Source: http://www.google.com/patents/US20050157702?ie=ISO-8859-1
Timestamp: 2014-07-11 23:02:38
Document Index: 253629229

Matched Legal Cases: ['art 171', 'art 171', 'art 11', 'art 16', 'art 11', 'art 16', 'art 17', 'art 18', 'art 191', 'art 192', 'art 11', 'art 11', 'art 17', 'art 16', 'art 17', 'art 11', 'art 18', 'art 11', 'art 191', 'art 191', 'art 192', 'art 11', 'art 192', 'art 11', 'art 11', 'art 16', 'art 17', 'art 18', 'art 11', 'art 11', 'art 11', 'art 18', 'art 18', 'art 11', 'art 11', 'art 18', 'art 18', 'art 11', 'art 11', 'art 11', 'art 16', 'art 11', 'art 11', 'art 16', 'art 11', 'art 18', 'art 16', 'art 16', 'art 11', 'art 191', 'art 191', 'art 192', 'art 192', 'art 192', 'art 11', 'art 11', 'art 11', 'art 16', 'art 16', 'art 11', 'art 11', 'art 11', 'art 16', 'art 16', 'art 41', 'art 42', 'art 43', 'art 41', 'art 42', 'art 43', 'application No.2003']

Patent US20050157702 - Circuit control apparatus and method - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign in<nobr>Advanced Patent Search</nobr>PatentsA circuit control apparatus for establishing a connection to a communication partner via a public circuit network or via a computer network is disclosed. The circuit control apparatus includes: a specifying information storing part 171 for storing specifying information for specifying a called party...http://www.google.com/patents/US20050157702?utm_source=gb-gplus-sharePatent US20050157702 - Circuit control apparatus and methodAdvanced Patent SearchPublication numberUS20050157702 A1Publication typeApplicationApplication numberUS 10/999,982Publication dateJul 21, 2005Filing dateDec 1, 2004Priority dateDec 5, 2003Also published asUS7649878Publication number10999982, 999982, US 2005/0157702 A1, US 2005/157702 A1, US 20050157702 A1, US 20050157702A1, US 2005157702 A1, US 2005157702A1, US-A1-20050157702, US-A1-2005157702, US2005/0157702A1, US2005/157702A1, US20050157702 A1, US20050157702A1, US2005157702 A1, US2005157702A1InventorsHiroomi MotohashiOriginal AssigneeHiroomi MotohashiExport CitationBiBTeX, EndNote, RefManReferenced by (4), Classifications (13), Legal Events (2) External Links: USPTO, USPTO Assignment, EspacenetCircuit control apparatus and methodUS 20050157702 A1Abstract A circuit control apparatus for establishing a connection to a communication partner via a public circuit network or via a computer network is disclosed. The circuit control apparatus includes: a specifying information storing part 171 for storing specifying information for specifying a called party to which the circuit control apparatus originates a call to establish a connection via the public circuit network; a circuit control part 11 for immediately originating a call via the public circuit network for establishing a connection to a called party specified by the specifying information, and for trying to originate a call via the computer network for establishing a connection to a called party that is not included in the specifying information storing part; and a changing part 16 for changing specifying information in the specifying information storing part. Images(17) Claims(32)
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following, embodiments of the circuit control apparatus and the method of the present invention are described with reference to figures. First Embodiment A first embodiment of the present invention is described. In the first embodiment, the circuit control apparatus of the present invention is applied to an IP telephone adapter. FIG. 1 shows an example of a house-wiring around the IP telephone adapter. The IP telephone adapter 1 of the present embodiment is connected to PCs 5 via a router 2. In addition, the IP telephone adapter 1 is connected to an ADSL modem 3, a splitter 6 and a telephone 4. The splitter 6 is connected to a modular jack 7, so that each of the telephone 4 and the PC 5 can be connected to a circuit to a called party via the IP telephone adapter 1 and via the modular jack 7. The splitter 7 separates a signal from the circuit into a signal for the ADSL modem 3 and a telephone signal. The separated lines are merged at the IP telephone adapter 1. By using such wiring, the telephone adapter 1 can switch between a data communication and a telephone communication. In the data communication, data from the PC 5 are transmitted via the ADSL modem 3. In the telephone communication, a voice signal from the telephone 4 is transmitted without passing through the ADSL modem 3. The IP telephone adapter 1 accesses a control server (a SIP server, for example) via a circuit extending from the modular jack 7. After performing a signaling procedure for establishing a connection of VoIP, the IP telephone adapter 1 can connect to an IP telephone adapter in a called party. FIG. 2 is a block diagram for explaining a connection establishing procedure by using IP telephone adapters 1 a and 1 b. In the figure, a telephone 4 b can be reached only via an IP telephone network. A telephone 4 c can be reached via the IP telephone network and a public circuit network by using a gateway 9. A telephone 4 d cannot be reached via the IP telephone network. The �IP telephone network� is a telephone communication network based on a computer network including the control server and the gateway. In the example of FIG. 2, a SIP (session initiation protocol) server is used as a control server for performing the signaling procedure for establishing an VoIP connection. After the connection is established, communication data are exchanged between a calling party and a called party without the control server 8. As shown in FIG. 2, when the IP telephone adapter 1 a establishes a connection to the telephone 4 b, the IP telephone adapter 1 a obtains an IP address of the IP telephone adapter 1 b from the control server 8. When the IP telephone adapter 1 a establishes a connection to the telephone 4 c, the IP telephone adapter 1 a accesses the control server 8 so as to connect to the telephone 4 c via the gateway 9 and via a public circuit network that connects the gateway 9 and the telephone 4 c. When the telephone 4 b is a subscriber of an IP telephone service provider different from an IP telephone service provider for the telephone 4 a, a call connection between the telephones 4 a and 4 b may be established by using a plurality of control servers. When the telephone 4 a originates a call to the telephone 4 d, the IP telephone adapter 1 a establishes a connection to the telephone 4 d via the public circuit network. In addition, when the telephone 4 a originates a call to a mobile telephone 4 e, the IP telephone adapter 1 a establish a connection to the mobile telephone 4 e via the public circuit network and a mobile telephone network. The �public circuit network� in this specification is a telephone communication network such as the PSTN (Public Switched Telephone Network) and the ISDN (Integrated Services Digital Network). The �computer network� is an IP (Internet Protocol) network such as the Internet, LAN and WAN. Next, a procedure for establishing a call connection via the IP telephone network is described with reference to FIG. 3. When a user dials a telephone number of a called party from the telephone 4 a, the dialed number is transmitted to the IP telephone adapter 1 a as dial tones or dial pulses in step S101. The IP telephone adapter 1 a that receives the number sends a call request (INVITE message) for the called party to the control server 8 in step S102. The control server 8 transfers the INVITE message to the telephone adapter 1 b corresponding to the called party. In addition, the control server 8 sends a 100 Trying message that indicates that the control server 8 is calling the called party to the IP telephone adapter 1 a in step S103. When the IP telephone adapter 1 b receives the call request (INVITE message), the IP telephone adapter 1 b rings a telephone bell of the telephone 4 b, and sends a 180 Ringing message to the control server 8 to notify that the IP telephone adapter 1 b is calling the telephone 4 b in step S104. When the 180 Ringing message is sent to the IP telephone adapter 1 a in step S105, the IP telephone adapter 1 a sends a ringback tone to the telephone 4 a in step S106. Accordingly, while the telephone 4 b that is a called party is ringing, the telephone 4 a continues to output the ringback tone. When a handset of the telephone 4 b is lifted in step S107, the IP telephone adapter 1 b sends a 200 OK message that indicates that calling is successfully done to the control sever 8 in step S108. The message is sent from the control sever 8 to the IP telephone adapter 1 a in step S109. When the IP telephone adapter la receives the message, the IP telephone adapter 1 a stops sending the ringback tone and sends an ACK message to the control server 8 in step 110. Then, the control server 8 transfers the ACK message to the IP telephone adapter 1 b in step S111. As a result, each of the IP telephone adapter 1 a and 1 b enters a call starting state, so that a call communication between the telephones 4 a and 4 b starts. Next, a procedure for ending the call communication via the IP telephone network is described with reference to FIG. 4. When the user puts down the handset of the telephone 4 a, the change of the voltage is sent to the IP telephone adapter 1 a, so that the IP telephone adapter 1 a recognizes that the call of the user ends in step S201. The IP telephone adapter 1 a sends a BYE message indicating that the call ends to the control server 8 in step S202. Then, the message is sent to the IP telephone adapter 1 b from the control server 8 in step S203. The IP telephone adapter 1 b that is notified of the end of the call makes the telephone 4 b to a call end state, and sends a 200 OK message to the IP telephone adapter 1 a in steps S204 and S205. As a result, each of the IP telephone adapters 1 a and 1 b enters a call end state, so that the cal communication ends between the telephones 4 a and 4 b. Next, a configuration of the IP telephone adapter 1 of this embodiment is described with reference to FIG. 5. The IP telephone adapter 1 includes a PC I/F 12 for connecting to the PCs 5, a telephone I/F 13 for connecting to the telephone 4, a public circuit I/F 14 for connecting to a public circuit network, and a network I/F 15 for connecting to a computer network, which are connected to a circuit control part 11. In addition, the IP telephone adapter 1 includes a special number information changing part 16, a memory part 17, a use circuit determining part 18, a circuit type display part 191 and a ringing part 192. The circuit control part 11 controls the whole of the IP telephone adapter 1, for example, the circuit control part 11 performs a circuit connection process. The memory part 17 stores a special number information database 171. The special number information changing part 16 is connected to the memory part 17 and changes information stored in the special number information database 171. The special number information database 171 stores information for specifying called parties to which a call is originated via the public circuit network without trying to originating a call via the computer network when the circuit control part 11 receives a call origination request from the telephone 4. The information stored in the special number information database 171 includes a telephone number or a part of a telephone number as shown in FIG. 6. As shown in FIG. 6, the special number information database 171 is divided into a unrewritable region and a rewritable region. Each piece of data in the rewritable region is associated with a registration date-and-time indicating a date-and-time when the piece of data is registered in the database. The use circuit determining part 18 forcefully determines a circuit to cause the circuit control part 11 to try to originates a call to a called party via the computer network regardless whether the called party is registered in the special number information database 171. The circuit type display part 191 displays information indicating whether a circuit used for currently originating a call is one via the computer network or one via the public circuit network when the circuit control part is performing a call origination process. The display part 191 may be a liquid crystal display or a LED. The ringing part 192 is for outputting a circuit type specific ringback tone that is assigned to a circuit type which is one via the computer network or one via a public circuit network when the circuit control part 11 originates a call. The ringing part 192 may be a buzzer or a part for sending a signal of the tone. FIG. 7 shows a physical configuration of a main part of the IP telephone adapter 1 including the circuit control part 11. As shown in FIG. 7, the circuit control part 11, the special number information changing part 16, the memory part 17 and the use circuit determining part 18 may be realized by a CPU, a dial signal detection part, a selector, a ROM, a RAM, a NV (Non-Volatile)-RAM. The special number information is stored in the ROM beforehand. Added special number information is stored in the NV-RAM such that the information is not disappeared even if the power is turned off. When a user lifts off the handset of the telephone 4 and dials a telephone number of a called party, the telephone number is detected by the dial signal detection part and sent to the CPU. The CPU determines whether the dialed telephone number is included in the special number information database. If the dialed telephone number is a special number, the CPU instructs the selector to originates a call via the public circuit network. If the dialed telephone number is not a special number, the CPU instructs the selector to try to originate a call via the computer network. In this case, if the CPU determines that a connection via the computer network cannot be established, the CPU instructs the selector to originates a call via the public circuit network. A first operation example of the present embodiment is described with reference to FIG. 8. In this first operation example, if the telephone number of a called party does not exist in the special number information database in step S1, the circuit control part 11 tries to originate a call to the telephone number via the computer network in step S2. The IP telephone adapter determines whether a connection to the called party can be established via the computer network in step S3. If the IP telephone adapter determines that a connection to the called party cannot be established via the computer network, the circuit control part 11 automatically adds the telephone number in the rewritable region of the special number information database in step S4, and performs a process for originating a call to the telephone number via the public circuit network in step S5. According to the first operation example, when originating a call to the same telephone number, call origination via the computer network can be omitted so that the call origination via the public circuit network starts at the beginning. Thus, since the time from dialing the telephone number of the called party to connection establishment completion can be decreased, operability of the VoIP apparatus improves. The effect of decreasing the connection time is obtained in a case where a call is originated to a telephone that can be connected only via the public telephone network like the telephone 4 d shown in FIG. 2. Generally, when originating a call to a special number registered beforehand in the IP telephone adapter or other apparatuses, since the call origination is performed via the public circuit network at the beginning, there is no problem such as long connection time. However, according to a conventional IP telephone adapter, when originating a call to a telephone number other than the special number, the IP telephone adapter tries to establish a connection via the computer network first, then, the IP telephone adapter establishes a connection via the public telephone network. Therefore, if the called party is reached only via the public circuit telephone network, the operation to try to establish a connection via the computer network is useless, and the time from starting a call origination process to completion of establishing a connection becomes long. Against this problem, according to the above-mentioned first operation example, since the IP telephone adapter has a learning function to automatically add, to the special number information database, a telephone number turned out to be unconnectable via the computer network, the call origination process via the computer network can be omitted from a next call onward. Next, a second operation example of the present embodiment is described with reference to FIG. 8. In the second operation example, a registration date-and-time of a special number is stored in the rewritable region of the special number information database 171 as attribute information of the telephone number as shown in FIG. 6. In this case, when the IP telephone adapter detects that a predetermined time (predetermined effective term) elapses after a special number is added, the special number is deleted. The predetermine time may be one month, for example. As another operation example, a number of times of originating a call to the special number may be stored as attribute information of the number. In this case, when the IP telephone adapter detects that the number reaches a predetermined number, the IP telephone adapter deletes the special number. In a case where the second operation example is not used, once a telephone number of a called party is registered in the special number information database, the connection process via the computer network is always skipped. Therefore, even if the called party that did not support IP telephone so far is changed to be able to use IP telephone at some point in time, the advantage of the IP telephone cannot be obtained for the called party since the call connection process is always performed via the public circuit network. In contrast, according to the second operation example, the telephone number registered in the special number information database has an effective term. Thus, in a case where a called party that did not support VoIP so far changes to support VoIP at some point in time, after the effective term expires for the registered special number, a call origination to the called party can be performed via the computer network so that the called party can be connected via VoIP. As mentioned above, according to the second embodiment, freshness of telephone number information in the special number information database can be maintained. Next, a third operation example of this embodiment is described with reference to FIG. 9. In FIG. 9, same reference numerals have been used to identify corresponding steps in FIG. 8. In the third embodiment, when the circuit control part 11 originates a call to a called party, if the use circuit enforcedly determining part 18 receives a use circuit change instruction, the use circuit enforcedly determining part 18 enforcedly determines a circuit used by the circuit control part 11 such that the circuit control part 11 tries to establish a connection to the called party via the computer network regardless whether the called party is registered in the special number information database 171 (step S6). Means for inputting the use circuit change instruction to the use circuit enforcedly determining part 18 may be a special button on an operation panel. Alternatively, the use circuit change instruction may be input via the telephone I/F 13 by dialing a predetermined number (�#31�, for example) before dialing the telephone number of the called party. According to the third operation example, the use circuit enforcedly determining part 18 enforcedly provides a use circuit change instruction. Thus, in a case where a called party that did not support VoIP so far is changed to support VoIP at some point, if a user instructs to change a use circuit, call origination via the computer network can be performed, so that the advantage of the IP telephone can be easily obtained. Next, a fourth operation example of this embodiment is described with reference to FIG. 10. In FIG. 10, same reference numerals have been used to identify corresponding steps in FIG. 8. In the fourth operation example, after a call origination process is started via the public circuit network, a call origination process via the computer network is also performed. Then, based on the result of the call origination processes, the IP telephone adapter determines whether the called party can be reached via the computer network. The call origination process via the public circuit network (step S11) and the call origination process via the computer network (step S12) may be performed at the same time. More particularly, when the control server 8 returns a response message �486 Busy Here� in response to the call request (INVITE), the circuit control part 11 determines that the called party can use VoIP. When the control server 8 returns a response message �380 Alternative Service� in response to the call request (INVITE), the circuit control part 11 determines that the called party cannot use VoIP. In a case where the fourth operation example is not used, it is not possible to update the special number information database to reflect a fact that a called party supports VoIP without additional operations by the user and without increase of a connection time. In contrast, by using the fourth operation example, when the IP telephone adapter originates a call to a number registered in the special number information database via the public circuit network, a call origination process via the computer network is also performed in the background. Then, if the circuit control part 11 determines that a connection via the computer network can be established, the special number information changing part 16 deletes the telephone number of the called party from the special number information database 171. Therefore, a fact that a called party supports IP telephone can be reflected to the special number information database without incurring additional operations for the user and without increase of the connection time. Next, a fifth operation example of this embodiment is described with reference to FIG. 11. In FIG. 11, same reference numerals have been used to identify corresponding steps in FIG. 8. In the fifth operation example, when the circuit control part 11 receives a call origination interrupt request while performing a call origination process via the computer network (Yes, step S15), the call origination process is interrupted in step S16. The call origination interrupt request may be input by using a special button on an operation panel provided in the IP telephone adapter. In addition, the call origination interrupt request may be provided by dialing a specific number, �*�, �#� or a combination of these. Further, the request may be input from a PC via the PC I/F 12. In a case where the fifth operation example is not used, when a user of the IP telephone adapter originates a call to a called party that does not support IP telephone, even if the user is aware that the call origination is performed via the computer network, the user cannot interrupt the call origination process. Thus, the user may feel impatient, and the operability of the IP telephone adapter may be felt to be bad. In contrast, according to the fifth operation example, when a user of the IP telephone adapter originates a call to a called party that does not support IP telephone and the user is aware that the call origination is performed via VoIP, the user can interrupt the call origination process. Thus, the operability of the IP telephone adapter can be improved. Next, a sixth operation example of this embodiment is described with reference to FIG. 12. In FIG. 12, same reference numerals have been used to identify corresponding steps in FIGS. 8-11. In the sixth operation example, when the circuit control part 11 receives a call origination interrupt request while performing a call origination process via the computer network (Yes, step S15), the call origination process is interrupted in step S16. Then, the telephone number of the called party is added to the special number information database 171 by the special number information changing part 16 (steps S16, S4). The call origination interrupt request may be input by using a special button on an operation panel provided in the IP telephone adapter. In addition, the call origination interrupt request may be provided by dialing a specific number, �*�, �#� or a combination of these. Further, the request may be input from a PC via the PC I/F 12. In a case where the sixth operation example is not used, it is not possible to reflect, in the special number information database, a fact that that a called party does not support IP telephone without incurring additional operations for the user. In contrast, according to the sixth operation example, since the telephone number is automatically added to the special number information database when the user instructs to interrupt the call origination process via VoIP, the telephone number can be added to the special number information database without incurring additional operations. Next, a seventh operation example of this embodiment is described with reference to FIG. 13. In FIG. 13, same reference numerals have been used to identify corresponding steps in FIG. 8. In the seventh operation example, when a call origination interrupt request is input (step S22) while a call origination process is being performed via the public circuit network (step S21), the circuit control part 11 interrupts the call origination process in step S23, and starts to originate a call via the computer network in step S2. The call origination interrupt request may be input by using a special button on an operation panel provided in the IP telephone adapter. In addition, the call origination interrupt request may be provided by dialing a specific number, �*�, �#� or a combination of these. Further, the request may be input from a PC via the PC I/F 12. In a case where the seventh operation example is not used, when a user of the IP telephone adapter originates a call to a called party that supports IP telephone, even if the user is aware that the call origination is performed via the public circuit network, the user cannot interrupt the call origination process. Thus, the user may loose a chance to use the IP telephone whose communication cost is generally lower than that of the public circuit network. In contrast, according to the seventh operation example, by performing a predetermined operation while originating a call via the public circuit network, the call origination can be interrupted and a call origination via the computer network can be performed. Thus, the advantage of the IP telephone can be obtained. Next, a eighth operation example of this embodiment is described with reference to FIGS. 14 and 15. In FIG. 14, same reference numerals have been used to identify corresponding steps in FIGS. 8-11. When the use circuit enforcedly determining part 18 determines a telephone number to which a call is to be originated via the computer network (step S6, Yes), a call origination to the telephone number is performed via the computer network in step S2. If the connection to the telephone number is successfully established in step S31, the special number information changing part 16 deletes the telephone number from the special number information database 171 in step S32. In a case shown in FIG. 15, when a call origination process is performed via the public circuit network in step S21, if a call origination interrupt request is input in step S22, the call origination process is interrupted in step S23. Then, a call origination to the interrupted telephone number is performed via the computer network in step S2. If the connection to the telephone number is successfully established in step S31, the special number information changing part 16 deletes the telephone number from the special number information database 171 in step S32. The call origination interrupt request may be input by using a special button on an operation panel provided in the IP telephone adapter. In addition, the call origination interrupt request may be provided by dialing a specific number, �*�, �#� or a combination of these. Further, the request may be input from a PC via the PC I/F 12. In a case where the eighth operation example is not used, even if a connection has been once established via VoIP, a call origination may be performed via the public circuit network in a next connection unless the special number information database is updated. In contrast, according to the eighth operation example, when a connection to a telephone number is successfully established via the computer network, the telephone number is automatically deleted from the special number information database 171. Thus, the special number information database can be updated without incurring additional operations for the user. In the following, a ninth operation example is described. In the ninth operation example, when the circuit control part 11 performs a call origination process, the circuit type display part 191 displays a type of a circuit via which the call is originated. A two-color LED may be used as the circuit type display part 191. For example, the LED illuminates green light if the call origination is being performed via the public circuit network, and the LED illuminates orange light if the call origination is being performed via the computer network. According to the ninth operation example, since a type of a circuit via which a call is being originated can be displayed, the user can know the operation status of the IP telephone adapter. That is, since the user can know the circuit type, the user can perform an operation according to the circuit type such as enforcedly interrupting call origination. Next, a tenth operation example in this embodiment is described. In the tenth operation example, when the circuit control part performs a call origination process, the IP telephone adapter causes the ringing part 192 to output a circuit type specific ringback tone that is assigned to each circuit type. The ringing part 192 may include a buzzer that outputs a sound by itself. Alternatively, the ringing part may cause a handset of the telephone to output the circuit type specific ringback tone via the telephone I/F 13. As the circuit type specific ringback tone, for example, following two sounds (1) and (2) are provided so that a sound is selected according to a circuit type. (1) For public circuit network: 400 Hz, 16 Hz modulation, 1 sec:ON�2 sec:OFF Repeat (2) For computer network: 800 Hz, 16 Hz modulation, 1 sec:ON�2 sec:OFF Repeat According to the tenth operation example, since a ringback tone corresponds to a circuit type used for call origination, the user can know the operation status of the VoIP apparatus only by hearing the ringback tone without checking an display panel of the IP telephone adapter. Next, an eleventh operation example in this embodiment is described. In the eleventh operation example, the ringing part 192 starts outputting the circuit type specific ringback tone (to be also referred to as �call origination start sound�) at a time when the circuit control part 11 starts a call origination process. The circuit type specific ringback tone corresponds to a circuit via which the circuit control part 11 starts the call origination. As the circuit type specific ringback tone, for example, following two sounds (1) and (2) are provided so that a sound is selected according to a circuit type. (1) For public circuit network: 400 Hz, 125 msec:ON�125 msec:OFF Repeat (2) For computer network: 400 Hz, 60 msec:ON�60 msec:OFF Repeat Generally, a ringback tone starts ringing when the IP telephone adapter receives the 180 Ringing message from the control server 8 (step S106 in FIG. 3). On the other hand, in this example, the call origination start sound starts ringing when the IP telephone adapter sends the call request (INVITE) to the control server 8 (step S102 in FIG. 3). Thus, the user can be notified of the operation status of the VoIP apparatuses quickly. In a case when a call is originated via the public circuit network, the call origination start sound starts ringing when the circuit control part 11 starts sending a DTMF signal (push phone signal) or a DP signal (dial pulse signal) to the public circuit network. According to the eleventh operation example, since the ringing part rings the call origination start sound (different from a regular ringback tone) when the call origination via the computer network is started, the user can immediately know a used circuit type when the call origination is started. Thus, for example, the user can immediately instruct switching to the public circuit network as necessary. As a result, a waiting time for establishing a connection to the called party can be decreased, so that operability improves. In addition, since the ringing part rings the call origination start sound (different from regular ringback tone) when the call origination via the public circuit network is started, the user can immediately know a used circuit type when the call origination is started. Thus, for example, the user can immediately instruct switching to the computer network as necessary. As a result, a waiting time for establishing a connection to the called party can be decreased, so that operability improves. The IP telephone adapter of the first embodiment may be an integrated type adapter that includes a router, or that is an all-in-one type adapter. The all-in-one type adapter includes a router and an ADSL modem. The configuration of the IP telephone adapter is not limited to the above-mentioned configurations as long as the IP telephone adapter includes functions for connecting to the computer network for realizing IP telephone and for connecting to the public circuit network such as the PSTN. For example, the present invention can be similarly applied to a computer network realized by optical fibers instead of ADSL. Second Embodiment In the following, an IP telephone adapter according to a second embodiment of the present invention is described. In the second embodiment, in addition to the functions described in the first embodiment, the IP telephone adapter includes a function for enabling a user to edit registered information in the rewritable region in the special number information database 171. In the IP telephone adapter of the second embodiment, the special number information changing part 16 has a function for adding a part or the whole of a telephone number into the special number information database 171 on the basis of an input from the outside of the IP telephone adapter. As means for inputting the telephone number, the IP telephone adapter may be provided with a display part for displaying registered special numbers on an operation panel, buttons for inputting the number, and a button for specifying add/delete of a special number. Alternatively, the IP telephone adapter may include a Web (http) server function. In this case, when a PC connected via the PC I/F 12 accesses the IP apparatus via a Web browser, a special number editing screen is displayed, and the IP telephone adapter receives data from the PC 5. A first operation example in the second embodiment is described. In the first operation example, when the IP telephone adapter receives a telephone number from the outside of the adapter with an instruction to add the number as a special number, the special number information changing part 16 adds the telephone number in the special number information database 171. In a case where the first operation example is not used, a special number cannot be added to the apparatus or to the IP telephone adapter. When originating a call to a telephone number other than the special number, the IP telephone adapter tries to establish a connection via the computer network first, then, the IP telephone adapter establishes a connection via the public telephone network. Therefore, if the called party is reached only via the public circuit telephone network, the operation to try to establish a connection via the computer network is useless, and the time from starting a call origination process to establishing a connection becomes long. Against this problem, according to the above-mentioned first operation example, a telephone number of a called party that can be reached only via the public circuit network can be added to the special number information database. Thus, the call origination process via the computer network can be omitted, so that the connection time from starting a call origination process to establishing a connection can be decreased. According to the first operation example, especially, connection to the telephone 4 d or the mobile telephone 4 e can be established without trying to establish a connection via the computer network so that the connection can be established quickly. A second operation example is described next. In the second operation example, when the number of digits of a telephone number of a called party is larger than that of a number registered in the special number information database, the circuit control part 11 compares the beginning of the telephone number with registered numbers. If there is a match, the circuit control part 11 determines that a connection to a called party of the telephone number can be established via the public circuit network without trying to connect via the computer network. For example, assuming �090� is registered as a special number, when originating a call to a telephone number having �090� at the beginning, if the circuit control part 11 determines that three digits from the top of the telephone number are the same as �090�, a call origination is performed via the public circuit network. In a case where the second operation example is not used, whole digits of a telephone number should be registered in the database, so that the operability may become bad. Against this problem, according to this operation example, the telephone number to which a connection is established via the public circuit network is determined by comparing beginning digits of the telephone number with numbers in the database. Therefore, for example, if all telephone numbers of a carrier should be connected via the public telephone network, an identifying number of the carrier is only stored in the database instead of storing all of the telephone number. Thus, the operation for registering numbers becomes efficient. Next, a third operation example is described. In the third operation example, the special number information changing part 16 edits, according to an input from the outside of the adapter, a telephone number of a part of a telephone number that is added to the special number information database. An editing screen for the special number may indicate only added special numbers as objects for delete. Alternatively, if deletion is instructed for a special number that is initially registered in the database, an error message may be displayed so that deletion of the special number is avoided. In a case where the third operation example is not used, a special number registered beforehand may be erroneously deleted. In such a case, there is a danger that a telephone call cannot be made to the police (110) or to the fire department (119) in an emergency. Against this problem, according to the third operation example, only a special number that is added can be edited, the above-mentioned problem can be prevented. Next, a fourth operation example is described. In the fourth operation example, after a connection to a called party is established, the special number information changing part 16 adds or deletes the telephone number of the called party according to an input from the outside of the apparatus. The add/delete instruction may be input by using a special button on an operation panel provided in the IP telephone adapter. In addition, the instruction may be provided by dialing a specific number, �*�, �#� or a combination of these. Further, the instruction may be input from a PC via the PC I/F 12. In a case where the fourth operation example is not used, when a user wants to add or delete a number, the user needs to input the whole number, so that the operability is not good. Against this problem, according to the fourth operation example, by performing a predetermined operation after a connection is established, the telephone number of the called party can be added or deleted, so that maintenance activities of the special number information database become very efficient. Although the function for editing the rewritable region in the special number information database 171 in the second embodiment has been described as a function added to the function in the first embodiment, the function in the second embodiment may be provided as a replacement for the function in the first embodiment in which a telephone number that is not connectable via the computer network is automatically added to the special number information database 171. Third Embodiment Next, a third embodiment of the present invention is described. In the third embodiment, a multi-function (MF) machine is used as the telephone adapter of the first and second embodiments. As shown in FIG. 16, the MF machine of this embodiment includes a telephone send/receive part 41, an image reading part 42 and an image forming part 43 instead of the telephone I/F 13 of the IP telephone adapter in the first and second embodiments. The telephone send/receive part 41 realizes known functions of a telephone. In addition, each of the image reading part 42 and the image forming part 43 realizes known functions. Operations for receiving and sending data or signals for performing communications are the same as operations performed by the IP telephone adapter and the telephone in the previous embodiments. Also as to an FAX communication, like the first and second embodiments, the MF machine can perform the FAX communication via the IP telephone network. The present invention can be also applied to a MF machine such as an internet facsimile supporting T.38, and an internet telephone including the circuit control part in the same way as the IP telephone adapter. In addition, for example, the configuration of the machine is not limited to the above-mentioned configurations as long as the machine includes functions for connecting to the computer network for realizing IP telephone and for connecting to the public circuit network such as the PSTN. For example, the present invention can be similarly applied to a computer network realized by optical fibers instead of ADSL. The present invention is not limited to the specifically disclosed embodiments, and variations and modifications may be made without departing from the scope of the present invention. The present application contains subject matter related to Japanese patent application No.2003-408245, filed in the JPO on Dec. 5, 2003, the entire contents of which are incorporated herein by reference. Referenced byCiting PatentFiling datePublication dateApplicantTitleUS8611522 *Mar 3, 2008Dec 17, 2013Metaswitch Networks LtdTelephone call processing method and apparatusUS20080240400 *Mar 3, 2008Oct 2, 2008Data Connection LimitedTelephone call processing method and apparatusEP2186311A1 *Aug 7, 2008May 19, 2010Alcatel, LucentMethod, modem and server for bridging telephone calls into internet callsWO2009018779A1Aug 7, 2008Feb 12, 2009Alcatel LucentMethod, modem and server for bridging telephone calls into internet calls* Cited by examinerClassifications U.S. Classification370/352International ClassificationH04M3/00, H04L29/06, H04L12/66, H04M11/00Cooperative ClassificationH04L65/1026, H04L65/1036, H04L65/1069, H04L29/06027European ClassificationH04L29/06C2, H04L29/06M2N2S2, H04L29/06M2N2M2, H04L29/06M2S1Legal EventsDateCodeEventDescriptionMar 7, 2013FPAYFee paymentYear of fee payment: 4Apr 1, 2005ASAssignmentOwner name: RICOH COMPANY, LTD., JAPANFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:MOTOHASHI, HIROOMI;REEL/FRAME:016419/0296Effective date: 20041209RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services©2012 Google