NO325728B1 - Procedure for transmitting short messages in a telecommunications system - Google Patents

Description

The present invention relates to a method for transmitting short messages in a mobile telecommunications system.

In today's GSM, the transmission of a text message to a mobile can be carried out in two ways: on the one hand via SMS (short message service), and on the other hand via SMS-CB (SMS Cell Broadcast). SMS is already often used today, but we will probably also see an increased use of cell radio broadcasting, which will be possible to use e.g. for advertising, and to position direct traffic information (per cell), etc.

In many cases it would also be useful to transfer a short message in the form of speech, instead of just text. Examples of such applications can be: - general traffic information, where the driver is often busy steering a car, - information for a specific group of users, e.g. information to drivers in a taxi company in a specific area, - a new form of mailbox function, which transmits entire voice messages that can be stored on the telephone, or equipment connected to it. >

The above stated service concept (short message of voice) does not exist defined for GSM (or for another mobile phone standard).

The purpose of the present invention is thus to implement a system that enables this service concept.

To examine how the technology's position for short-voice messages over e.g. GSM using a packet-switched carrier, such as GPRS, an initial investigation was carried out, where the following documents were found:

In the initial investigation, however, no documents were found describing the transmission of short-voice messages over a packet-switched radio carrier, such as the General Packet Radio Service. Two documents (document 1 and 2) describe the transmission of voice messages using SMS, but this is carried out here by normal text transmission and then speech synthesis into speech. Document 3 relates to the transmission of analogue signals, after which the analogue information is converted into a digital format and stored.

A large number of documents have also been found describing the transmission of digital voice data (documents 5-19). However, the transmission is not carried out over cable-based telecommunications systems. Document 20 concerns the radio transmission of emergency or SOS information using FM transmitters.

The above-mentioned purpose is achieved by a method for transmitting short messages in a mobile telecommunications system, where said short messages are voice messages that are transmitted using a packet-switched radio carrier such as

GPRS.

An advantage of the present invention is that it can be used for general traffic information when a person is busy driving a car."

A further advantage is that a voice message can be stored directly in the phone, which means that the subscriber does not have to call his/her own voice mailbox and burden the network unnecessarily.

Further features of the present invention are given in the subclaims.

In the future, the GSM system, with the introduction of General Packet Radio Service (GPRS), will be able to offer packet-switched services, as opposed to circuit-switched services today. GPRS is a cost-effective service in the sense that a GPRS mobile only uses the radio channel when it needs to transfer or send data. The advantage of GPRS is a short setup time compared to today's voice traffic, high data speed, and more efficient utilization of radio resources. GPRS can also be used as a "best effort" service, which means that you only use available capacity. GPRS can probably be cheaper than a circuit-switched service.

GPRS is a packet-switched service that will initially offer non-real-time services such as Internet services. On the other hand, GPRS will not be able to offer ordinary telephony. The difference between real-time services and non-real-time services is the delay requirement. Latency is a measure of how long it will take to transfer bit data from one user to another. Telephony is a real-time service that has a delay requirement of a few milliseconds, while Internet services have a lower delay requirement.

GPRS is not intended to be used as a carrier of voice in real time. According to the present invention, GPRS can transmit non-real-time voice to satisfy the need for future services adapted to GPRS.

There are three GPRS bearer services in particular that are of interest for the voice service: - GPRS PTP (point-to-point): Voice message to a single subscriber: E.g. voice mailbox. - GPRS PTM-M (point-to-multipoint multicast): One-way voice message to all, or a group of subscribers in a specific geographical area: F.g. general traffic information. -.GPRS PTM-G (point-to-multipoint group): Voice message to a group of subscribers, preferably within a geographical area, but communication can be two-way: E.g. communication within a taxi company.

The present invention thus presents a new carrier service or application that can transmit short-voice messages over a packet-switched carrier, e.g. GPRS. The service can be either a telecommunications service, i.e. all necessary functionalities are in the mobile terminal, or an application connected to a mobile terminal that uses e.g. GPRS as carrier for voice information. The service is called SVM (short voice message).

The principle of SVM is very simple. This means that the voice message is voice coded, in an application in the network or in another mobile terminal, and sent to the recipient via GPRS. Once the message has been received, the message can be decoded and read/played, either directly in the GPRS mobile, or in an external application.

SVM provides new opportunities for new services, and improves existing services. SVM requires the mobile phone to have a memory to receive and store voice messages. The size of the voice message is of the size of a few seconds, and should be possible to save on tomorrow's SIM card, or on a chip card in future terminals.

The background for this invention is, on the one hand, the SMS service (short message service) and its telecommunications service in today's GSM systems and, on the other hand, its future need for new carrier services and telecommunications services that will all fit in GPRS.

SVM will offer new, simpler solutions for today's telecommunications services, and opens up new opportunities for new telecommunications services. SVM will be able to transmit PTP (point-to-point) and PTM (point-to-multipoint) telecommunication services that will fit in the GPRS standard. In addition to this, SVM will expand the market and reach out to new user groups.

In today's mobile networks, SMS is used to transmit text messages. Text messages can be transmitted from one subscriber to another, like a regular short text message, or from the network to a subscriber to inform about, for example, new messages to his/her mobile mailbox or "fax box", etc. SMS is a non-real-time service. It is transmitted on the signaling channel and has a comparatively low delay requirement. In GPRS, it will be possible to transmit SMS on common GPRS traffic channels.

SVM will essentially work in the same way as SMS, but with speech instead of text. The advantages of SVM are many, and can be summed up by saying that speech is in some cases better than text. Some examples of SVM services are described below.

Mobilsvar is a telecommunications service that is currently used in GSM, and which can be modified to adapt to GPRS. In the current system, there is a central database in the network, where the messages for all mobile responses are stored. When a message has been recorded, an SMS is sent to the mobile which calls the central database to listen to the recorded message. All recorded messages are stored in the network, and every time there is a need to hear, or hear a message again, a connection is established and a radio resource is used. To listen, and listen again, to all one's mobile reply messages, the network is burdened unnecessarily. SVM can be used as a carrier for such a service. One can imagine that complete mobile reply messages are sent to the mobile phone via SVM and then stored on the SIM card, or in the mobile phone, once and for all. The advantage is that GPRS is used and that it is not necessary to establish a connection to hear, or hear again, a message, which reduces the load on the network.

"Traffic information" is one of the future GPRS services. "Traffic information" is a type of PTM service. An example could be users on motorways who are informed e.g. about road conditions, accidents etc. An alternative could be

that the network sends SMS to all cars that are on a certain motorway. Another option is that the network transmits an SVM instead of SMS and the message is read out on the car stereo. This requires a connection between the GPRS terminal and the car stereo, which is easy to implement. The special point for the last option is that the driver does not need to read text messages (SMS) when he/she is driving, which from a safety point of view is very important. The car stereo is an example of where an SVM application can be located, if it is not located in the GPRS terminal itself. The cars of the future will also have a number of new computer-supported functions with mobile data integrated into the system: Map data information, graphic "Head-Up-Display" with traffic information, etc. With such equipment, SVM can be easily integrated.

A further PTM GPRS service can be that one transfers advertising via SVM to all mobiles that are within a specific area, or to a specific target group.

SVM also provides the opportunity for new services, new products and new user groups. An example could be a new "minicall" terminal and a new "minicall" service. An imaginable "minicall" GPRS terminal with a memory and a speaker could be a cheap alternative. A new "minicall" service adapted to the "minicall" GPRS terminal may be one that transmits an SVM message. A conceivable user group for such a service could be children or disabled people who can neither read nor use a complicated mobile terminal. The advantage of such a service, compared to today's "minicall", is that it will have international coverage, and a confirmation from the recipient upon correct reception, when it uses GPRS as the carrier.

A number of application areas have been determined, and likewise applications, which can utilize SVM as a carrier service and telecommunications service.

The present invention is primarily intended to be used for radio transmission of voice information for e.g. traffic information and advertising. The service can also be used to create a distinctive image for Telia as an operator.

To summarize, it can be said that the present invention is characterized by the fact that: - a short voice message can be transmitted to one or a number of users; the carrier uses GPRS, PTP, GPRS PTM, or other similar carrier service; also non-packet-switched carriers can be used, but this will reduce the benefits of the service; the voice messages are voice coded and transmitted as a packet-switched radio carrier, voice messages are decoded and played, either directly in the mobile terminal, or in an external application, i.e. the SVM application can be integrated in the mobile terminal or on the outside of the mobile terminal in a device connected to said mobile terminal; the speech coder can be a GSM's speech coder, due to the fact that this decoding function already exists in the GSM terminal (as long as the terminal does not only support GPRS); also other speech codes can be used, especially in the case where the SVM application is outside the mobile terminal; a voice mailbox transmits voice messages directly to the user via SVM, where the message can be listened to at any time, and stored, without the user needing to call the mobile answering machine; traffic information can be transmitted via SMS so that a driver in a car does not need to read SMS text while driving; the application SVM can be implemented integrated into future data communication solutions for cars.

The above is only to be considered advantageous embodiments of the invention, and the scope of protection of the invention is only defined by what is stated in the accompanying patent claims.

Claims (7)

1. Method for transmitting short messages in a mobile telecommunications system, in which said short messages are voice messages that are transmitted using a packet-switched radio carrier, and that said voice messages are voice encoded and transmitted over said packet-switched radio carrier, and that said voice messages are decoded and recorded in a mobile terminal, which supports said radio carrier, or in a piece of equipment connected to said mobile terminal. characterized by that said packet-switched radio carriers consist of GPRS; and that mentioned. GPRS bearer service consists of: - GPRS PTP which applies to voice messages to a single subscriber, messages from a voice mailbox; - GPRS PTM-M which relates to one-way voice messages to all, or a group, of subscribers within a specific geographical area, - GPRS PTM-G which relates to voice messages to a group of subscribers, and where the communication is two-way. 2. Method in accordance with claim 1, characterized in that said voice messages are non-real-time messages. 3. Method in accordance with one of claims 1-2, characterized in that said voice messages are voice coded in said mobile terminal's voice codes. 4. Method in accordance with claim 3, characterized in that said mobile terminal's voice code is a GSM voice code. 5. Method in accordance with one of claims 1-4, characterized in that said voice messages are stored in said mobile terminal's memory/SIM card. 6. Method in accordance with one of claims 1-5, characterized in that said voice messages are transmitted to mobile terminals or equipment connected to said mobile terminals, said voice messages including transmission of information, traffic information or advertising information. 7. Method in accordance with one of claims 1-6, characterized in that a voice mailbox in said telecommunications system transmits voice messages (SVM) via GPRS directly to a mobile terminal/equipment connected to said mobile terminal, whereby subscribers connected to said mobile terminal/equipment can listen to said voice messages at optional times without needing to call a mobile phone.