Classifications

• • H—ELECTRICITY
  • H04—ELECTRIC COMMUNICATION TECHNIQUE
  • H04M—TELEPHONIC COMMUNICATION
  • H04M3/00—Automatic or semi-automatic exchanges
  • H04M3/42—Systems providing special services or facilities to subscribers
  • H04M3/50—Centralised arrangements for answering calls; Centralised arrangements for recording messages for absent or busy subscribers ; Centralised arrangements for recording messages
  • H04M3/53—Centralised arrangements for recording incoming messages, i.e. mailbox systems
  • H04M3/533—Voice mail systems

Definitions

• the invention relates to voicebank and other messaging applications in telecommunications systems.
• Such applications are now becoming commonplace, allowing communication to be made between a calling party and a called party without the need for both to be available simultaneously.
• a called party may be unable or unwilling to answer the telephone when a call is made, for example because he does not wish to be disturbed, or he is not present.
• a voicebank system can be used to divert incoming calls to a messaging service, which comprises a data store in which a message can be left for subsequent retrieval by the party for whom the call was intended.
• Some voicebank systems are provided as part of the telephone terminal equipment, (so-called “telephone answering machines") but, increasingly, network operators are providing the facility as part of the network itself. This reduces terminal complexity, and allows messages to be left even when connection to the destination terminal is not possible, for example because it is engaged on another call or, (if it is a mobile terminal) because it is out of radio range of a base station or is switched off.
• a calling party on being connected to the message bank system, receives a prompt inviting the caller to leave a message.
• the prompt is generally a spoken message, which may be a recording or may have been generated synthetically.
• the prompt is the "handshake" code transmitted by the receiving machine to prompt the calling facsimile machine to transmit at a rate which does not exceed the capabilities of the receiving machine.
• Any message transmitted by the calling party is stored in the message bank.
• the message may be stored in any suitable form.
• Network-based systems generally store the messages in digital form, as do some terminal-based systems, but many terminal-based voicebank systems use magnetic tape to record an analogue signal.
• the called party When the called party wishes to access his message bank, he transmits a command to the message bank system. For a terminal-based system, this merely requires appropriate keypad commands on the terminal equipment. If the system is network-based, the command must include information to identify which user is calling. For many network-based systems this information is generated automatically, using calling line identity (CLI), or identification codes such as the user identity code (IMSI) which identifies the SIM (subscriber identity module) of a mobile terminal operating according to the GSM (Global System for Mobile communications) standard. Control of the system requires specific commands, such as "play next message”, “repeat this message”, “delete message” to be transmitted. These are generally transmitted to the network functionality using key-entry commands, which are transmitted using DTMF (dual tone multiple frequency) codes or the like.
• CLI calling line identity
• IMSI user identity code
• GSM Global System for Mobile communications
• Network capacity is a scarce resource, particularly with the increasing demand for high-bandwidth services such as high-speed data and real-time video services.
• Analogue speech channels also require a wide bandwidth. It is therefore desirable to avoid the unnecessary allocation of bandwidth when it is not required for the service requested.
• a communications system of this type is characterised in that the network control means is arranged to establish a one-way broad bandwidth communications link in the direction in which the message is to be transmitted.
• the invention may be used with network-based message banks or terminal- based message banks.
• the relatively broad bandwidth communications link is a traffic channel suited to the nature of the message to be stored (voice, data etc) whilst the relatively narrow bandwidth communications links are out-of- band signalling channels.
• This arrangement reduces the network resources required to operate the system. Separation of the control signals from the channel carrying the message itself allows the use of a simplex (one-way) channel for the relatively broad bandwidth message-carrying channel. By eliminating the need for the return channel, network capacity can be improved.
• the one-way channel may also carry any control signals to be transmitted in the same direction, which in turn allows the use of a simplex narrow-bandwidth channel to be used for control signals in the reverse direction.
• the invention may comprise means for identifying whether the remote terminal requires transmission and/or receipt of control signals over a relatively broad bandwidth communications link in the direction contrary to that in which the message is to be transmitted, and can be arranged to establish a one-way broad bandwidth link if the said terminal does not require such a broad bandwidth link in the reverse direction, and to establish a two-way broad bandwidth link if the said terminal requires such a broad bandwidth link.
• the invention may further comprise means to convert the two-way broad bandwidth link to a one-way broad bandwidth link during the course of a call should the requirement for a broad bandwidth link in the reverse direction cease.
• the invention may alternatively comprise means to reverse the sense of the one-way broad bandwidth communications link during the progress of a call.
• the invention also extends to telecommunications terminal equipment for use with the system defined above, comprising means for receiving said control signals over a relatively narrow band channel, and converting said control signals into prompt signals readable by the person or machine transmitting or receiving the message.
• Such terminal equipment may be the message storing terminal, or the terminal by which the message storing service is accessed to send or retrieve messages.
• the invention comprises a method of transmitting a message from a remote terminal to a message storage means, or retrieving a message from a message storage means, over relatively broad bandwidth communications links, wherein signals for controlling the operation of the message bank system are transmitted over relatively narrow bandwidth communications links, characterised in that a one-way broad bandwidth communications link is established in the direction in which the message is to be transmitted.
• the invention is suitable for message deposit and for message retrieval, provided in each case that the terminal used allows the processing of out-of-band signalling.
• the relatively broad bandwidth link used for transmitting the requested messages can also be used for transmitting voice prompts and the like.
• the originating terminal requires a facility for processing and displaying prompts and other signals received from the network in the out-of-band format.
• the system is preferably compatible with existing terminals and networks (including the traditional Public Switched Telephone Network (PSTN)) it will not always be possible to operate message deposit in this way.
• PSTN Public Switched Telephone Network
• the invention may be used to support only message deposit, or only message retrieval. It may also be used selectively, operating in a mode according to the invention only in respect of suitable terminals, and/or only in respect of message retrieval, being used in a second, conventional, mode otherwise.
• Figure 1 is a schematic diagram showing the general arrangement of a message-bank system in which messages are stored in a conventional manner
• Figure 2 is a schematic diagram showing the general arrangement of a message-bank system in which messages are stored in a manner operating according to the invention
• Figure 3 is a diagram illustrating the operation of the system of Figure 2.
• Figure 4 is a diagram illustrating an alternative method of operation of the system of Figure 2.
• Figure 5 is a schematic diagram showing the general arrangement of a message-bank system in which messages are retrieved in a conventional manner
• Figure 6 is a schematic diagram showing the general arrangement of a message-bank system in which messages are retrieved in a manner operating according to the invention.
• FIG 7 is a diagram illustrating the operation of the system of Figure 6.
• a message bank 1 In Figures 1 , 2, 5 and 6 there is shown a message bank 1 .
• this is a network-based message bank, but in Figures 1 and 2 it may instead be a terminal-based system, more commonly known as an "answering machine". In such systems, of course, retrieval takes place at the user's terminal, without the use of the network.
• the messaging system is connected through a telecommunications network 2 to a terminal 3.
• this is the terminal used by the calling party to leave a message
• Figures 5 and 6 it is the terminal used by the called party to retrieve the message.
• connection 4, 5 is capable of supporting the message in the format in which it is transmitted (speech, broadband data, etc) and is a conventional duplex link 4 in Figures 1 and 5.
• it is a simplex (one-way) link 5 from the terminal 3 to the message bank 1
• Figure 6 it is a simplex (one-way) link 6 in the converse direction.
• An "out-of-band" signalling channel 7 is also shown in the Figures. This signalling channel 7 may in practice be the signalling channel used in initially setting up the call; however in Figures 2 and 6 separate simplex signalling channels (operating in the sense indicated) may be employed for the additional signalling to be discussed with reference to those figures.
• the network 2 is controlled by a network control system 8 which is typically an "Intelligent Network" (IN) platform.
• the voice messaging system operates as follows.
• the network control system 8 When a call is set up over a telecommunications system, the network control system 8 first sets up a signalling connection 7, which provides the various call set-up functions including the provision of ringing tone, etc. When the called party answers, this is recognised by the network control system 8 which sets up a full telephone connection 2.
• the network control system 8 when a caller 3 attempts to make a telephone call, the network control system 8 diverts the call through the network 2 to the message bank 1 . This may occur because the called party has set up the diversion manually.
• the settings of the network control system 8 may cause automatic diversion if the called party's telephone does not respond, is busy on another call, is switched off or (for a mobile telephone) is out of range of the base station network.
• Network- based message banks 1 have separate addresses for each telephone served by the network, and calls to the message bank 1 are routed to the address corresponding to the called number.
• the network control system 8 on connection of a telephone 3 to an address in the message bank 1 , first establishes a signalling link 7. If the call is connected, a conventional telephone connection 4 is set up over the network, over which prompts are sent to the caller 3 from the message bank 1 , inviting the caller 3 to leave a message. These prompts are conventionally in the form of synthesised or recorded speech, suitable for the telephone connection. The calling party 3 can then transmit a spoken message over the connection 4 for storage in the appropriate address of the message bank 1 , for subsequent retrieval.
• the nature of the signals to be stored in the message bank 1 will be different, and in order to correctly co-operate with the calling party 3, the prompts transmitted from the message bank have to be appropriate.
• a human listener cannot interpret or generate the speech-band signals used to control facsimile machines.
• facsimile machines and modems will not respond to voice prompts.
• the selection of the appropriate prompt can be achieved by having separate message bank facilities for speech and data, requiring diversion to different numbers.
• a single message bank 1 may be made capable of identifying the various "handshake" signals generated by different types of calling device, and transmitted over the telephone connection 2 when first set up. In response, the message bank 1 transmits a prompt of the type appropriate to the type of caller.
• Figure 5 shows the message retrieval process for a conventional message bank system.
• a user 3 wishes to access the message bank, he dials a number to establish a conventional telephone connection 4 to the message accessing function of the message bank 1 .
• the message bank 1 may identify the user's individual address within the message bank 1 by using calling line identity (CLI) signals transmitted over the signalling connection 7 during call set-up.
• CLI calling line identity
• the message bank 1 next transmits a prompt to the user over the newly-established telephone connection 4.
• the format of this prompt may be a voice message, or a facsimile or modem "handshake", depending on the nature of the messages stored in the message bank, and/or the nature of the terminal 3 making the call.
• this prompt may request the user 3 to identify the address required. This allows a user to access his message bank. Password protection may be used to avoid unauthorised access.
• the user may control the playback of messages stored in the message bank 1 using commands transmitted from his terminal 3 over the telephone connection 4. For example a user may wish to list the messages (by time, calling number, or other characteristics), play a message from the list (next, previous etc), or delete a message.
• the control commands are typically transmitted as DTMF (dual tone multiple frequency) signals over the telephone connection 4.
• DTMF dual tone multiple frequency
• the network control system 8 identifies that the called party is a message bank (step 32) and establishes a one-way (simplex) telephone connection 5 to the message bank (step 33). No channel is established in the reverse direction, apart from the signalling connection 7 established during the initial call set-up process 31 /32. Since channels are generally allocated in pairs (e.g. frequency pairs in radio communications, wire pairs in fixed networks), simplex operation releases the partner channel for other purposes. If the calling party 3 is a mobile telephone, it may be connected to the radio base station using an uplink radio channel which would otherwise be unusable, for example because the signal quality on the corresponding downlink channel is below acceptable limits.
• both paths may be used to provide two independent simplex links.
• network paths which, if used as conventional duplex paths, would suffer from echo (the return on one path of a signal transmitted on the other, resulting from acoustic or electrical feedback between the two channels) .
• echo the return on one path of a signal transmitted on the other, resulting from acoustic or electrical feedback between the two channels.
• Parts of these paths may nevertheless be usable as independent simplex links, as the connection from which the feedback would have originated would not form part of both links.
• the prompts that are sent from the message bank 1 to the user 3 are carried in out-of-band signalling using the signalling channel 7.
• the out-of-band signals may be converted to conventional in-band prompts at some intermediate point in the network.
• This intermediate point may be the local exchange (or mobile switching centre for a mobile telephone) to which the user terminal 3 is connected - in this case the connection between that intermediate point and the user 3 would then be by conventional duplex link.
• the network control system 8 may recognise whether the terminal 3 is of a type suitable for handling such out-of-band prompts, and establish a link 4,5 of appropriate type (simplex or duplex) accordingly, either between the user terminal 3 and the intermediate point (the rest of the link to the message bank being simplex), or throughout between the user terminal 3 and the message bank 1 .
• the prompts may control a display to give instructions to the user of the terminal 3.
• the terminal 3 may convert the prompts into instructions (voice or visual display), for example telling the user when to speak.
• the prompt may control the machine at the terminal 3 to cause it to transmit its data, for example using "Internet Protocol" (IP) .
• IP Internet Protocol
• the message to be stored can then be transmitted (step 38) over the simplex link 5 to be stored (step 39) in the message bank 1 .
• the message bank 1 may be customer-provided terminal equipment, or it may be associated with the network equipment 2.
• the network control system 8 initially sets up a conventional duplex broad bandwidth link 4 (step 42) in response to the call set-up request (41 ).
• the message bank 1 sends the "prompt" message (step 44) over the "down" (message bank to caller) leg of this duplex link 4.
• the message bank 1 then sends a command 46 to the network control system 8 to drop the "down" leg, (step 47) to leave only the "up” leg, thereby forming a simplex link 5 in the "up” direction.
• the caller on receiving the prompt (step 45), responds to it by sending his message (step 48) over the simplex link 5 to be received by the message bank 1 (step 49).
• a time division duplex arrangement may be employed, as also illustrated in Figure 4.
• the network control system 8 initially sets up (step 42) a simplex link 6 from the message bank 1 to the user terminal 3. This is used to send the prompt (step 44), and then the direction of the simplex link is reversed (step 47) to create a simplex link 5 over which the message can be transmitted.
• Message retrieval operates in the manner illustrated in Figures 6 and 7.
• the network contro, system 8 first sets up a signalling connection 7.
• the message facility 1 may use calling line identity to identify which messaging address is required, and whether the calling terminal has the out-of-band signalling capacity (step 72).
• a simplex voiceband connection 6 is then set up from the message bank 1 to the terminal 3 (step 73), and prompts are transmitted over this connection to the user (step 74).
• step 75 The user, on receiving such prompts (step 75) responds with signals entered on the keypad or other data entry device of his terminal 3 (step 76), and these are transmitted over the signalling connection 7 to control the further operation of the message bank 1 (step 77), and in particular to cause it to transmit selected messages (step 78) over the wide bandwidth link 6 to be received by the user 3 (step 79).
• the terminal 3 used to retrieve messages is generally the user's own terminal, which can be designed to be compatible with the network with which it operates. In particular, it can be provided with the means to generate out- of-band signals.
• a user may use other terminals 3 to access his message facility 1 (subject to password control, etc), and such other terminals may not all have the out-of-band signalling facility.
• conventional duplex provision may need to be provided for all or part of the connection through the network 2. This may take the form of conversion at some point in the network 2 between DTMF tones and out-of-band signals.
• the selection of simplex or duplex operation may be made by the network control system 8 during the call set-up process, by monitoring the signals sent over the signalling channel 7 by the terminal 3 (step 72) . This may be done either by identifying the terminal as simplex-compatible from its calling line identity, or by assessing whether it responds to the first prompt sent to it by transmitting an in- band signal (thereby signifying a duplex connection is required) or an out-of-band signal (signifying it is suitable for operation in simplex mode)
• the message bank 1 may be customer-provided terminal equipment, or it may be associated with the network equipment 2, for example at a switch. In the former case, of course, network facilities are only required for retrieval if the messages are being accessed remotely, from another terminal 3.
• the out-of-band signals used may be according to any suitable protocol, such as "CLASS” or "Internet Protocol” (IP).
• CLASS CLASS
• IP Internet Protocol
• the invention is particularly suited for use in multi-media networks, which have advanced add/drop bearer capabilities to allow asymmetric data transfer.

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• Engineering & Computer Science (AREA)
• Signal Processing (AREA)
• Data Exchanges In Wide-Area Networks (AREA)

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• 1999
  • 1999-07-14 WO PCT/GB1999/002242 patent/WO2000004696A1/en not_active Application Discontinuation
  • 1999-07-14 EP EP99933021A patent/EP1097560A1/de not_active Withdrawn

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