 |
Claims  |
|
|
I claim:
1. A multimedia mail system for transferring and storing test data and
voice data within said multimedia mail system, comprising:
a telephone network;
a text mail center storing test data;
a voice mail center storing voice data;
a center text/voice transmit/receive selector connected to said text mail
center, said voice mail center and said telephone network, said center
selector transferring test data between said text mail center and said
telephone network, and said center selector further transferring voice
data between said voice mail center and said telephone network, said
center selector switching between transferring the text data, or the voice
data or the text and voice data during one call;
a text terminal for inputting and outputting text data;
a voice terminal for inputting and outputting voice data; and
a terminal text/voice transmit/receive selector connected to said text
terminal, said voice terminal and said telephone network, said terminal
selector transferring text data between said text terminal and said
telephone network, said terminal selector further transferring voice data
between said voice terminal and said telephone network, said terminal
selector switching between transferring the next data or the voice data or
the text and voice data during one call.
2. A multimedia mail system according to claim 1 wherein, said center
text/voice transmit/receive selector comprises: first means for generating
a first discrimination signal to be transferred with either the text data
or the voice data to identify a type of data, voice or text, to be
transferred by said center selector; and said terminal text/voice
transmit/receive selector comprises a second means for generating a second
discrimination signal transferred with either the text data or the voice
data to identify the type of data, voice or text, to be transferred by
said terminal selector,
where said center text/voice transmit/receive selector and said terminal
text/voice transmit/receive selector switch between transferring the text
data and the voice data in accordance with the type of data identified by
said first discrimination signal or second discrimination signal.
3. A multimedia mail system according to claim 1 wherein said voice mail
center comprises a voice mail center processor for controlling a transfer
of the voice data and said text mail center comprises a text mail center
processor for controlling a transfer of the text data and wherein said
voice mail center processor and said text mail center processor are
interconnected processors for a transfer of stored text data and stored
voice data between said centers.
4. A multimedia mail system for transferring and storing test data and
voice data within said system comprising:
a telephone network;
a multimedia mail center connected to said network receiving voice and text
data from said network and transferring voice and text data to said
network; and
a plurality of terminals connected to said network;
said multimedia mail center comprising;
first means for storing the text data;
second means for storing the voice data;
a first text/voice transmit/receive selector transferring the text data
between said first means and said telephone network and for transferring
the voice data between said telephone network and said second means, said
first selector switching between transferring the next data or the voice
data or both text and voice data during one call; and
third means for controlling said first means, said second means and said
first text/voice transmit/receive selector; and
at least one of said terminals having;
fourth means for inputting and outputting the text data;
fifth means for inputting and outputting the voice data; and
a second text/voice transmit/receive selector transferring the text data
and the voice data by switching between the text data or the voice data or
the voice and text data during one call;
where said multimedia mail center stores the text data and the voice data
received from the at least one terminal via said network in said first
means and said second means respectively by said first selector switching
between the text data and the voice data during one call under control of
said third means, and said multimedia mail center transmitting the text
data and the voice data stored in said first means and said second means
respectively to the terminal by said first selector switching between the
text data and the voice data during one call under control of said third
means, and said second selector of said terminal transfers data between
said multimedia mail center, said fourth means and said fifth means by
switching between the text data and the voice data during one call.
5. A multimedia mail system according to claim 4;
where said first text/voice selector comprises:
means for transferring voice data to and from said second means;
means for transferring text data to and from said first means by modulating
or demodulating a first selector carrier signal;
means for generating a first discrimination signal transferred with the
text data or the voice data, said first discrimination signal
discriminating between the text data and the voice data; and
means for switching between transferring the text data and the voice data
to and from said second text/voice selector in response to said first
discrimination signal and also in response to a second discrimination
signal received from said second text/voice selector; and
said second text/voice selector comprises:
means for transferring voice data to and from said fifth means;
means for transferring text data to and from said fourth means by
modulating or demodulating a second selector carrier signal;
means for generating said second discrimination signal transferred with the
text data or the voice data, said second discrimination signal
discriminating between the text data and the voice data; and
means for switching between transferring the text data and the voice data
to and from said first text/voice selector in accordance with said second
discrimination signal to be transmitted to said first text/voice signal
selector and in accordance with said first discrimination signal received
from said first text/voice selector.
6. A multimedia mail system according to claim 5
wherein said first text/voice selector comprises a first modem generating a
first carrier signal for use as said first discrimination signal and as
said first selector carrier signal for modulating and demodulating the
text data, and wherein said second selector comprises a second modem
generating a second carrier signal for use as said second discrimination
signal and as said second selector carrier.
7. A multimedia mail system according to claim 6, further including, in
both said first and second selectors, means for generating special data,
in addition to said first and second discrimination signals respectively
for discriminating between test data and voice data.
8. A multimedia mail system according to claim 7,
wherein said special data is a flag in a flag synchronization system.
9. A multimedia mail system according to claim 7,
wherein said special data is a STX (indicating start of text) in a stepping
synchronization system.
10. A multimedia mail system according to claim 7,
wherein said special data is a SYN (synchronization bit) in a SYN
synchronization system.
11. A multimedia mail center connected to a plurality of terminals
transmitting and receiving text data and voice data through a telephone
network, comprising:
first means for storing the text data;
second means for storing the voice data;
a text/voice transmit/receive selector connected to said first and said
second means for switching between transferring the text data or the voice
data or the text and voice data during one call; and
means for controlling said first means, said second means and said
text/voice transmit/receive selector;
where said multimedia mail center stores the text data and the voice data
received from one of said plurality of terminals in said first means and
said second means respectively by said selector switching between the text
data and the voice data during one call under control of said means for
controlling, and said multimedia mail center transmits the text data and
the voice data stored in said first means and said second means
respectively to a second one of said plurality of terminals by said
selector switching between the text data and voice data during one call
under control of said means for controlling.
12. A multimedia center according to claim 11, wherein said text/voice
transmit/receive selector comprises:
third means for transmitting and receiving the voice data to and from said
second means;
fourth means for transmitting and receiving the text data to and from said
first means by modulating or demodulating a carrier signal;
means for generating a first discrimination signal transmitted with the
text data or the voice data, said discrimination signal discriminating
between the text data and the voice data; and
means for switching between said third means and said fourth means in
response to said discriminating signal from said means for generating a
discriminating signal transmitted with the stored data to the second
terminal and also in response to a second discrimination signal generated
in one of the plurality of terminals, said second discrimination signal
discriminating between the text data and the voice data in data
transmitted by said terminal.
13. A multimedia mail enter according to claim 12,
wherein said means for generating a discrimination signal comprises a modem
generating a first carrie signal used as said first discrimination signal,
said first carrier signal also being used as said carrier signal.
14. A multimedia mail center according to claim 13, further including means
for generating special data in addition to said first and second
discrimination signals respectively for discriminating between the text
data and the voice data.
15. A multimedia mail center according to claim 14,
wherein said special data is a flag in a flag synchronization system.
16. A multimedia mail center according to claim 14,
wherein said special data is a STX (indicating start of text) in a stepping
synchronization system.
17. A multimedia mail center according to claim 14,
wherein said special data is a SYN (synchronization bit) in a SYN
synchronization system.
18. A multimedia mail center according to claim 11,
wherein said first means is a text file and said second means is a voice
file and said text/voice transmit/receive selector is a center text/voice
transmit/receive selector, said text file and said voice file being
connected to the telephone network through said center text/voice
transmit/receive selector.
19. A multimedia mail center according to claim 11,
wherein said first means is a text file and said second means is a voice
file and said means for controlling is a multimedia center processor, said
voice file and said text file being connected to said multimedia center
processor which is connected to the telephone network through said
text/voice transmit/selector. |
|
 |
|
 |
Claims |
|
|
|
Description |
|
|
BACKGROUND OF THE INVENTION
The present invention relates to a multimedia mail system which utilizes an
analog telephone network, and more particularly to a multimedia mail
system which consolidates a voice mail and a text mail.
A prior art multimedia mail system which utilizes an analog telephone
network is disclosed in an article "One consideration on user management
in a multimedia mail system" (IEICE technical report SE87-1 Institute of
Electronics and Communication Engineers of (April, 1987)). In this system,
a user calls the mail system by dialing a telephone set to send a message
(voice, facsimile or text), which is temporarily stored in a mail box
provided for each addressee user, and then automatically delivered to an
addressee terminal.
However, in the prior art multimedia mail system, the voice data and the
text data cannot be switchably sent in one communication. Since means for
automatically detecting voice or data communicated through the analog
telephone network and automatically sending the data to a data control
circuit and the voice to a voice control circuit is not provided in the
prior art, it is difficult to structure a consolidated system for voice
mail and text mail.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a multimedia mail
system consolidated for voice mail and text mail which has a function to
switch the voice data and the text data during communication.
The above object is achieved by intercoupling processors in a voice mail
center and a text mail center and providing data/voice
transmission/reception mode selectors between line interfaces of those
centers and the analog telephone network, and between a paired voice mail
terminal and text mail terminal and the analog telephone network.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 shows a diagram of a multimedia mail system according to an
embodiment of the present invention.
FIG. 2 shows a search sequence when search guide is conducted and a final
message is obtained by voice.
FIGS. 3A, 3B, 3C and 3D show search screens when the search guide is
conducted and the final message is obtained by voice.
FIG. 4A shows a configuration of a communication system including a
data/voice terminal having an automatic selector according to an
embodiment of the present invention.
FIG. 4B shows a communication operation of the communication system of FIG.
4A including the data/voice terminal having the automatic selector of the
present invention.
FIG. 5 shows a specific configuration of a terminal of the communication
system including the data/voice terminal having the automatic selector
according to an embodiment of the present invention.
FIG. 6 shows a selection control sequence of the automatic selector of FIG.
4A.
FIG. 7 shows a selection control sequence of the automatic selector FIG.
4A.
FIG. 8A shows a known text mail system.
FIG. 8B shows a known voice mail system.
FIG. 9 shows a configuration of a multimedia mail system.
FIG. 10 shows a configuration of an economized multimedia mail center in
accordance with one embodiment of the present invention.
DETAILED DESCRIPTION
A text mail center and voice mail center are physically in one center but
are logically or functionally separated. Subscriber data, charge data, and
voice mail and text mail control information are communicated between a
text mail center processor and a voice mail center processor. When turn
off of a modem carrier is detected, a data/voice transmit/receive mode
selector provided at a predetermined section of the system selects a voice
transmitter/receiver (voice mail center, and microphone and speaker of the
terminal). When the modem carrier is detected and a predetermined specific
data is also detected, the selector selects a data transmitter/receiver
(text mail center and text mail transmitter/receiver).
The present invention is now explained with reference to FIGS. 1-10.
The multimedia mail system of the present invention is first explained.
FIG. 1 shows a system configuration. A text mail system comprises a text
mail center 1001, an analog telephone network 1004 and a text terminal
(typically a personal computer 1006), and a voice mail system comprises a
voice mail center 1002, an analog telephone network 1004 and a telephone
set 1007. A voice/data consolidated multimedia mail system is constructed
by merely adding to the two independent systems a center data/voice
transmit/receive mode selector 1003, a terminal data/voice
transmit/receive mode selector 1003', an interprocessor communication line
1008, and some programs for controlling the above units. The text terminal
1006 and the telephone set 1007 (or voice transmitter/receiver 1005) need
not be modified in their constructions. The processors may be directly
connected or coupled through V24 or V28 compatible modem, and
communication is done in the CCITT X25 protocol level 2.
In the above system, search guide is conducted by text mails and a final
message (for example, mail No. 2) is obtained by voice. This is explained
with reference to FIGS. 2 and 3A-3D. When the present system is used as
just a text mail system or voice mail system, the operation is the same
and the explanation thereof is omitted here.
The center and terminal data/voice transmit/receive mode selectors 1003 and
1003' select the text mail, and the text terminal 1006 requests a menu
select screen. Thereafter, key entries for menu select screen (FIG. 3A),
personal mail select, transmit/receive select screen (FIG. 3B), screen
select key entry, mail reception list screen (FIG. 3C) and sender select
screen are exchanged between the text mail center 1001 and the text
terminal 1006 through the data/voice transmit/receive mode selectors 1003
and 1003' so that desired one of 13 mails is selected. Since the final
mail is recorded in the form of voice, the text mail center 1001 sends
data necessary for message search, charge and message management such as
voice message address, to the voice mail center 1002 through the
interprocessor communication line 1008 as shown in FIG. 2. Based on the
above data, the voice mail center 1002 sets the center data/voice
transmit/receive mode selector 1003 to send the voice message. As a
result, the modem carrier for transmitting the text in the selector 1003
is turned off. The turn-off of the modem carrier is detected by the
terminal data/voice transmit/receive mode selector 1003'. In response to
the detection, the communication line is switched to the voice
transmitter/receiver (or telephone set) 1005. Thereafter, the voice mail
center 1002 sends the voice message to the terminal at an appropriate
timing so that it is heard at the terminal (FIG. 3D).
After the voice message has been sent, the voice mail center 1002 informs
to the center data/voice transmit/receive mode selector 1003 of the end of
voice, and also informs of the end of sending of the voice message to the
text mail center 100 by the interprocessor communication. In response
thereto, the center data/voice transmit/receive mode selector 1003 turns
on the modem carrier for transmitting the text and sends a specific data
to the terminal. Those are detected by the terminal data/voice
transmit/receive mode selector 1003' so that the communication line is
switched to the text terminal. This completes the switching to the text
mail communication channel. After the switching, the text mail center 1001
sends an end of message screen to the text terminal 1006 to conduct a
series of searches. By keying in the text terminal 1006 while the voice
mail center 1002 sends the voice message, the sending of voice may be
interrupted and the speech with the text mail center 1001 may be resumed.
This function will be described later.
As seen from the above description, the center and terminal data/voice
transmit/receive mode selectors are important in the present invention.
These are explained with reference to FIGS. 4 to 7.
FIG. 4A shows a system configuration of the communication system including
the data/voice terminals. The terminals 1 and 2 can communicate
bilaterally through a telephone network 7. They can communicate natural
voice bilaterally. Thus, the terminals 1 and 2 are provided with the voice
transmitter/receivers 9, and selectors 8 for controlling the connection of
the voice transmitter/receivers 9 to the line. Between the terminals 1 and
2, data and voice are exchanged in a manner shown in FIG. 4B.
FIG. 4A and 5 correspond to FIG. 1 in that the terminal 1 corresponds to
the mail center, the data transmitter/receiver 3 corresponds to the text
mail center 1001, and sound source 911 and speaker/earphone 921 of the
voice transmitter/receiver 9 correspond to the voice mail center 1002. The
terminal 2 corresponds to the terminal of the present invention, the data
transmitter/receiver corresponds to the text terminal 1006, and the sound
source 911 and speaker/earphone 921 of the voice transmitter/receiver
correspond to the voice transmitter/receiver 1005 (or telephone set). The
voice transmit/receive mode selectors 1003 and 1003' of the center
terminal of FIG. 1 correspond to the selector 8 and the voice
transmitter/receiver 9 of FIG. 4 without the sound source 911 and the
speaker/earphone 921.
FIG. 5 shows a specific configuration of the terminals 1 and 2. The
selector 8 issues a send request RS to the modem 4 and controls the
connection of the voice transmitter/receiver 9 to the line. When an RS
flip flop 821 (which is preferentially reset as are for flip-flops 819 and
828 to be described later) is set, or when the data transmitter/receiver 3
issues the send request, the send request RS is sent to the modem 4
through an OR gate 822 and the modem 4 transmits a carrier. When the RS
flip-flops 819 and 828 are set, relays R1 and R2 (not shown) are energized
by relay drivers 820 and 829, respectively, so that a voice transmitter 91
and a voice receiver 92 are connected to the line through contacts 912
(r.sub.1) and 924 (r.sub.2).
Before the explanation of the operation, a method for prenoticing beginning
of data transmission from a sending terminal is explained. In response to
the prenotice, the data transmit/receive mode is set. If the prenotice is
made based on only the detection of the modem carrier, there is a risk of
error. If a voice signal frequency component coincides with the modem
carrier frequency during the reception of voice, and if it continues, it
may be misdetected as the prenotice of beginning of data transmission.
Accordingly, in the present invention, special data is included in the
received data and the prenotice of beginning of data transmission is
detected only when such a special data is detected. For example, STX etc.
of specific character carrier or its combination in a stepping
synchronization system, SYN in a SYN synchronization system, and a flag in
a flag synchronization system may be used as special data.
Assuming that data is transmitted under the flag synchronization system and
the special data for the prenotice of beginning of data transmission is in
the form of a flag, the operation is explained with reference to control
sequences shown in FIGS. 6 and 7.
When the terminal (A) 1 has completed the data transmission and shifts to
the voice transmission, the data transmitter/receiver 3 outputs a voice
start signal a when the terminal 1 shifts from the data transmission to
the voice transmission. The voice start signal a is ANDed with a line
connection command CML by an AND gate 812, and then sets an RS flip-flop
819 through a delay circuit 818 and resets an RS flip-flop 821 through an
OR gate 823. In other words, the send request RS in the terminal 1 is
immediately stopped by the voice start signal a, and after a time period
T.sub.2, the voice transmitter 21 comprising sound source 911, relay
contact 912, amplifier 913 and balance/unbalance converter 914 is
connected to the line so that the voice signal instead of the modem signal
is outputted to the line. In this manner, the terminal 1 is set into the
voice transmission mode. The voice start signal a from the OR gate 823
also sets the RS flip-flop 828 through the delay circuit 827. As a result,
the voice receiver 92 is also connected to the line and the terminal 1 is
set into the voice transmit/receive mode.
On the other hand, the terminal (B) 2 always monitors the modem carrier
from the terminal 1. When a carrier detect signal CD indicating the
turn-off of the carrier is produced, it is detected by the AND gate 814
and the RS flip-flop 821 is reset through the OR gate 823 and the RS
flip-flop 828 is set through the delay circuit 827. In other words, when
the carrier detect signal CD indicating the turn-off of the carrier is
produced, the send request RS is stopped, and after a time period T.sub.2
required for being ready to receive the voice, the voice receiver 92
comprising balance/unbalance converter 926, amplifier 925, relay contacts
922 and 924, delay circuit 923 and speaker 921 is connected to the line so
that the terminal 2 is set into the voice receive mode. Assuming that
T.sub.5 is a time period from the turn-off of the carrier from the
terminal 1 to the detection of the turn-off, the time relation is set such
that T.sub.2 .gtoreq.T.sub.5 +T.sub.2 '. Thus, the terminal 2 can
positively receive the received voice from the beginning.
When the transmission of voice from the terminal 1 is terminated, the
terminal 1 outputs an end of voice signal b from the data
transmitter/receiver 3. The signal b resets the. RS flip-flops 819 and 828
through the AND gate 813 and the OR gate 824, and it is delayed for a time
T.sub.1 by the delay circuit 826 to set the RS flip-flop 821. The terminal
1 is set into the data transmit/receive mode. When the RS flip-flop 821 is
set, the send request RS is issued and the transmission of the modem
carrier is started. The terminal 1 first sends a flag as the send data SD.
If there is no send data SD, the sending of the flag may be omitted.
On the other hand, the terminal 2 detects the carrier sent from the
terminal 1. When the flag included in the carrier is detected by the flag
detection circuit 811, the RS flip-flops 819 and 822 are reset by the
output of the AND gate 815 through the OR gate 824, and after the time
period T.sub.1, the RS flip-flop 821 is set. It is detected as the
previous notice of beginning of the data transmission and the mode is
switched from the voice receive mode to the data transmit/receive mode. In
this case, if any countermeasurement is done, the modem carrier sound is
reproduced by the speaker until the mode is switched to the data
transmit/receive mode. Certain time T.sub.5 ' is required to detect the
carrier, and the voice receiver 92 is still connected to the line until
the carrier is detected. The delay circuit 923 is provided to prevent the
speaker 921 from reproducing the modem carrier sound. If the delay times
are set such that T.sub.5 '<T.sub.4 <T.sub.1 +T.sub.3 ', the relay contact
922 is opened while the modem carrier is delayed by the delay circuit 923.
Where the delay time relationship is set as described above and the relay
contacts 924 and 922 are inserted in the input/output stage of the delay
circuit 923, the reproduction of the modem carrier sound is prevented
while the trailing portion of the voice signal is completely reproduced.
When the terminal 2 starts the data transmission while the terminal 1
transmits the voice, if the terminal 2 interrupts the voice receive mode,
the terminal 2 outputs the end of voice signal b, or outputs data with the
flag through the delay circuit 830 as the send data SD. The output of the
gate 817 or the AND gate 813 for flag detection resets the RS flip-flops
819 and 828 through the OR gate 824, and after the time period T.sub.1, it
sets the RS flip-flop 821. The terminal 2 sends the send data SD in the
data transmit/receive mode. The beginning of the send data should always
be the flag.
On the other hand, the terminal 1 detects the flag from the received data
RD and also detects the carrier. Thus, the RS flip-flops 819 and 828 are
reset by the output of the AND gate 815, and after the time period
T.sub.1, the RS flip-flop 821 is set. Thus, the transmission of the modem
carrier is started and the mode is switched to the data transmit/receive
mode. Where both the voice and the mode signal are present and if the
modem signal may produce a data error, it is necessary to insert an echo
canceller.
The operations of the center and terminal data/voice transmit/receive mode
selectors have been explained. The operation of the multimedia mail system
is now described.
Operation of Multimedia Mail System
FIGS. 8A and 8B show known text mail system and voice mail system. The text
mail system of FIG. 8A comprises a text mail center 8001, an analog
telephone network 1004 and a text terminal (typically a personal computer)
1006. The text mail center 8001 comprises text line unit 8002 including a
modem 4, a hybrid 5 and an NCU 6 (FIG. 4A), a text communication control
unit 8003, a text mail center processor 8004 and a text file 8005.
When the text terminal 1006 calls, a call signal reaches the text mail
center 8001 through the analog telephone network 1004. Then, the NCU
detects the reception and informs it to the text communication control
unit 8003 through the control line 8006. The text communication control
unit 8003 identifies which line of the text line unit the information came
from assigns the line number and informs it to the text mail center
processor 8004, which determines whether the reception of the call to the
line is acceptable, and if it is acceptable, informs it to the NCU 6
through the text communication control unit 8003.
The NCU 6 decodes it and connects the line to the channel of the hybrid 5 -
modem 6. The hybrid 5 functions to convert the two twisted paired wires of
the analog telephone network 1004 to four wires of the line interface of
the modulator (MOD) and demodulator (DEM) of the modem. Thus, the text
terminal 1006 and the text mail processor 8004 can communicate through the
text communication control unit 8003 and the modem (data
modulator/demodulator) 4.
The text terminal 1006 interacts with the text center processor 8004 in
accordance with a text mail protocol (for example, CCITT Recommendation
X-400 series MHS protocol or T-400 series protocol) to transfer and store
a desired mail to and in a text file (for example, a computer digital
magnetic disk) or read the mail stored in the text file.
The voice mail system is described with reference to FIG. 8B. The voice
mail system comprises a voice mail center 8011, an analog telephone
network 1004 and an analog telephone set 1007.
The voice mail center 8011 comprises a voice line unit 8016 including a PB
receiver 8012, a voice analog-digital converter 8013, a voice
digital-analog converter 8014, a hybrid 5, an NCU 6 and a control line
8015, a voice communication control unit 8017, a voice mail center
processor 8018 and a voice file 8019.
When the analog telephone set 1007 calls, a call signal reaches the voice
mail center 8011 through the analog telephone network 1004. The NCU 6 then
detects the reception and informs it to the voice communication control
unit 8017 through the control line 8015. The voice communication control
unit 8017 identifies which line of the voice line unit the information
came from, assigns a line number, and informs it to the voice mail center
processor 8018, which determines whether the reception of the call to the
line is acceptable, and if it is acceptable, informs it to the NCU 6
through the voice communication control unit 8017.
In response to the notice, the NCU 6 connects the line to the PB receiver
8012, voice A/D 8013 and voice D/A 8014.
The PB receiver 8012 detects and decodes a push button signal of the analog
telephone set 1007, converts it to a digital signal and sends it to the
voice communication control unit 8017, which edits and packets the digital
signal to a text message which can be interpreted by the processor 8018,
and sends it to the voice mail center processor 8018. The voice mail
center processor 8018 decodes the instruction of an operator of the
telephone set 1007 through the text message sent through the PB receiver
8012 and the voice communication control unit 8017, reads the digital
voice data stored in the voice file 8019, and sends it to the voice D/A
8014 through the voice communication control unit. The digital voice data
is converted to analog voice, which is transmitted in voice to the
operator through the telephone set 1007 as the next instruction from the
processor 8018.
The above is repeated and the terminal operator interacts with the voice
mail center processor 8018 to permit storage of the voice mail and
transmission of the voice mail to the terminal operator.
The voice mail is stored in the voice file 8019 by converting the voice of
the terminal operator to an analog voice signal by a handset of the
telephone set 1007, sending it to the center, converting it to a digital
signal by the center voice A/D 8013, editing and packetting it to the text
message which is controllable by the computer, by the voice communication
control unit 8017, and storing it in the voice file 8019. The voice file
8019 is usually a digital magnetic disk etc.
A configuration of the multimedia mail system is shown in FIG. 9. The
multimedia mail system comprises a multimedia mail center 9001, an analog
telephone network 1004 and terminals 1006, 1003', 1005 and 1007.
The configuration includes the conventional text mail system and voice mail
system and a system for multimedia mail service. The prior art
configuration has been explained in connection with FIG. 8. Thus, only the
configuration for the multimedia service is explained here.
The multimedia terminal 9000 for the multimedia service comprises a
terminal data/voice transmit/receive mode selector 1003', a text terminal
1006 and a voice transmitter/receiver 1005 or a telephone set 1007.
The multimedia text mail center 8001' comprises, in addition to the prior
art text mail center configuration, a multimedia text line unit 9003
including an NCU 6, a hybrid 5, a modem 4, a selector 8 (FIG. 4A) and a
control line 9002, a multimedia text communication control unit 9004 and a
multimedia communication control unit 9005.
The multimedia voice mail center 8011' comprises, in addition to the prior
art voice mail center configuration, a multimedia voice line unit 9013
including a multimedia voice transmitter/receiver 9' which corresponds to
the voice transmitter/receiver 9 without sound source 911 and
speaker/earphone 921 (FIGS. 4A and 5), a voice A/D 8013 corresponding to
the earphone 921, a voice D/A 8014 corresponding to the sound source 911
and a control line 9012, a multimedia voice communication control unit
9014 and a multimedia communication control unit 9005.
The center data/voice transmit/receive mode selector 1003 comprises a
selector 8 and a multimedia voice transmitter/receiver 9'.
When the multimedia terminal 9000 calls, a call signal reaches the
multimedia text mail center 8001' through the analog telephone network
1004. Then, the NCU 6 detects the reception and informs it to the
multimedia text communication control unit 9004 through the control line
9002. The multimedia text communication control unit 9004 identifies which
line of the multimedia text line unit 9003 the notice came from, assigns a
line number, and informs it to the text mail center processor 8004, which
determines if the reception of the call to the line is acceptable, and if
it is acceptable, informs it to the NCU 6 through the multimedia text
communication control unit 9004. The NCU 6 decodes it and connects the
line to the channel of hybrid 5 - modem 4 - center data/voice
transmit/receive mode selector 1003.
As seen from the above description, the multimedia voice mail system does
not require the NCU 6 for communicating with the terminal and controlling
the cutting of the received call, the hybrid 5 and the PB receiver 8012.
Thus, the multimedia mail service system is economically constructed by
the combination of the voice mail system and the text mail system in
addition to the center data/voice transmit/receive mode selector 1003.
The interaction control between the multimedia terminal 9000 and the
multimedia center 9001 is now explained with reference to FIG. 2, which is
a conceptual view of FIG. 1. In FIG. 9, the voice mail center is referred
to as a multimedia voice mail center 8011', and the text mail center is
referred to as a multimedia text mail center 8001'.
As the center is connected to the terminal line in the above procedure, the
multimedia terminal 9000 and the text mail processor 8004 communicate with
each other, check IP (password) and process charge. Then, the terminal
9000 issues a request for menu selection screen (FIG. 3A).
This procedure is explained in connection with the system operation. Since
the terminal 9000 has selected the text terminal 1006, the modem carrier
and the special code reach the multimedia center 9001 through the analog
telephone network 1004 and they reach the selector 8 through the NCU 6,
the hybrid 5 and the modem 4. The selector 8 detects the modem carrier and
the special code to detect the text mode, and couples the modem 4 to the
multimedia text communication control unit 9004. As explained in
connection with FIGS. 4 and 5, the terminal data/voice transmit/receive
mode selector controls the switches (912, 924, 922 in FIG. 5) of the voice
transmitter/receiver by the selector to disconnect the voice channel. The
center system operates in a different manner than FIG. 5. In the center
system, when the multimedia text communication control unit 9004 is
coupled to the modem, the center system detects it, prepares a text
message for disconnecting the voice system, and communicates between the
text mail center processor 8004 and the multimedia communication control
unit 9005, and the voice mail center processor 8018 and the center
processor to convey the instruction to isolate the voice
transmitter/receiver. The voice mail center processor 8018 decodes it to
control the switches (912, 924 and 922 in FIG. 5) of the multimedia voice
transmitter/receiver 9' through the multimedia voice communication unit
9014 and the control line 9012 to disconnect the voice channel from the
line.
The control line 9006 represents the other control line in FIG. 5.
Thereafter, communication is made between the multimedia terminal 9000 and
the multimedia text mail center 8001' of the multimedia center 9001 in
accordance with a normal text mail search protocol.
As shown in FIG. 3, the key entries for the personal mail selection and
transmission/reception selection screen (FIG. 3B), the screen selection
key entry and mail arrival list screen (FIG. 3C) and the sender selection
screen are exchanged so that desired one of 13 mails is selected. Since
the last mail is recorded in the form of voice, it is necessary to switch
to the multimedia mail center 8011'.
When "2 " is depressed in the text terminal in the step 2001 of FIG. 2,
the text mail processor 8004 detects that the data is the voice mail, and
instructs the switching to the voice channel to the multimedia text
communication unit 9004. The multimedia text communication unit decodes it
and issues a voice start command a (FIG. 6) to the selector 8. The
selector thus controls the modem 4 to stop the sending of the modem
carrier. On the other hand, the text mail center processor 8004
communicates with the voice mail processor 8018 through the multimedia
communication control unit 9005 to inform the address of the voice mail
and the line number and request to start voice.
The voice mail center processor 8018 requests to the multimedia voice
communication control unit 9014 to start the voice transmitter/receiver
9'. The multimedia voice communication control unit 9014 commands to the
voice transmitter/receiver 9' through the control line 9012 to connect the
voice channel to the line in order to connect the voice channel to the
line.
The voice mail center processor 8018 controls the voice file 8019 to search
the desired digital voice information and sends it to the multimedia voice
communication control unit 9014, which converts it to a data format for
the voice D/A 8014 and outputs it. The voice D/A 8014 converts the digital
voice data to analog voice and sends it to the multimedia terminal 9000
through the voice transmitter/receiver 9'.
When the voice data has been sent, the voice mail processor 8018 commands
to the multimedia voice transmitter/receiver 9' through the multimedia
voice communication control unit 9014 and the control line 9012 to
disconnect the voice channel from the line. It also informs the end of
voice to the text mail center processor 8004. The text mail center
processor 8004 commands to the selector 8 through the multimedia text
communication control unit to switch to the text mode. The selector 8
turns on the modem carrier and sends the special code to the multimedia
terminal 9000.
Finally, the text mail center processor 8004 control the text file 8005 to
search the end of message screen and sends it to the multimedia terminal
9000 through the multimedia text communication control unit 9004 and the
multimedia text line unit 9003. Configuration of Economic Multimedia Mail
Center
In the above description, the multimedia text mail center 8001' and the
multimedia voice mail center 8011' are independent. A more economic center
may be constructed if the multimedia mail centers are constructed from the
beginning. FIG. 10 shows an economic multimedia mail center. As is
apparent from the comparison with FIG. 9, the text mail center processor
8004, the multimedia communication control unit 9005 and the voice mail
center processor 8018 are combined into a single multimedia center
processor 10001.
In the present system, since the multimedia text mail center and the
multimedia voice mail center are consolidated, the selector having the
same function as that of the terminal data/voice selector may be used as
the center data/voice selector.
As described above, the multimedia mail system can be readily constructed
with conventional voice mail/text mail terminals by adding the data/voice
transmit/receive mode selector and the interprocessor communication line.
With the present system, the voice message can be registered in the form
of voice without editing it to a text through a telephone set everywhere
in the country. Thus, even a children or aged persons can readily register
a message. The message can be very readily selected and the final message
selection can be readily searched by a list screen with communication with
the center. Further, various services which could not be offered with only
the voice can be selected by one center number. The existing terminals can
be used as they are. Only the voice transmitter/receiver and the selector
need be added to the conventional terminal, no modification of the text
terminal is required.
* * * * *
|
|
|
|
|
|
|
Description |
|
