WO1996042175A1

WO1996042175A1 - Method and terminal equipment for transmitting information not relating to a call

Info

Publication number: WO1996042175A1
Application number: PCT/FI1996/000321
Authority: WO
Inventors: Kimmo Savolainen
Original assignee: Ne-Products Oy
Priority date: 1995-06-13
Filing date: 1996-05-31
Publication date: 1996-12-27
Also published as: FI100500B; EP0882372A1; AU5823096A; FI952906A0; ZA964420B; FI952906A

Abstract

The invention relates to a terminal equipment and to a method for transmitting information not relating to a call to a telephone user in a cellular radio system comprising a number of terminal equipments (20a-20c) and base stations (22a-22c) communicating over a radio path, in which method information not relating to the calls is sent from the system to the terminal equipments (20a-20c) which display the information in a display unit (35). For conveying versatile information effectively to a terminal equipment user, the display unit (35) of the terminal equipement is controlled in such a way that the display unit (35) displays alternately call-related information and information not relating to the calls.

Description

Method and terminal equipment for transmitting information not relating to a call

The present invention relates to a method for transmitting information not relating to a call to a telephone user in a cellular radio system comprising a number of terminal equipments and base stations com¬ municating over a radio path, in which method informa¬ tion not relating to the calls is sent from the system to the terminal equipments which display the information in a display unit.

The invention also relates to a terminal equip¬ ment in a cellular radio system, comprising a cellular radio transceiver, a display unit, and means for receiv- ing from the cellular radio system textual information intended for the user and not relating to the calls to be forwarded.

Conventional terminal equipments intended for speech transmission that are used in cellular radio sys- terns today have a display unit as well, through which various types of information relating to calls and call establishment can be conveyed to the user. Typically the display unit displays for example the field strength of the signal received by the terminal equipment from the base station, the telephone number of the other sub¬ scriber, and the duration of the call.

It is also possible to convey other text information in the form of 'short messages' in digital cellular radio systems. In such a case, the display unit of the terminal equipment that received the short mess¬ age displays a brief message typically having a length of a few words. The length of the message is limited by the size of the display unit, which is very small in typical terminal equipments. Short messages are one-time user-to-user type messages, which are read once and deleted from the memory of the terminal equipment. The implementation of short messages is described in detail in GSM specification TS GSM 03.40, which is incorporated herein by reference. Solutions in accordance with the prior art are intended for user-to-user communication in which the delivered message can be discarded after reading. The prior art solutions are rather poorly suited to con¬ veying long-term information. It is an object of the present invention to enable conveying of various kinds of information to one or more terminal equipments simultaneously as the information necessary for the calls and call estab¬ lishment is also visible to the user. This object is achieved with a method as set forth in the preamble, which is characterized in that the display unit of the terminal equipment is controlled in such a way that the display unit displays alternately call-related information and information not relating to the calls.

The terminal equipment set forth in the preamble is characterized in that it comprises means for control¬ ling the display unit in such a way that the display unit displays alternately call-related information and information not relating to the calls.

The method of the invention makes it possible to realize a versatile information service to terminal equipment users. The invention can be applied in any conventional cellular radio system. As cellular radio systems are becoming more com¬ mon and as their coverage areas are in many places replacing systems implemented with fixed wired telephone connections, it has become necessary to develop pay telephones utilizing cellular telephone systems. A need for such telephones exists for instance in an area where no fixed wire telephone connections have been con¬ structed, or in applications in which a pay telephone is located in an environment where a connection to a fixed network is not readily available, for instance in moving vehicles. The method of the present invention can be applied with particular advantage in a system in which pay telephones have been implemented with terminal equipment. In that case, information services can be furnished on the display of the terminal equipment when the telephone is in idle mode and also during calls.

Information services may include any information that is of interest to customers, such as information on road traffic congestions in the surroundings of the ter¬ minal equipment, information on stock exchange quota- tions, or advertisements.

The method and the terminal equipment in accordance with the invention can be implemented in any cellular radio system, such as the NMT, AMPS, TACS and GSM. In the terminal equipment of the invention, it is possible to apply the characteristics of the cellular radio systems effectively to the special requirements of a pay telephone. In particular, the above-mentioned information transfer can be realized for instance in the GSM and DCS systems by using 'short messages' . The information can thus be conveyed during a call, and it is not necessary to reserve a separate radio channel for this purpose, but the information can be transmitted by means of signalling during the call.

In the following, the invention will be ex- plained in greater detail with reference to the examples in accordance with the accompanying drawings, in which Figure 1 is a schematic representation of the configuration of a pay telephone system,

Figure 2 schematically represents an example of the transmission of a super me. sage, Figure 3 illustrates an example of the construc¬ tion of a terminal equipment of the invention on block diagram level, and

Figure 4 illustrates a possible construction for the control unit by means of a block diagram.

In the following, the invention will be de¬ scribed in detail using as an example the digital GSM mobile telephone system, yet without being restricted thereto. It will be apparent that the terminal equipment of the invention can be implemented with minor modifications in any analog or digital cellular radio system, as stated previously.

In a preferred embodiment of the invention, the terminal equipment displaying extra information is a pay telephone, but the invention may likewise be applied to terminal equipments in normal use.

Figure 1 illustrates the configuration of a pay telephone system to be realized in a cellular radio net¬ work. The system comprises a number of pay telephones 20a-20c, each communicating with base stations 22a-22b via a radio path 21a-21c. With regard to the radio path and the base station, the terminal equipments serving as pay telephones are no different from conventional subscriber terminal equipment. The base stations 22a-22b typically communicate with base station controllers 24a- 24b via transmission links 23a-23b, which can be implemented with an optical cable, copper wireline or radio relay link, and each base station controller controls several base stations. The base station controllers 24a-24b in turn communicate with a mobile exchange 26 via transmission lines 25a-25b, said mobile exchange controlling the operation of the base station controllers and forwarding the calls from the terminal equipments further to a fixed network or to other parts of the cellular radio system through transmission lines 27.

In the exemplary GSM system, the control equip¬ ment 30 of the pay telephone system is connected for instance by using an X.25 connection 29 to a short mess- age service centre 28, which in turn communicates with GSM cellular networks and the mobile exchanges thereof. The above description of a cellular radio system thus relates to the GSM system, but it is obvious that even though the construction in other systems differs in its details from that which is described, there are no dif¬ ferences as regards the essential parts of the construc¬ tion. It should be noted that it is possible to realize a pay telephone system without a short message service centre also in the GSM system by connecting the control equipment 30 of the pay telephone system to the cellular radio system in other known ways, for instance by means of a modem.

In a preferred embodiment of the invention, the control and management of the information to be dis- played to the customer, i.e. to the user of the terminal equipment, are incorporated in the pay telephone control equipment 30. The same information may be transmitted to one or several terminal equipments controlled by the control equipment. In a preferred embodiment of the invention, the information to be displayed to the customer, i.e. to the user of the terminal equipment, is delivered to the ter¬ minal equipment in the form of short messages. The com¬ munication protocol is based on the use of a super mess- age consisting of one or more short messages. The short message service of the GSM is based on sending separate independent messages. In the solution in accordance with the invention, a sequence number is attached to each message of the super message for the detection of trans- mission error situations. The recipient of the message acknowledges the receipt of the message to the sender. The reason for a negative acknowledgement may be recep¬ tion of an incorrect super message, which is detected on the basis of the sequence numbers or check sums for the messages.

The control equipment 30 of the pay telephone system thus forwards the messages to the short message service centre 28, which handles the relaying of actual short messages to all addressed terminal equipments. In the solution in accordance with a preferred embodiment of the invention, the communication protocol is effici¬ ent, because simultaneously as the control equipment 30 sends super messages to the pay telephones, it can receive acknowledgements of short messages sent by the short message service centre 28.

The following is a description of the structure of a super message in accordance with the invention. The super message SprM consists of one or more separate short messages SMi:

SprM = SM0 + SMI + + SMn.

Each short message SMi has a Short Message Sys¬ tem Part SMSi, e.g. information on the sender and recipient. The structure of the Short Message System Part is described in detail in the GSM specification 03.40 referred to above. In addition to the system part, each message comprises a Short Message User Part SMUi that contains the actual message to be sent:

SMi = SMSi + SMUi, where i = 0...254.

The structure of the Short Message User Part may be illustrated by the formula SMUi = Id + SM_No + Data + Check_Sum

where Id is the identification of the super message, preferably having a length of 1 byte, SM_No is the short message sequence number, preferably having a length of 2 bytes. Data is the information to be sent, having a length of 1 - n bytes, and Check_Sum is a modulo 256 sum of bytes in SMU, having a length of 1 byte. Figure 2 illustrates an example of a situation in which a super message consisting of three short mess¬ ages SMO, SMI, SM2 is sent. The pay telephone system control equipment PMS transmits the messages to the short message service centre SM-SC, which acknowledges the received messages and relays them further to the pay telephone PP. The pay telephone PP acknowledges the received messages to the short message service centre SM-SC, and the acknowledgement is also transmitted to the pay telephone system control equipment PMS. The short message service centre sends an indication of the delivery of the acknowledgement to the pay telephone.

Figure 3 illustrates an example of a preferred embodiment of a terminal equipment of the invention. The terminal equipment of the invention comprises a cellular radio transceiver 31 and a control unit 33 connected directly to the transceiver 31 without a two-wire con¬ nection. The terminal equipment of the invention also comprises a collecting means 34 connected to the control unit 33. The terminal equipment typically also comprises a dialling means 36 with which a desired telephone num¬ ber is dialled, display equipment 35, and a receiver 37. The terminal equipment may also comprise means 38 en¬ abling a hands-free facility, comprising a loudspeaker 39, a microphone 40 and the required amplifiers. Some or all of the above components may, if desired, be directly integrated into the transceiver 31, but they may also be implemented as separate means, even if structurally within the same casing.

The purpose of the collecting means 34 is to enable the user to be charged for executing a call in accordance with the current tariff and the character¬ istics of the call executed. The collecting means 34 can be implemented in a variety of known ways. A typical implementation is to use a call card reading/writing device. The cards used may be for instance disposable cards which contain a certain amount of talk time and which cannot be reloaded. It is also possible to use loadable call cards, various smart cards or credit cards. When credit cards are used, the control unit 33 must be capable of checking the credit standing. It is also possible to use 'proximity cards', i.e. cards that are read and written into without any physical contact between the reading device and the card, in the equip¬ ment. Hence the use of wearing parts in the device is obviated, such parts being included for instance in a magnetic card reading device. In such a case, the equip¬ ment may also be implemented without any openings in the exterior, which will reduce the possibility of van¬ dalism. The purpose of the transceiver unit 31 is to establish a radio connection to a base station when re¬ quired, in order that a call may be forwarded. The unit 31 also handles all procedures relating to the main¬ tenance of the radio path and the call that are normally the task of a mobile telephone. The unit 31 also re¬ ceives the short messages transferred by the base sta¬ tion and transmits them to the control unit 33 for pro¬ cessing. Likewise, the unit 31 sends acknowledgements of received short messages to the base station under the control of the control unit 33. The purpose of the control unit 33 is to control the pay telephone. The control unit typically comprises a microprocessor, fixed and reprogrammable memory cir¬ cuits, multiplexing means and switches. The control unit controls the operation of the other units of the equip¬ ment, keeps a record of the calls executed and handles the charging.

Figure 4 illustrates a possible way of embodying the control unit 33. In the figure, the control unit is connected to the transceiver unit via a bus 32, and the control unit is provided with a bus buffer 41, which can be implemented with separate components. The unit com¬ prises a microprocessor 42, which may be for instance model Intel 80C32 or equivalent. The processor has con- nected to it detector means 43 detecting whether the performance of the processor program is interrupted owing to an error and restarting the processor when needed. The control unit further comprises memory means 44, into which a program code is stored. The memory means 44 can be implemented for instance with a ' flash memory circuit', which can be updated. The control unit further comprises second memory means 45, into which for instance payment transaction data and received short messages are stored. The second memory means 45 are bat- tery secured. The unit further comprises buffering means 46, 47, of which the buffer 46 serves as a data out buf¬ fer, with outgoing lines 48 for controlling the col¬ lecting means 34, to audio switches, and for controlling the dialling means 36. The buffering means 47 serve as a data in buffer, with incoming lines connected for instance to the dialling means 36, the receiver 37, and the collecting means 34. Furthermore, there is a connection 50 from the processor 42 to the display means 35. The display equipment 35 used may be for ins- tance an LCD display, which is capable of displaying numerals, letters, and also graphics if desired. Typical information shown on the display is information relating to the state of the call and to charging. Hence, the control unit 33 receives short mess¬ ages from the transceiver 31 and typically stores them in the memory means 45. If the short message relates to the information displayed in the display means, the pro¬ cessor 42 controls the display means as called for by the message, when necessary. In the solution in accord¬ ance with the invention the display means are thus con¬ trolled in such a way that they display to the user alternately the above call-related information, such as call time, call state and charging information, and information not relating to the call, such as road traf¬ fic information, weather reports, advertisements, etc. The alternation can preferably be realized in such a way that information of both types is displayed for a fixed period at a time, whereafter a new type of information is changed into the display. The fixed period may be for example 5 seconds.

The alternation time may also be determined by means of the short message, e.g. incorporating said time in the same short message as the information. The short message may also contain an indication of how long the same information not relating to the call is repeated together with the call-related information, and when new information not relating to the call is substituted for the previous one. Another alternative is to use a fixed value, for example 5 minutes, whereafter the information is changed.

The control of the display means 35 may be sim¬ ilar irrespective of whether the terminal equipment is actively participating in a call or in idle mode with no ongoing call. When a call is in progress, the extra information alternates with information relating to the proceeding of the call, and when the equipment is in idle mode, information relating to the field strength or other information facilitating call establishment or the use of the telephone can alternate with the extra information on the display. When the equipment is in idle mode, the display may naturally also be switched off, and the alternation of information may be applied only during a call. The dialling means 36 can be preferably imple¬ mented by utilizing prior art for instance by means of a 5*4 matrix keyboard and a decoder. When a user de¬ presses a key, the state of the depressed key is for¬ warded to the microprocessor, which reads the code of the depressed key from the decoder. The dialling means 36 may consist of dialling means comprised by the actual transceiver, or dialling means connected to the data bus of the transceiver or to the control unit. The dialling means 36 may be located in the receiver 37 or integrated into the casing structure.

The terminal equipment of the invention prefer¬ ably comprises means 38 for enabling the hands-free facility. Said means can be implemented by using known components, and they comprise a loudspeaker 39, a micro- phone 40, and the required amplifiers for producing a sufficient volume level. The hands-free facility may be switched on by means of the dialling means 36, when desired.

A pay telephone must forward information on the payment transactions to the system operator. In the ter¬ minal equipment of the invention, payment information can be conveyed preferably during calls, with no need to establish a radio connection separately for data trans¬ mission. The terminal equipment of the invention com- prises means 31, 33 for transmitting the payment data of the preceding call executed to the operator equipment 30 controlling the payment transactions during the next call executed at the terminal equipment without the call being disturbed or the caller being aware of the pro- cedure in any way. In the preferred embodiment of the equipment of the invention, this is carried out by util¬ izing short messages, which for instance in the GSM sys¬ tem can be transmitted as signalling messages during the call. In the GSM system, short messages are forwarded in a centralized manner to a short message service centre, wherefrom they are relayed further to a desired destination, which may be for instance another terminal equipment in some other system. In a preferred embodi- ment of the invention, the operator equipment is con¬ nected to a short message service centre, wherefrom the messages intended for the operator equipment are for¬ warded to destination. Short messages can be used in all data traffic between a pay telephone and the operator equipment, such as for transmitting call statistics, card blacklist information and credit card queries. The software of the terminal equipment and other parameters controlling the operation of the equipment can also be updated in said manner. Such parameters may include for instance barring of incoming calls or outgoing calls having specified area codes, or other corresponding facilities known from pay telephones.

The terminal equipment of the invention may be of fixed or mobile installation. Fixed installation means that the terminal equipment remains within the area of the same cell in a base station network. Such a terminal equipment may be for instance a pay telephone fixedly installed in a building or a telephone booth. A mobile installation in this context means that the ter- minal equipment may move from one cell to another in a base station network. A terminal equipment of this kind may be for instance a vehicle-mounted pay telephone, such as one installed in a taxi or a bus, or a pay telephone installed in a train and moving with the train.

Even though the invention has been explained in the above with reference to examples in accordance with the accompanying drawings, it is obvious that the inven¬ tion is not restricted to them but can be modified in a variety of ways within the scope of the inventive idea disclosed in the appended claims.

Claims

Claims:

1. A terminal equipment in a cellular radio sys¬ tem, comprising a cellular radio transceiver (31), a display unit (35), and means (31) for receiving from the cellular radio system textual information intended for a user and not relating to the calls to be forwarded, c h a r a c t e r i z e d in that the terminal equip¬ ment comprises means (33) for controlling the display unit (35) in such a way that the display unit (35) dis¬ plays alternately call-related information and informa¬ tion not relating to the calls.

2. A terminal equipment as claimed in claim 1, c h a r a c t e r i z e d in that the terminal equip- ment comprises means (31) for receiving from the cel¬ lular radio system a message consisting of one or more short messages, and means (33) for directing the message contained in the received message to the display unit (35).

3. A terminal equipment as claimed in claim 1 or claim 2, c h a r a c t e r i z e d in that the ter¬ minal equipment comprises means (33) for controlling the display unit (35) in such a way that the type of information displayed in the display unit (35) is changed at given intervals.

4. A terminal equipment as claimed in claim 1, c h a r a c t e r i z e d in that the terminal equip¬ ment comprises means (31) for receiving from the cel¬ lular radio system an indication of the desired interval after which the type of information displayed in the display unit (35) is changed.

5. A terminal equipment as claimed in claim 2, c h a r a c t e r i z e d in that the terminal equip¬ ment comprises means (33) for controlling the display unit (35) in such a way that the information not rel- ating to the call alternately displayed in the display unit (35) is changed at given intervals.

6. A terminal equipment as claimed in claim 2, c h a r a c t e r i z e d in that the terminal equip- ment comprises means (33) for controlling the display unit (35) in such a way that the message contained in the received message is displayed to the user in two or more parts, which are displayed in succession at given intervals.

7. A terminal equipment as claimed in claim 2, c h a r a c t e r i z e d in that the terminal equip¬ ment comprises means (33) for storing several different messages to be displayed, and means (33) for controlling the display unit (35) in such a way that each stored message is displayed to the user in succession at given intervals.

8. A terminal equipment as claimed in claim 1, c h a r a c t e r i z e d in that the terminal equip¬ ment comprises a control unit (33) controlling charging operations and being directly connected to the cellular radio transceiver, and a collecting means (34) connected to the control unit (33) .

9. A terminal equipment as claimed in claim 8, c h a r a c t e r i z e d in that the control unit (33) is connected to the cellular transceiver (31) via a bus interface (32) .

10. A terminal equipment as claimed in claim 8, c h a r a c t e r i z e d in that the terminal equip¬ ment comprises means (31, 33) for transmitting the charging data of the previous call executed to the unit (30) controlling the payment transactions during the next call executed at the terminal equipment.

11. A method for transmitting information not relating to a call to a telephone user in a cellular radio system comprising a number of terminal equipments (20a-20c) and base stations (22a-22c) communicating over a radio path, in which method information not relating to the calls is sent from the system to the terminal equipments (20a-20c) which display the information in a display unit (35), c h a r a c t e r i z e d in that the display unit (35) of the terminal equipment is con¬ trolled in such a way that the display unit (35) dis¬ plays alternately call-related information and informa¬ tion not relating to the calls.

12. A method as claimed in claim 11, c h a r ¬ a c t e r i z e d in that messages not relating to the calls are sent to the terminal equipments by means of one or more short messages.

13. A method as claimed in claim 11, c h a r - a c t e r i z e d in that the same message not relating to the calls is sent to one or more terminal equipments (20a-20c).

14. A method as claimed in claim 11, c h a r ¬ a c t e r i z e d in that the display unit (35) of the terminal equipment is controlled in such a way that the information displayed in the display unit (35) is changed at given intervals.

15. A method as claimed in claim 14, c h a r ¬ a c t e r i z e d in that an indication of the desired interval after which the information displayed in the display unit (35) is changed is sent to the terminal equipments (20a-20c) by means of short messages.

16. A method as claimed in claim 11, c h a r ¬ a c t e r i z e d in that information not relating to the calls is displayed both when a call is in progress and when the telephone is in idle mode.