservice signals is sent.
The group of recipient addresses may be selected from a plurality of stored predetermined groups of recipient addresses. This provides further convenience to a user, insofar as the members of the group do not need to be selected separately each time teleservice signals are to be sent to the selected group.
Each group may be provided with a memory portion which stores data for presenting a group identifier (e.g. a name) to a user of the user station, so that

the user can readily recognise the group. Such a group identifier is preferably of the type which is specifiable by the user of the station•
The teleservice may be of the type wherein the user station sends an alphanumeric message, such as an SMS message, in each of the teleservice signals. A predefined alphaniimeric message can then be sent to each member of the selected group, the message possibly being identical in each case.
A further aspect of the present invention provides a user station for use in a mobile communications system, said user station comprising means for storing a plurality of recipient addresses, means for selecting a group of recipient addresses from said plurality of recipient addresses, means for storing a message to be sent to each member of said selected group, and means for sending separate teleservice signals for each member of said selected group, each said teleservice signal containing the stored message.
Embodiments of the present invention will now be described, by way of example only, with reference to the accompanying drawings in which:
Figure 1 is a block diagram of a mobile communications network;
Figure 2 is a block diagram of a mobile station;

Figure 3 illustrates the structure of a linear fixed data file;
Figure 4 illustrates the structure of an ADN data record;
Figure 5 illustrates the contents of a group list file containing directory number group records in accordance with the present invention;
Figure 6 is a flow diagram showing steps taken when sending a short message in accordance with the present invention;
Figure 7 is a flow diagram showing steps taken when editing a directory number group list in accordance with the present invention; and
Figure 8 is a flow diagram illustrating steps taken by the mobile station when an ADN record is deleted.
A GSM network, referred to as a public land mobile network (PLMN), is schematically illustrated in Figure 1. This is in itself known and will not be described in detail. A mobile switching centre (MSC) 2 is connected via communication links to a number of base station controller (BSCs) 4. The BSCs 4 are dispersed geographically across areas served by the mobile switching centre 2. Each BSC 4 controls one or more base transceiver stations (BTSs) 6 located remote from, and connected by further communication links to,

the BSC. Each BTS 6 transmits radio signals to, and receives radio signals from, mobile stations 8 which are in an area served by that BTS, That area is referred to as a "cell". A GSM network is provided with a large number of such cells, which are ideally contiguous to provide continuous coverage over the whole network territory.
A mobile switching centre 2 is also connected via communications links to other mobile switching centres in the remainder of the mobile communications network 10, and to a public service telephone network (PSTN), which is not illustrated. The mobile switching centre 2 is provided with a home location register (HLR) 12 which is a database storing subscriber authentication data including the international mobile subscriber identity (IMSI) which is unique to each mobile station 8. The IMSI is also stored in the mobile station in a subscriber identity module (SIM) along with other subscriber-specific information.
The mobile switching centre is also provided with a visitor location register (VLR) 14 which is a database temporarily storing subscriber authentication data for mobile stations active in its area.
Referring to Figure 2, a mobile station 8 comprises a transmit/receive aerial 16, a radio frequency transceiver 18, a speech coder/decoder 20

connected to a loudspeaker 22 and a microphone 24, a processor circuit 26 and its associated memory 28, an LCD display 3 0 and a manual input port (keypad) 32. The mobile station is connected to a removable SIM 34 via electrical contacts 35.
The SIM 34 connected to the mobile station has a SIM processor 36, for example a Hitachi H8 microprocessor, and SIM memory 38, which includes for example 16 kilobytes of mask-programmed ROM containing the SIM operating system, 8 kilobytes of read/write EEPROM for the non-volative storage of data items and 256 bytes of scratchpad RAM for use by the SIM processor during operations.
Both the mobile station 8 and the SIM 34 are well known and therefore need not be described in detail herein. A commercially-available SIM is the GemXplore (registered trade mark) SIM card produced by Gemplus, BP 100-13881, Gemenos Cedex-France.
As described above, the SIM 34 is used for the storage and retrieval of data items by the processor 26 of the mobile station 8. The command set, data file structure and data coding format for data communicated via the interface between the mobile station processor 26 and the SIM processor 36 are all specified, in the GSM system, in GSM technical specification 11.11 (ETS 300 536), incorporated herein

by reference.
A standard GSM file structure for the storage of data on a SIM, referred to as a linear fixed file structure, is illustrated in Fig. 3. It consists of a header 40 and record space 42. The record space is divided into N fixed length records.
One data record provided in the SIM memory 3 8 in a conventional SIM 34 is an abbreviated dialling number (ADN) record 44, which forms part of an ADN list file having a linear fixed file structure. Each ADN record 44 has data stored in a fixed length coding format. The record 44 is divided into fixed-length data blocks, each consisting of one or more bytes. A first data block 46, consisting of n bytes, is reserved for directory number identifier data. A second block 48, consisting of one byte, is reserved for data indicating the length of the directory number. A third block 50, consisting of one byte, is reserved for data indicating the type of directory number stored in the record. A fourth block 52, consisting of 8 bytes of memory, is reserved for the directory number data itself. A fifth block 54, consisting of one byte, is reserved for a "capability configuration pointer", indicating the teleservices (e.g. voice call, SMS, fax, etc.) which can be supported by the telephone equipment corresponding to

the directory number stored. A final data block 56, consisting of one byte, is an extension record pointer, which indicates the address of an extension record to be accessed in a different data file to give the remainder of a directory number.
In this embodiment of the invention, the mobile station 8 is capable of sending SMS teleservice short messages as defined in GSM Technical Specification 03.40 (ETS 300 608), which is incorporated herein by reference. In the known short message service, a user of the mobile station 8 composes a short message, consisting of alphanumeric characters, and specifies a recipient directory number, by input via the keypad 32. When instructed to by the user, the mobile station then sends a short message signal on a data traffic channel of the radio interface to the fixed portions of the mobile communications network. The short message signal contains data defining the identity of the originating mobile station, data indicating the directory number of the intended recipient, and data within which the short message is coded. When the signal is received by the MSC 2, it forwards it to the SMS service centre 15 for storage and fo3rwarding to the intended recipient.
Figure 5 illustrates the contents of a new data record file, referred to herein as a group list file.

stored in the SIM memory 38 and used in connection with the SMS teleservice in accordance with the present invention. The group list file contains a number of records 1 to n, each record storing data relating to (i) an entry list 58 containing pointers to records in the ADN list stored in a SIM, namely the record numbers of particular ADN records, and (ii) the number of entries 16 in the entry list 58, and an alphanumeric group identifier 62, such as "Family", "Project Team", etc. as shown. The entry list 58 for each record is selected by the mobile user from entries on the ADN list in the SIM, and the group identifier 62 is defined by the user of the mobile station by keypad input. The group list is stored in the SIM 34 of the mobile station at a predefined address, and records of the group list can be read by the mobile station processor 26 by means of a read command specifying the group list address and the address (record number) of the record in the group list.
Figure 6 illustrates a procedure for sending SMS signals in this embodiment of the invention, which utilises the group list described above. It allows the user of the mobile station 8 to select either a normal mode, in which a short message is sent to a single selected directory number, or group mode in

which a short message is sent to a selected group of directory numbers.
The user first selects the short message service and composes the short message, step 64, which is stored by the mobile station in step 66. Next, the user is prompted to select an SMS mode, which selection is performed by user input in step 68. If the user requires only normal mode, step 70, the user selects the intended recipient's directory number in step 72, and instructs the mobile station to proceed. The mobile station 8 then proceeds to send the short message radio signal, step 74, containing the short message.
If the user requires group mode, step 70, the mobile station retrieves the group list from the SIM 34, by addressing each record in turn, step 76, and displays the group identifier 62 to the user, step 78, on LCD display 30. The user then selects an intended group of recipient directory numbers by keypad input in step 80, to which the mobile station responds by displaying the number of directory number entries in the selected record, step 77. The mobile station may also display the alphanumeric identifiers of each ADN record in the selected group, if required. If the user is satisfied with the selection, by user entry, step 79, the mobile station is instructed to proceed.

step 81.
The mobile station now has stored in its memory 28 the short message to be sent and the group record of the selected group. In step 82, the mobile station processor 26 proceeds to read the first entry in the entry list 58 indicating the ADN record number of the first intended recipient directory number. The mobile station processor then reads the corresponding record stored in the ADN list of the mobile station, and retrieves the stored directory number.
The mobile station then proceeds directly to transmit the short message radio signal, containing the short message, in step 84, to the serving BTS 6 for the first directory number, which is indicated in the short message signal.
Once the short message signal has been transmitted in its entirety, the mobile station proceeds to retrieve the directory number from the ADN record having a record number which appears next on the entry list 58 of the group list, in step 86. A short message signal, containing the same short message, is then sent for this next directory number, step 88. This directory number retrieval and short message signal transmission process is repeated until the end of the entry list 58 is reached, in step 90.
Thus, a short message is sent to each of the

directory numbers corresponding to the entries in the group record entry list 58 automatically, i.e. without user intervention, in automatically consecutive order, i.e. without requiring the user to select an intended recipient directory number after a short message has been sent to a different intended recipient directory number.
Referring now to Figure 7, the group list can be edited in accordance with a menu facility provided in this embodiment of the invention. When the user enters the group list edit function, the mobile station proceeds to display different options on the LCD display 30, step 92, which the user selects between, step 94, by keypad input.
If the user chooses to add a group record, step 96, to the group list, the mobile station checks, step 98, if a record is available. If not, the edit facility ends. If a group record is available, the mobile station proceeds to display options for editing the selected empty group record, step 100.
If the user selects in step 94 to edit a group record, step 102, the mobile station 8 displays all of the group identifiers for the current group records in the group list, step 104. The user then selects one of the group records by means of the group identifier, step 106, and the mobile station then proceeds to

display further options, step 100, which the user selects between by keypad input in step 108,
If the user wishes to add a directory number to the entry list for the selected group record, step 110, the mobile station proceeds to display all of the ADN identifiers appearing in the ADN list stored in the mobile station SIM 34, step 112. From these ADN identifiers, the user selects the chosen ADN to be added to the group record, step 114 • The mobile station then proceeds to add the ADN record number of the selected ADN record to the group entry list 58, in step 116. Next, the value of the number of entries 60 for the group is incremented to reflect the added record number entry, step 118. The procedure then moves back to step 100, in which the options for editing the selected group are again displayed.
If the user selects in step 108 to delete a directory number from the entry list of the selected group, step 120, the mobile station proceeds to display each of the ADN identifiers for the ADN record indicated in the group entry list 58, step 122. The user then selects which of the group's directory numbers is to be deleted, step 124, by means of the ADN identifiers. The mobile station then proceeds to delete the selected ADN record number from the group entry list 58, step 126, shifting the remaining

entries if required to defragment the entry list. Next, the mobile station decrements the number of entries datum 60 to reflect the reduced number of entries in the entry list 58, step 128. The procedure then moves back to step 100, in which the group edits options are displayed again.
If in step 108 the user selects the option to update the group identifier 62, the user is prompted to input the new group identif ier, step 13 2 • The mobile station then updates the group identifier data for the record, step 134, and returns to step 100.
If in step 94 the user selects the option to delete a group from the group list, step 13 6, the mobile station proceeds to display each of the group identifiers occurring in the group list, 138. From these, the user selects a group record to be deleted, 140, which the mobile station proceeds to delete in step 142. That group record then becomes available for the storage of a further group list.
Referring now to Figure 8, there is also provided in this embodiment a procedure whereby, if an ADN record is deleted from the ADN record list, the group list stored on the SIM is updated. When an ADN record is deleted by input from the user or otherwise, step 144, the mobile station performs a search through the entry lists 58 of each group record in the group list.

for the record number of the deleted ADN record, step 146.
If the ADN record number is found in a group, step 148, it is deleted from the entry list of the group in which that ADN record is found, step 150, and the remaining entries in the entry list 58 are shifted, to reduce any fragmentation of the entry list caused by the deletion of an entry.
Next, the mobile station proceeds to update the number of entries datum 60 by decrementing the value stored to reflect the deletion of an entry from the entry list 58. The search procedure is re-initiated, returning to step 146, until no further instance is found of the deleted ADN record number occurring in the group list. Other Embodiments
In the above embodiment, the mobile station automatically sends each SMS signal without requiring intervening user input after the mobile station is instructed to proceed to send the SMS signals.
In some cases it may however be preferred to allow the user to enter an instruction to continue in the time after one SMS signal has been sent and before the following SMS signal is sent. The mobile station would signal, for example audibly, to the user when the first SMS signal has been sent successfully, to

prompt the user for a continue command, which may be input for example via the keypad of the mobile station.' A continue command could be required after each SMS signal is sent, or intermittently after a set number of signals has been sent.
In the above embodiment, the mobile station is a GSM"Compatible mobile station, having a SIM. However, the invention could be implemented in relation to a mobile station used in other mobile communications systems, such as CDMA, PDH and third generation systems. References to GSM include other standards for which at least some features are set by the GSM technical specifications such as the PCN standard and the DCS 1800 standard.
The group list data need not be stored on a removable data store, such as a SIM, but could be stored in another memory element provided in the mobile station.
In the first described embodiment, the group list records contain the record numbers of the ADN records containing the recipient directory numbers for the group. In an alternative embodiment, each group list record contains the recipient directory numbers for the group in full. An ADN list can then be assembled from the superset of entries in each of the group list and/or a supplemental ADN list.

Furthermore, the mode of selection of the directory numbers in a group is not limited to the selection of a pre-stored group of directory numbers. In a further embodiment, after the user has composed the short message, the user would be presented with the ADN list record identifiers, from which the user could select each ADN record to be included in the selected group by keypad input. The mobile station would, in response to a command from the user, then send an SMS signal for each member of the selected group in an automatically consecutive order.
It should be noted that the invention is not limited to the sending of short message signals. The invention could be implemented in relation to any teleservice which a mobile station supports, such as a multiple-recipient facsimile teleservice. Also envisaged is a method for establishing multiparty voice calls which is essentially similar to the methods described for sending SMS signals to a group of recipients. In the case of the establishment of multiparty calls, a voice call establishment procedure would be initiated for each of the group list members in turn, in accordance with the selected group list record.
In the first described embodiment, the group messaging procedure is directed by the mobile station

processor, the SIM playing a passive role. In an alternative embodiment, the procedure could be implemented entirely by commands sent by the SIM processor to the mobile station processor. Thus, the SIM processor would instruct the mobile station processor to offer a group messaging menu facility, the menu facility prompts being sent from the SIM to the mobile station. Once a group SMS signalling procedure is confirmed by the user, the SIM processor would instruct the mobile station processor to send an SMS signal to each of the recipient directory numbers in turn. An advantage of this alternative embodiment is that a group messaging feature can be provided without the need for modification of the mobile station. All that is required is a mobile station which accepts the appropriate control signals sent by the SIM processor.
It is also envisaged that various modifications and variations to the above described * embodiments could be made, without falling outside the scope of the present invention which is defined in the appended claims.


WE CLAIMS:
1. A user station for use in a mobile communications system, said station comprising:
means for storing data relating to a plurality of groups of recipient addresses, each said group having an identifier which is programmable by a user of the station; and
means for presenting said identifiers to a user of the station in order to allow user selection of one of said groups.
2. A user station according to claim 1, wherein said identifier is an alphanumeric character string.
3. A user station according to claim 2, wherein said storage means comprises a plurality of group memory portions, each said memory portion storing data relating to a group of recipient addresses and data relating to said identifier.
4. A user station according to any of claims 1 to 3, further comprising means for presenting to a user of the mobile station a further information item relating to recipient addresses in a group.

5. A user station according to claim 4, wherein said information item relates to the number of recipients addresses in a group.
6. A user station according to any of claims 1 to 5, wherein said storage means comprises means for storing a list of recipient addresses, and said data relating to each group of recipient addresses identifies each of the recipient addresses in the group, in said list.
7. A user station according to claim 6, having a menu facility allowing a user to create one of said groups by selecting recipient addresses from said list.
8. A user station according to claim 6 or 7, wherein recipient addresses are deletable from said list, further comprising means for automatically revising said data relating to a deleted recipient address.
9. A user station according to any of claims 1 to 8, further comprising means for sending a radio signal containing an alphanumeric message for each member of a group when selected.

10. A user station according to any of claims 1 to 9, wherein said data is stored in a removable data store, such as a SIM.
11. A removable data store for a user station according to claim 10.
12. A method of allowing user selection of recipient addresses in a user station for use in a mobile communications system, said method comprising:
storing data relating to a plurality of groups of recipient addresses;
storing for each said group an identifier which is programmable by a user of the station; and
presenting said identifiers to a user of the station in order to allow user selection of one of said groups.
13. A method according to claim 12, wherein said identifier is an alphanumeric character string.
14 - A method according to claim 12 or 13, further comprising presenting to a user of the station an information item relating to the number of recipient addresses in each said group.

15 • A method according to any of claims 12 to 14, further comprising allowing a user to create one of said groups by selecting recipient addresses from a list of recipient addresses stored in said user station.
16. A method according to any of claims 12 to 15, further comprising sending a radio signal containing an alphanumeric message for each member of a group when selected.
17. A user station for use in a mobile communications system, said user station comprising means for storing a plurality of recipient addresses, means for selecting a group of recipient addresses from said plurality of recipient addresses, and means for sending a teleservice signal for each member of said selected group of directory numbers automatically in a consecutive order.
18. A user station according to claim 17, wherein said group is selectable before a teleservice signal is sent.
19. A user station according to claim 17 or 18, wherein sending of one of said teleservice signals is

completed before a subsequent teleservice signal is sent.
20. A user station according to claim 19,
wherein said subsequent teleservice signal is
automatically sent without requiring user input after
one teleservice signal is sent.
21. A user station according to claim 2 0, wherein each of said teleservice signals is automatically sent without requiring intervening user input after the first of said teleservice signals is sent.
22. A user station according to any of claims 17 to 21, wherein said group is selected from a plurality of stored predetermined groups of recipient addresses.
23. A user station according to claim 22, wherein each of said predetermined groups is provided with an individual memory portion in said storing means.
24. A user station according to claim 23, wherein said memory portion stores data for presenting a group identifier to a user of said mobile station.

25. A user station according to claim 24, wherein said group identifier is selected by said user to perform said group selection.
26. A user station according to any of claims 17 to 25, wherein said user station sends an alphanumeric message, such as an SMS message, in said teleservice signal.
27. A user station according to any preceding claim, wherein a message sent in each said teleservice signal is identical.
28. A user station according to any of claims 17 to 25, wherein said teleservice signal is a call establishment signal for a voice call.
29. A user station according to any preceding claim, wherein said plurality of recipient addresses are stored on a removable data store, such as a SIM.
30. A user station according to claim 27, wherein said user station comprises a main processor located in the main body of the user station, and said removable data store comprises a further processor.

31. A user station according to claim 3 0, wherein said further processor only performs procedures under the direction of said main processor.
3 2. A user station according to claim 3 0, wherein said main processor performs procedures under the direction of said further processor.
33. A method of sending teleservice signals from a user station in a mobile communications system, said method comprising storing a plurality of recipient addresses in said user station, selecting a group of recipient addresses from said plurality of directory numbers, and causing said user station to send a teleservice signal for each member of said selected group automatically in consecutive order.
34. A method according to claim 33, wherein said group is selected before a teleservice signal is sent.
35. A method according to claim 33 or 34, wherein sending of one of said teleservice signals is completed before a subsequent teleservice signal is sent.
36. A method according to claim 35, wherein said

subsequent teleservice signal is automatically sent without requiring user input after one teleservice signal is sent.
37. A method according to claim 36, wherein each of said teleservice signals is automatically sent without requiring intervening user input after the first of said teleservice signals is sent.
38. A method according to any of claims 33 to 37, wherein said group is selected from a plurality of stored predetermined groups of recipient addresses.
39. A method according to any of claims 33 to 38, further comprising displaying a group identifier on said user station, which is selected to perform said group selection.
40. A method according to any of claims 33 to 39, wherein said user station sends an alphanumeric message, such as an SMS message, in said teleservice signal.
41. A method according to any of claims 33 to 40, wherein a message sent in each said teleservice signal is identical.

42. A user station for use in a mobile communications system, said user station comprising means for storing a plurality of recipient addresses, means for selecting a group of recipient addresses from said plurality of recipient addresses, means for storing a message to be sent to each member of said selected group, and means for sending separate teleservice signals for each member of said selected group, each said teleservice s ignal containing the stored message.
43. A user station for use in a mobile communications
systern, substantial ly as hereinabove described and il lustrated
with reference to the accompanying drawings.
44. A method of sending teleservice signals from a user
station in a mobile communications system, substantially as
hereinabove described and illustrated with reference to the
accompanying drawings-


Documents:

1965-mas-1997- abstract.pdf

1965-mas-1997- claims duplicate.pdf

1965-mas-1997- claims original.pdf

1965-mas-1997- correspondence others.pdf

1965-mas-1997- correspondence po.pdf

1965-mas-1997- description complete duplicate.pdf

1965-mas-1997- description complete original.pdf

1965-mas-1997- drawings.pdf

1965-mas-1997- form 1.pdf

1965-mas-1997- form 26.pdf

1965-mas-1997- form 3.pdf

1965-mas-1997- form 6.pdf

abs-1965-mas-1997.jpg


Patent Number 207560
Indian Patent Application Number 1965/MAS/1997
PG Journal Number 26/2007
Publication Date 29-Jun-2007
Grant Date 14-Jun-2007
Date of Filing 04-Sep-1997
Name of Patentee M/S. ORANGE PERSONAL COMMUNICATIONS SERVICES LTD
Applicant Address ST JAMES COURT, GREAT PARK ROAD, ALMONDSBURY PARK, BRADLEY STOKE, BRISTOL BS12 4QJ.
Inventors:
# Inventor's Name Inventor's Address
1 MARK GREEN 20 MANOR FARM CRESCENT, HUTTON, WESTON-SUPER-MARE, NORTH SOMERSET BS24 9XB.
PCT International Classification Number H04Q7/22
PCT International Application Number N/A
PCT International Filing date
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 9618539.2 1996-09-05 U.K.