JP4082577B2 - Extension telephone system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an extension telephone system, and more particularly, to an extension telephone system in which an Ethernet (registered trademark) LAN gateway that transmits and receives voice data in IP packets and a terminal communicate with each other via Bluetooth.
[0002]
[Prior art]
[Patent Document 1]
JP-A-7-131842
[Patent Document 2]
JP-A-10-117207
[0003]
Conventionally, an extension telephone has a telephone cable for each terminal, and calls and communications are performed through the telephone cable. Therefore, when the layout of the office or factory is changed, the work for wiring the telephone cable takes time and cost. However, if all extension telephones are changed to mobile phones or PHS, there is a problem that communication costs increase.
[0004]
As a conventional technique for solving this problem, it is conceivable to adopt a private handy phone system (PHS) as an extension telephone. That is, when the local PHS is adopted as an extension telephone, the wiring work can be simplified as compared with the conventional extension telephone, and the communication cost can be reduced. In addition, each person can carry a PHS terminal so that each person can make a call at a place other than his / her seat, and the transfer settings are made one by one, the agent transfers the call, and the time to listen to the request instead. Can be omitted.
[0005]
Also, as one technical background, there is a communication method called IP telephone such as VoIP (Voice over Internet Protocol) which has been attracting attention recently. This IP telephone converts voice into IP packets, and LAN (Local Area Network). )) This is a technology that enables voice communication on the WAN or Wide Area Network (WAN).
[0006]
With the spread of the broadband Internet, the number of users who always connect to the Internet for a fixed amount has increased, and the desire to save call charges by using IP telephones has increased.
[0007]
In addition, since the IP telephone performs voice data compression, it occupies a narrower band and can improve communication efficiency as compared with a normal telephone.
[0008]
Furthermore, the IP telephone has a great advantage that it can use a LAN network that is essential for business using a personal computer in an office, and there is no need to draw a telephone line.
[0009]
As a conventional technique using a LAN, for example, “Communication control method of a private wireless communication system having a plurality of wireless mobile stations” in Patent Document 1 is proposed. In this communication control method, the first wireless mobile station that is the communication request source uses the first wireless mobile station that is the communication destination to call information including the LAN identification code of the second wireless mobile station and its own extension number. Broadcast to all radio base stations using LAN communication via the radio base station, and then the second radio base station that registers the destination LAN identification code receives the call information. To the second wireless mobile station via wireless communication. Next, the second wireless mobile station dials the extension number included in the call information, and the first wireless mobile station responds to the call to connect the voice communication line between the two wireless mobile stations. Thus, incoming calls can be made to all wireless mobile stations in the private wireless communication system.
[0010]
In other words, this conventional technology uses a terminal capable of performing wireless communication with a wireless base station connected to a LAN, so that it is possible to make a call by an extension telephone using only a LAN line without drawing a dedicated line. Trying to. In addition, this prior art assigns an address on a base station network and an extension number on the base station's wireless network assigned by the base station. Broadcast to all base stations to control the communication path.
[0011]
Conventionally, “mobile terminal connection method and network router” of Patent Document 2 has been proposed. This prior art is used between a portable terminal incorporating a portable telephone having a wireless telephone function outside the premises and a wireless extension function inside the premises, and a local area network having a cell station for connecting the wireless extension inside the premises. In a system consisting of a router to be connected and a personal computer connected to a LAN, the router transmits a location registration signal periodically transmitted by the portable terminal having a fixed address that does not change even when connected to any network called a virtual address. To recognize which router the portable terminal is connected with the extension wireless function, and notify the connection position information of the portable terminal to the router for connecting to another network. , Update routing information to the above portable terminal, and use personal computers and other portable devices on the network. -Type terminal and makes it possible establish a connection to the mobile terminal.
[0012]
[Problems to be solved by the invention]
However, in such a conventional technique, there is a need for improvement in order to further improve the usability.
[0013]
In other words, in recent years, the population of individuals who have mobile phones such as mobile phones and PHSs is overwhelmingly increasing. In such circumstances, in addition to private mobile phones, there is a single function for business use. Carrying a local PHS is cumbersome and inconvenient, which makes it troublesome to carry a business-use PHS and makes it difficult to carry it.
[0014]
Also, today, a communication standard called Bluetooth, which is excellent in interoperability with other information devices such as a mobile phone, personal computer, or facsimile machine, power consumption, and ease of network construction, is spreading. In addition, products that can connect Bluetooth units externally to mobile phones and PHS terminals have also appeared, and such Bluetooth units are connected externally to mobile phones and PHS terminals, only when in-house, When the Bluetooth unit is attached, the inconvenience of carrying two mobile phone terminals is solved.
[0015]
In addition, Bluetooth has excellent interoperability with other information devices, and can easily exchange information with many types of information devices and operate other devices as compared to PHS. have.
[0016]
However, in the prior art described in the above-mentioned patent document, there is the following problem when an extension telephone system that performs communication using a Bluetooth terminal is constructed.
[0017]
In other words, since the conventional technique of Patent Document 1 has a mechanism for broadcasting on a LAN, a short-range wireless communication system such as Bluetooth has a narrow communication range and a slave ( As the number of gateways is limited to 7 and the number of gateways becomes enormous and the number of extension users increases, it takes time to establish a communication path if broadcasting is performed. There was a problem that it was expensive and the usability was poor. Further, the conventional technique of Patent Document 2 has the same problem.
[0018]
On the other hand, Bluetooth is excellent not only in a call function but also in data communication with an information device such as a personal computer, and can exchange various information by connecting to a LAN. By using this Bluetooth function, it is possible to use it with high convenience, which was not possible with the conventional single-function campus PHS. However, in the prior art described in the above-mentioned patent document, such use is possible. There is no consideration regarding the law, and there is no consideration regarding the conversion of voice from a Bluetooth terminal into a packet that can be communicated on the LAN via a gateway.
[0019]
Therefore, the present invention uses a terminal equipped with Bluetooth as an extension telephone cordless handset, transmits and receives voice data using IP packets, uses an Ethernet LAN without drawing a dedicated telephone line, and is inexpensive. The purpose is to provide an extension telephone system with good usability.
[0020]
Further, the present invention is a terminal that converts voice and IP packets without drawing a dedicated telephone line or carrying two mobile phone terminals as in the prior art, and a gateway connected to an Ethernet LAN. Connected using a LAN access profile or PAN profile using PPP to communicate voice data over an Ethernet LAN, reducing the cost of drawing a dedicated telephone line and providing a highly usable extension telephone system The purpose is to do.
[0021]
In addition, the present invention enables a call between terminals using an Ethernet LAN line and a connection between a telephone of a general subscriber telephone line and a terminal, enables an outside line transmission, an incoming call from the outside line, and a call, and is inexpensive and further The purpose is to provide an extension telephone system with good usability.
[0022]
In addition, the present invention makes it possible to accurately know which gateway is connected when the terminals make a call, facilitates establishment of a communication path on the Ethernet LAN between the gateways, and An object of the present invention is to provide an extension telephone system that makes a telephone call promptly, is inexpensive, and has better usability.
[0023]
In addition, the present invention can identify a partner based on fragmentary clues such as a name and a department name and make a call to the other party even when information such as the telephone number of the other party to be called is not known. It is an object of the present invention to provide an extension telephone system that is inexpensive and has better availability.
[0024]
Another object of the present invention is to provide an extension telephone system that is cheaper and more highly usable so that the current position of the connected party can be known from the location information of the gateway to which the other party is connected. Yes.
[0025]
In addition, the present invention makes it possible to recognize who is the destination of the incoming call, so that smooth answering and answering to an unnecessary telephone can be rejected, and it is an inexpensive extension telephone system that is even more highly usable. The purpose is to provide.
[0026]
It is another object of the present invention to provide an extension telephone system that can be transferred to an outside telephone number, is inexpensive, and is more highly usable.
[0027]
It is another object of the present invention to provide an extension telephone system that can record an answering machine message when it cannot answer an incoming call to a terminal such as when it is absent, is inexpensive, and is more highly usable. Yes.
[0028]
In addition, the present invention makes it possible for the terminal owner to know that there is an answering machine message, and to receive the answering machine message directly by e-mail, so that an inexpensive and much more usable extension telephone system can be obtained. It is intended to provide.
[0029]
Another object of the present invention is to provide an extension telephone system that is cheaper and can be used more efficiently by allowing a proxy response to be made by another terminal instead of a terminal that cannot receive an incoming call.
[0030]
In addition, the present invention cancels the manner mode in a place where it is not necessary to use the manner mode, for example, in the office, even if the manner mode is set in a place where the ring tone cannot be emitted. It is an object of the present invention to provide an extension telephone system that is automatically canceled even if it is forgotten to be made, and that it is possible to appropriately deal with an incoming call, and that is inexpensive and more highly usable.
[0031]
It is another object of the present invention to provide an extension telephone system that allows a terminal to automatically search for the nearest gateway and connect as necessary, at a low cost, and with even better utilization. Yes.
[0032]
It is another object of the present invention to provide an extension telephone system that allows a terminal to automatically connect to a gateway and receive an incoming call, is inexpensive, and is more highly usable.
[0033]
In addition, the present invention determines that a terminal having a higher radio wave reception strength is closer when a plurality of gateways are within a communicable range, and selects it as a connection destination, which is cheaper and more highly usable. The purpose is to provide a secure extension telephone system.
[0034]
It is another object of the present invention to provide an extension telephone system that can automatically search for a nearby terminal and connect it as necessary, is inexpensive, and is more highly usable.
[0035]
Another object of the present invention is to provide an extension telephone system in which a gateway is automatically connected to a terminal within a communicable area for a certain period of time or more, is inexpensive, and is more highly usable. .
[0036]
In addition, the present invention provides an extension telephone system that can be used with a personal computer or the like that is easier to operate than operating the terminal to make a call using the terminal, is inexpensive, and is more highly usable. The purpose is that.
[0037]
Another object of the present invention is to provide an extension telephone system that displays the identification information of a caller on a display screen of a personal computer or the like having a display screen larger than that of a terminal, and is cheaper and more highly usable. .
[0038]
[Means for Solving the Problems]
The extension telephone system according to the first aspect of the invention is an extension telephone system in which a plurality of gateways connected to an Ethernet LAN and communicating with each other via the Ethernet LAN and a plurality of terminals perform voice communication according to the Bluetooth standard. The terminal has a function of incorporating voice data into a data part of an IP packet communicable over the Ethernet LAN to generate an IP packet, and a function of extracting voice data from the data part of the IP packet, The terminal and the gateway have a function for generating a Bluetooth standard packet by incorporating an IP packet into a data part of a Bluetooth standard packet, a function for decomposing a Bluetooth standard packet and extracting an IP packet, and sending and receiving the Bluetooth standard packet. B to do a function of performing Bluetooth communication, and the gateway has a function of transmitting an IP packet extracted by disassembling the Bluetooth standard packet to an Ethernet LAN, and a function of receiving an IP packet from the Ethernet LAN, The terminal sends a call request to the other terminal through the nearest gateway and the Ethernet LAN among the plurality of gateways, and the other terminal passes through the nearest gateway of the other terminal. The call request is received, and the terminals perform a voice call through the gateway and the Ethernet LAN.
[0039]
According to the above configuration, when a plurality of gateways connected to an Ethernet LAN and communicate with each other via the Ethernet LAN and a plurality of terminals perform voice communication according to the Bluetooth standard, the terminals are connected to the voice and the Ethernet LAN. It converts the IP packets that can be communicated with each other, the gateway functions as a Bluetooth LAN access profile server or a PAN gateway connected to the Ethernet LAN, and the terminal of the Bluetooth LAN access profile. It has a function of connecting to a server as a client, and accesses the Ethernet LAN through the gateway by the function, and transmits voice data by IP packets through the gateway and the Ethernet LAN. The terminal sends a call request to the other terminal via the nearest gateway among the plurality of gateways and the Ethernet LAN, and the other terminal is nearest to the other terminal. The terminal receives the call request via the gateway and makes a voice call between the terminals and the Ethernet LAN. A terminal that converts voice and IP packets without having to carry two mobile phone terminals. Connect to a gateway connected to the Ethernet LAN with a LAN access profile using PPP or a PAN profile, and voice on the Ethernet LAN. Can communicate data and reduce the cost of drawing a dedicated telephone line With wear, thereby improving the usability.
[0040]
Also, The invention according to claim 1 In the extension telephone system, a database for managing the location information and identification information of the terminal is connected to the Ethernet LAN, and the gateway is connected to itself and can receive incoming calls. And the identification information of the terminal connected to the gateway and the information for identifying the owner of the terminal are managed as a set, and the external line is connected to the Ethernet LAN.
If the gateway is connected, the telephone number of the external telephone of the general subscriber telephone line connected to the gateway for the external line and the identification information of the owner of the telephone number are registered and managed. When there is a change in the information related to the terminal connected to itself, the database notifies the change contents, the database changes the registration information related to the terminal that made the notification based on the notification, and the gateway Referring to the database, search for the gateway of the connection destination and control communication It is characterized by .
[0041]
According to the above configuration, a database for managing terminal location information and identification information is connected to the Ethernet LAN, and the gateway acquires the identification information of the terminal that is connected to itself and can receive incoming calls. The database manages at least the identification information on the gateway Ethernet LAN, the identification information of the terminal connected to the gateway, and the information for identifying the owner of the terminal, and the external gateway is connected to the Ethernet LAN. Registered and managed, the telephone number of the external telephone of the general subscriber telephone line connected to the gateway for the external line and the identification information of the owner of the telephone number are registered and managed. If there is a change in information about the device that is being Based on the notification, the registration information regarding the terminal that has received the notification is changed, and the gateway refers to the database to search for a gateway to connect to and control communication. It is possible to accurately know which gateway is connected, and it is possible to easily establish a communication path on the Ethernet LAN between the gateways. Can be made cheaper and more highly usable.
[0042]
Claim 2 The extension telephone system of the described invention is an extension telephone system in which a plurality of gateways connected to an Ethernet LAN and communicate with each other via the Ethernet LAN, and a plurality of terminals perform voice communication according to the Bluetooth standard, A gateway mutually converts voice data capable of voice communication according to the Bluetooth standard and an IP packet which can be communicated on the Ethernet LAN, and performs voice data communication on the Ethernet LAN. A call request to the other terminal via the nearest gateway and the Ethernet LAN, and the other terminal receives the call request via the nearest gateway of the other terminal, and The terminals connect the gateway and the Ethernet LAN And a database for managing the location information and identification information of the terminal is connected to the Ethernet LAN, and the gateway is connected to itself and can receive incoming calls. The identification information is acquired, and the database manages at least the identification information on the Ethernet LAN of the gateway, the identification information of the terminal connected to the gateway, and the information for identifying the owner of the terminal. At the same time, when the external line gateway is connected to the Ethernet LAN, the external telephone number of the general subscriber telephone line connected to the external line gateway and the identification information of the owner of the telephone number are registered. To manage information about the terminal connected to itself. If there is a change, the database is notified of the change, the database changes the registration information regarding the terminal that has received the notification based on the notification, and the gateway refers to the database to determine the connection destination. The gateway is searched to control communication.
[0043]
According to the above configuration, when a plurality of gateways connected to the Ethernet LAN and communicate with each other via the Ethernet LAN and a plurality of terminals perform voice communication based on the Bluetooth standard, the gateway can perform voice communication based on the Bluetooth standard. Voice data and IP packets communicable on the Ethernet LAN are converted to each other and voice data communication is performed on the Ethernet LAN. The terminal passes through the nearest gateway and the Ethernet LAN among the plurality of gateways. A call request is transmitted to another terminal, the other terminal receives the call request via a gateway nearest to the other terminal, and the terminals communicate with each other via the gateway and the Ethernet LAN. Make a voice call. Or, between two terminals that perform voice data communication by Bluetooth and a gateway connected to an Ethernet LAN having a function of converting voice and IP packets without carrying two mobile phone terminals as in the past. Thus, it is possible to make a call using the Ethernet LAN line, and it is possible to reduce the cost of drawing a dedicated telephone line and improve the usability. In addition, the extension telephone system is connected to a database for managing the location information and identification information of the terminal, Claim 1 Has the same effect as.
[0044]
In each of the above cases, for example, Claim 3 In the extension telephone system, an external line gateway to which a general subscriber telephone line is connected is connected to the Ethernet LAN, and the external line gateway is connected to voice data by IP packets on the Ethernet LAN. And a function of converting voice communication of the general subscriber telephone line and a function of converting an incoming signal and an outgoing signal, calling the terminal by an external line number from the general subscriber telephone line, and calling the terminal from the terminal It may be possible to make a voice call between a telephone terminal capable of communicating on the general subscriber telephone line and the terminal by performing an outside line call to the general subscriber telephone line.
[0045]
According to the above configuration, the external line gateway connected to the general subscriber telephone line is connected to the Ethernet LAN, and the external line gateway connects the voice data by the IP packet on the Ethernet LAN and the voice of the general subscriber telephone line. It has a function to convert communications and a function to convert incoming signals and outgoing signals, and performs calling of a terminal by an external line number from a general subscriber telephone line and outgoing line transmission from a terminal to a general subscriber telephone line, Since a voice call between a telephone terminal and a terminal that can communicate on a general subscriber telephone line is possible, a telephone call between terminals using an Ethernet LAN line and a connection between the telephone on the general subscriber telephone line and the terminal can be made. It is possible to make outgoing and incoming calls and calls from outside lines, and to make the extension telephone system cheaper and more usable. Can.
[0046]
In addition, for example, Claim 4 As described above, the terminal uses an intermediary function of data communication between the terminal of the gateway and the database, or uses a LAN access function of the terminal. The database may be accessed via the gateway, a call partner may be searched from the database, and a call may be made to the partner specified by the search result.
[0047]
According to the above configuration, the terminal uses the intermediary function of data communication between the terminal possessed by the gateway and the database or uses the LAN / access function possessed by the terminal via the gateway. If you do not know the information such as the phone number of the other party you want to call, you can access the database and search the other party from the database. Based on fragmentary clues such as names, the other party can be specified and a call can be made to the other party, and the extension telephone system can be made inexpensive and more highly usable.
[0048]
For example, Claim 5 The database also records physical location information of the gateway, and the terminal uses an intermediary function of data communication between the terminal of the gateway and the database. Alternatively, the current location of the owner of the terminal may be acquired by accessing the database via the gateway using the LAN / access function of the terminal.
[0049]
According to the above configuration, the physical location information of the gateway is also recorded in the database, and the terminal uses the intermediary function of data communication between the terminal of the gateway and the database, or the terminal Access the database via the gateway using the LAN / access function you have, and acquire the current location of the owner of the terminal, so you can connect from the location information of the connected gateway The extension telephone system can be made cheaper and more highly usable.
[0050]
In addition, for example, Claim 6 As described above, when the terminal receives an incoming call from another terminal, the terminal may acquire identification information of the owner of the terminal on the transmission side from the database.
[0051]
According to the above configuration, when a terminal receives an incoming call from another terminal, the terminal acquires the identification information of the owner of the terminal on the calling side from the database, so that an incoming call from a caller not recorded in the memory of the terminal can be obtained. Even if there is, it is possible to obtain information from the database so that the destination of the incoming call can be known, and it is possible to reject smooth answering and answering unnecessary calls. Can be made cheaper and more highly usable.
[0052]
For example, Claim 7 In the extension telephone system, the Ethernet LAN is connected to an external gateway connected to a general subscriber telephone line, and at least one of the terminals communicates via the general subscriber telephone line. Functioning as an external wireless mobile terminal such as a mobile phone terminal or a PHS terminal, and registering an external telephone number of the terminal having the function as the external wireless mobile terminal in the database, May be transferred to an external telephone number registered in the database when connected to the general subscriber telephone line.
[0053]
According to the above configuration, the Ethernet LAN is connected to the external line gateway connected to the general subscriber telephone line, and at least one of the terminals can make a call via the general subscriber telephone line. Function as an external wireless mobile terminal, etc., register the external telephone number of the terminal having the function as the external wireless mobile terminal in the database, and when making a call to the terminal, the terminal is connected to a general subscriber telephone line If it is, the call is transferred to the external telephone number registered in the database, it can be transferred to the destination of the external telephone number, and the extension telephone system can be made cheaper and more usable. .
[0054]
In addition, for example, Claim 8 In the extension telephone system, an answering machine service server for performing an answering machine service is connected to the Ethernet LAN, and the fact that the answering machine service is used is registered in the database for each terminal. When there is a call request to the terminal registered to use the answering machine service, the gateway connects the call request to the answering machine service server, and the answering machine service server An answering machine message addressed to the terminal of the call requesting party may be recorded so that the terminal can obtain an answering machine message addressed to itself from the answering machine service server.
[0055]
According to the above configuration, the answering machine service server that performs the answering machine service is connected to the Ethernet LAN, and the fact that the answering machine service is used can be registered in the database for each terminal. When there is a call request for a terminal registered to be used, the gateway connects the call request to the answering machine service server, and the answering machine service server sends an answering machine message addressed to the other terminal of the call request source. Since the corresponding terminal can obtain the answering machine message addressed to itself from the answering machine service server, the answering machine can be used when an incoming call to the terminal cannot be made, such as when the user is absent.
Messages can be recorded, and the extension telephone system can be made cheaper and more usable.
[0056]
For example, Claim 9 In the extension telephone system, an e-mail address specified by the owner of the terminal can be specified and registered in the database by specifying the owner, and the answering machine service server can store the answering machine When the message is recorded, the e-mail address of the owner of the terminal of the answering machine message is obtained from the database, and an e-mail is sent to notify that at least the answering machine message is recorded to the e-mail address. Depending on the designation of the owner, the recorded answering machine message may be attached to an e-mail and transmitted.
[0057]
According to the above configuration, when an email address specified by the terminal owner is specified and registered in the database and the answering machine service server records the answering machine message, the address of the answering machine message is recorded. Get the device owner's email address from the database, notify by email that at least an answering machine message has been recorded for that email address, and record it as specified by the owner Sending an answering machine message attached to an e-mail so that the owner of the terminal can know that there is an answering machine message, and receiving the answering machine message directly by e-mail The extension telephone system can be made cheaper and more usable. .
[0058]
In addition, for example, Claim 10 As described in the above, the terminal can be set in a proxy response ready state that receives an incoming call from a specific gateway other than the one addressed to the gateway instead, and the gateway sets the terminal that has received the call to a proxy response request state If the incoming call cannot be received, or if the incoming call is rejected, the incoming call is switched to the specific gateway and the specific gateway receives the incoming call. The terminal may be connected to a terminal set in a proxy response enabled state, and the terminal in the proxy response enabled state may receive the incoming call on behalf and make a call.
[0059]
According to the above configuration, the terminal can be set to a proxy response ready state that receives an incoming call from a specific gateway other than the one addressed to the gateway instead. If the incoming call cannot be received, or if the incoming call is rejected, the incoming call is switched to a specific gateway and the incoming call is received. Connected to a terminal that is set to, and the terminal in the proxy response enabled state receives the incoming call on behalf and makes a call, so it can change to a terminal that cannot receive the incoming call and make a proxy response on another terminal The extension telephone system can be made cheaper and more highly usable.
[0060]
For example, Claim 11 As described in the above, the terminal has a manner mode in which a ringing tone is turned off and an incoming call is notified by mechanical vibration or the like, and when the terminal is connected to a specific gateway in the state set to the manner mode, at least the terminal While connected to the gateway, a manner mode automatic release function for automatically releasing the manner mode may be provided.
[0061]
According to the above configuration, when the terminal has a manner mode in which the ringtone is turned off and an incoming call is notified by mechanical vibration or the like, and is set to the manner mode, at least the gateway is connected to the specific gateway. While it is connected to the phone, it has a silent manner automatic release function that automatically cancels the silent mode, so even if the silent mode is set in a place where the ring tone cannot be emitted, for example, in the office In places where you do n’t need to use manner mode, such as your seat, you can automatically turn it off even if you ’ve forgotten to turn it off, The extension telephone system can be made inexpensive and more highly usable.
[0062]
In addition, for example, Claim 12 As described in the above, when the terminal is not connected to any of the gateways, the terminal periodically searches for the gateways using the Bluetooth inquiry function and the service discovery function, When a gateway is found, it may be notified that the gateway has been found by a notification method such as sound, mechanical vibration, light or display, and an inquiry as to whether or not to connect to the gateway may be displayed.
[0063]
According to the above configuration, when the terminal is not connected to any gateway, it uses the Bluetooth inquiry function and the service discovery function to periodically search for the gateway to find the gateway. Then, you will be notified that the gateway has been found by a notification method such as sound, mechanical vibration, light or display, and an inquiry about whether to connect to the gateway will be displayed, so the nearest gateway will be searched automatically In addition, the extension telephone system can be made inexpensive and more highly usable.
[0064]
For example, Claim 13 As described in the above, when the terminal is not connected to any of the gateways, the terminal periodically searches for the gateways using the Bluetooth inquiry function and the service discovery function, and If the same gateway is continuously found for a certain period of time or more in a periodic gateway search, the gateway may be automatically connected to the gateway.
[0065]
According to the above configuration, when the terminal is not connected to any gateway, the gateway is periodically searched for using the Bluetooth inquiry function and the service discovery function, and the periodic If a gateway search continues to find the same gateway for a certain period of time or longer, it automatically connects to the gateway, so you can automatically connect to the gateway and receive incoming calls, making the extension telephone system cheaper and more Good usability can be obtained.
[0066]
In addition, for example, Claim 14 As described in the above, when the terminal is not connected to any of the gateways, the terminal periodically searches for the gateways using the Bluetooth inquiry function and the service discovery function, If multiple periodic gateway searches continue to find multiple gateways for a certain period of time, when connecting to the gateway, select the gateway with the stronger received radio wave strength among the gateways and connect It may be a thing.
[0067]
According to the above configuration, when the terminal is not connected to any gateway, it periodically searches for the gateway using the Bluetooth inquiry function and the service discovery function, and the periodic If you continue to discover multiple gateways for a certain period of time by searching for a gateway, the gateway with the strongest received radio wave strength is selected and connected as the connection destination when connecting to the gateway. When the gateway is within the communicable range, it can be judged that the one with stronger radio wave reception strength is nearby and can be selected as the connection destination, and the extension telephone system is cheaper and more usable. can do.
[0068]
For example, Claim 15 As described above, when the gateway searches for the terminal periodically using the Bluetooth inquiry function and the service discovery function and discovers the terminal, the gateway detects sound, mechanical vibration, The terminal may be notified that the gateway has been found by a notification method that performs light or display, etc., and the terminal may display an inquiry as to whether or not to connect to the gateway.
[0069]
According to the above configuration, when the gateway periodically searches for a terminal by using the Bluetooth inquiry function and the service discovery function and discovers the terminal, the gateway discovers sound, mechanical vibration, light or In addition to notifying the terminal that the gateway has been found by a notification method for displaying, etc., and causing the terminal to display an inquiry as to whether or not to connect to the gateway, automatically It is possible to search and connect as necessary, and the extension telephone system can be made inexpensive and more highly usable.
[0070]
In addition, for example, Claim 16 The gateway uses the Bluetooth inquiry function and the service discovery function to periodically search for the terminal, and finds the same terminal for a certain period of time by the periodic terminal search. If it continues, you may connect to the said terminal automatically.
[0071]
According to the above configuration, when the gateway periodically searches for a terminal by using the Bluetooth inquiry function and the service discovery function, and continues to find the same terminal for a certain period of time by the periodic terminal search. Because the terminal automatically connects to the terminal, the gateway can automatically connect to a terminal that is in a communicable area for a certain period of time or more, making the extension telephone system inexpensive and even more usable. Can be.
[0072]
For example, Claim 17 As described above, the extension telephone system includes at least one gateway having an information processing function for accessing the database and searching the database as the gateway, and the gateway having the information processing function includes: When a call is made, the database is searched, and when the operator of the gateway having the information processing function selects a desired communication partner from the search result, a call is made to the selected communication partner and the gateway is connected. The terminal may be controlled to be in a response waiting state for the outgoing call, and communication with the terminal in the standby state may be enabled when the caller terminal responds.
[0073]
According to the above configuration, as a gateway, a gateway having an information processing function for accessing a database and searching the database searches the database when making a call, and operates the gateway having the information processing function from the search result. When a person selects a desired communication partner, the call is made to the selected communication partner, and the terminal connected to the gateway is controlled in a response waiting state for the call, and the caller terminal responds. Because it enables communication with the terminal in the standby state, it is owned by the person who operates the personal computer by operating the personal computer having a gateway function and using the gateway such as the personal computer as a parent device. You can use the terminal as a slave unit to talk to other terminals. Operating in easily performed operation personal computer or the like rather than operating the terminal, it is possible to make a call using the terminal, inexpensive telephone extension system, it can be made more of the availability good.
[0074]
In addition, for example, Claim 18 The gateway having the information processing function includes a predetermined display device, and when there is an incoming call to the connected terminal, the identification information of the caller of the incoming call is sent to the display device. It may be displayed.
[0075]
According to the above configuration, when a gateway having an information processing function includes a predetermined display device and receives an incoming call to a connected terminal, the identification information of the caller of the incoming call is displayed on the display device. The identification information of the caller can be displayed on a display screen of a personal computer or the like having a display screen larger than that of the terminal, and the extension telephone system can be made cheaper and more highly usable.
[0076]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of the invention will be described in detail with reference to the accompanying drawings. The embodiments described below are preferred embodiments of the present invention, and thus various technically preferable limitations are given. However, the scope of the present invention is particularly limited in the following description. As long as there is no description which limits, it is not restricted to these aspects.
[0077]
1 to 29 are diagrams showing an embodiment of an extension telephone system of the present invention. FIG. 1 is a system configuration diagram of an extension telephone system 1 to which an embodiment of the extension telephone system of the present invention is applied. It is.
[0078]
In FIG. 1, an extension telephone system 1 includes a plurality of gateways 3a to 3n, an external gateway 4, a database 5, an answering machine 6 and the like connected to an Ethernet LAN 2, and a plurality of terminals 10a to 10m are connected as will be described later. Connected wirelessly. The Ethernet LAN 2 is an in-house network constructed by the Ethernet LAN.
[0079]
The Ethernet LAN 2 is connected to a general subscriber telephone line 20 via an external gateway 4, and a general subscriber telephone terminal 21 and a base of a general portable radio terminal 22 such as a general PHS or a mobile phone are connected to the general telephone line 20. Station 23 is connected.
[0080]
As will be described later, the external gateway 4 is configured such that terminals 10a to 10m wirelessly connected to the Ethernet LAN 2 receive calls from the general subscriber telephone terminal 21 and the general portable wireless terminal 22 or make a call, or from the terminals 10a to 10m. It functions to make an outside line transmission. Further, the external line gateway 4 has a role of an exchange between an IP telephone and a general subscriber telephone line by the Ethernet LAN 2, and the general subscriber telephone terminal 21 and the general portable radio terminal 22 and the extension terminals 10a to 10m can make a call. As described above, the communication path on the general subscriber telephone line 20 and the Ethernet LAN 2 is controlled. Further, the external line gateway 4 has a function of converting call voice data of the general subscriber telephone line 20 and IP packets flowing through the Ethernet LAN 2.
[0081]
The gateways 3a to 3n can communicate with Bluetooth terminals 10a to 10m capable of communication by Bluetooth, and communicate with the gateways 3a to 3n and the external gateway 4 through the Ethernet LAN 2.
[0082]
Accordingly, the terminals 10a to 10m can talk with each other, and the gateways 3a to 3n can communicate with the terminals 10a to 10m via the Ethernet LAN 2 so that the other terminals 10a to 10m can receive the incoming call. It has a function to control. The gateways 3a to 3n have a function of reconstructing voice call data based on Bluetooth into packets for performing communication on the Ethernet LAN 2 using, for example, a VoIP method.
[0083]
Several types of devices can be used as the gateways 3a to 3n. For example, the gateway 3a in FIG. 1 is a device such as an access point to which a plurality of terminals 10a to 10m can be connected. Alternatively, like a PHS base station or a wireless LAN access point, a plurality of terminals 10a to 10m perform relay for accessing the Ethernet LAN 2 and convert voice data. Further, the gateway 3b can perform a voice call by LAN communication using a voice IP packet as a parent telephone of the terminals 10a to 10m without using the terminals 10a to 10m. It is also possible to use the terminal 10b as a slave unit. The gateway 3n is an information device such as a personal computer having a gateway function. By associating the information device 3n having the gateway function with the terminals 10a to 10m, the usability can be improved as will be described later.
[0084]
The terminals 10a to 10m may be devices having only a call terminal function capable of only communication by Bluetooth in the extension telephone system 1. However, like the terminal 10m of FIG. 1, the terminals 10a to 10m may be general PHS terminals or mobile phones. By installing software that enables a telephone call in the extension telephone system 1 on a general portable radio terminal 22 such as a telephone terminal, and connecting the Bluetooth communication unit to the interface of the terminals 10a to 10m as an external device that can be removed, A device that functions as the terminals 10a to 10m by the extension telephone system 1 may be used. Since the terminals 10a to 10m do not need to carry two terminals for in-house extension and private use, it is preferable that the terminals 10a to 10m are devices of the latter form. Further, when the terminals 10a to 10m are in the latter form, the function as the Bluetooth communication unit is in charge of the software that allows the extension telephone system 1 to make a call, but the extension telephone system 1 can make a call. The audio or packet signal processing function that needs to be performed may be performed by hardware processing, and the hardware may be installed in the terminals 10a to 10m.
[0085]
The terminal 10m can be connected to the PHS or mobile phone line through the base station 23 of the PHS or mobile phone and can talk, and functions as a terminal of the extension telephone system 1 by attaching a Bluetooth unit.
[0086]
The database 5 includes the gateways 3a to 3n to which the terminals 10a to 10m are connected, the information necessary for controlling the communication path such as the addresses on the Ethernet LAN 2 of the gateways 3a to 3n, and the owners of the terminals 10a to 10m. Information related to the terminal and setting information related to how to use the terminals 10a to 10m are stored and managed. As will be described later, the terminals 10a to 10m or the gateways 3a to 3n access the database 5 and use the communication path control method stored in the database 5 and information in the database 5 to improve convenience. Can do.
[0087]
The answering machine (answering machine service server) 6 has a function of recording a voice message and a function of sending an e-mail when the terminals 10a to 10m cannot respond.
[0088]
Next, the operation of the present embodiment will be described. First, the operation mechanism of the extension telephone system 1 of the present embodiment will be described.
[0089]
Basic communication technologies used in the present embodiment are VoIP (Voice over Internet Protocol) and Bluetooth technologies. VoIP is a technology that enables a voice call on an Ethernet LAN when a VoIP gateway converts circuit-switched voice data into packet-switched IP packets. By using this VoIP, an inexpensive voice call using the Ethernet LAN can be made without paying a telephone call fee. For example, a personal computer can be used as an IP telephone by connecting a voice input device such as a microphone and a voice output device such as a headphone or a speaker to a personal computer having a VoIP gateway function and a terminal function. In addition, the VoIP gateways may be connected to each other via a LAN, and the VoIP gateway and each telephone terminal may be connected using a telephone line for extension. However, if both the LAN and telephone lines are drawn, wiring work is performed. It takes time and money.
[0090]
Therefore, the extension telephone system 1 of the present embodiment constructs the extension telephone system 1 by pulling only the LAN line as the Ethernet LAN 2.
[0091]
Another fundamental technology used in the present embodiment is Bluetooth, and Bluetooth is a short-range wireless communication that provides communication excellent in interoperability between a mobile phone and a peripheral device such as a personal computer and a FAX. Technology. Bluetooth is a function called “Inquiry” that automatically collects information on Bluetooth devices that exist within the communicable range and a function called “Service Discovery”. It has a function to search whether or not. In addition, Bluetooth uses a frequency hopping spread spectrum system, has the ability to withstand noise, and adjusts error correction strength and communication speed according to radio wave conditions to optimize communication. Has the ability. Furthermore, Bluetooth has functions of both data packets and voice packets, and supports communication of both data packets and voice packets.
[0092]
The present embodiment provides an extension telephone system 1 that is inexpensive and highly convenient by using the Ethernet LAN 2 that is an existing Ethernet LAN line by using the two communication technologies of VoIP and Bluetooth. The extension telephone system 1 according to the present embodiment performs voice communication via Bluetooth and Ethernet LAN 2, and converts the voice into a form suitable for the communication system in accordance with each communication system. The communication path is properly controlled.
[0093]
Then, the extension telephone system 1 of the present embodiment converts the voice into IP packets and transmits them on the Ethernet LAN 2. However, the voice IP packetization is performed by the gateways 3a to 3n or by the terminals 10a to 10m. The configuration differs depending on what you do. If the combinations of the terminals 10a to 10m and the gateways 3a to 3n are of the same type, even if different types of gateways 3a to 3n are connected on the Ethernet LAN 2, calls between the terminals 10a to 10m can be made. Is possible.
[0094]
In a method of performing voice IP packetization in the gateways 3a to 3n (hereinafter referred to as a gateway voice method), Bluetooth communication is performed by communication using an SCO packet for performing voice communication defined by the Bluetooth standard. Communication using the gateways 3a to 3n and Bluetooth is performed.
[0095]
On the other hand, in a method in which terminals 10a to 10m perform voice IP packetization (hereinafter referred to as terminal voice method), the terminals 10a to 10m make LAN access to the gateways 3a to 3n using a Bluetooth LAN access profile using PPP. In the specification of Bluetooth, interoperability requirements when using Bluetooth together with PPP as a communication bearer for WAP (Wireless Application Protocol) and WAP application are defined in the specification part F: 4 of the Bluetooth core. The terminals 10a to 10m access the gateways 3a to 3n by an application program that satisfies this specification and conforms to the LAN access profile. At this time, the gateways 3a to 3n do not need to change the voice to IP packets. Alternatively, instead of the Bluetooth LAN access profile using PPP, a PAN (Personal Area Network) profile may be used. The packet type used in the PAN profile is defined by BNEP (Bluetooth Network Encapsulated Protocol).
[0096]
The Bluetooth protocol stack will be described below. The Bluetooth protocol stack can be simplified as shown in FIG. 2, and is composed of LMP / Baseband / RF31, HCI32, L2CAP33, SDP34, TCS35, RFCOMM36, OBEX37, WAP38 and application 39 from the lower layer. . A Bluetooth upper protocol layer is formed by L2CAP33, SDP34, TCS35, RFCOMM36, OBEX37 and WAP38. Note that FIG. 2 does not necessarily show the protocol stacks of all Bluetooth devices.
[0097]
First, in the case of the gateway voice system that performs voice IP packetization at the gateways 3a to 3n, communication between the terminals 10a to 10m and the gateways 3a to 3n is performed using the TCS binary protocol 35. In addition, in the case of a terminal voice conversion method in which voice IP packetization is performed by the terminals 10a to 10m, communication is performed using the WAP 38.
[0098]
The TCS 35 used in the gateway voice system that performs voice IP packetization in the gateways 3a to 3n is a profile for performing voice calls using Bluetooth, and performs control of calls for performing calls using SCO packets. . The cordless telephony profile defines specifications for making a voice call with the PSTN gateway.
[0099]
The WAP 38 used in the terminal voice conversion system that performs voice IP packetization in the terminals 10a to 10m has a configuration as shown in FIG. 3 in detail. The WAP 38 is PPP41 on the RFCOMM protocol 36 that emulates serial communication. By implementing IP42 and TCP / IP43, it is possible to emulate LAN communication using TCP / IP or UDP / IP. In the PAN profile, since only BNEP is used instead of the RFCOMM 36 and the PPP 41, the throughput can be improved.
[0100]
The SDP 34 is a protocol for registering and searching for services. With this SDP 34, it is possible to easily search for the service providing capability of surrounding Bluetooth devices, and the convenience of Bluetooth. Is one of the advantages over other wireless communication systems. Another important function of Bluetooth is a function called “Inquiry” that can easily search for information of surrounding Bluetooth devices, and this function is performed below the baseband. This function is performed via the host controller interface (HCI) 32.
[0101]
Next, packet types used in the extension telephone system 1 of the present embodiment will be described. FIG. 4 shows a configuration example of an SCO packet when voice communication is performed using Bluetooth, and FIG. 5 shows a configuration example of a packet when voice communication is performed on the Ethernet LAN 2 using VoIP. The gateways 3a to 3n take out the voice data part, reconstruct the packet of the voice data part in a form corresponding to the format, communication speed, and QoS of the conversion destination packet, add it to the header part on the conversion side, and transmit it. When the encoding method of the audio data is different between the Ethernet LAN 2 and Bluetooth, the gateways 3a to 3n also convert the encoding method so as to conform to the conversion destination method.
[0102]
FIG. 6 shows a configuration example of a Bluetooth WAP packet, which emulates LAN communication. Therefore, the gateways 3a to 3n take out the voice part of the packet, and send it on a specific part such as a header / payload of the Ethernet LAN 2 in accordance with the communication speed and QoS. The conversion from Ethernet LAN 2 to Bluetooth is also the same.
[0103]
Next, a case where the communication path is controlled using the database 5 will be described.
[0104]
The following description will be made assuming that the terminal 10a requests a call to the terminal 10b. In the extension telephone system 1, the terminals 10a to 10m are connected to the gateways 3a to 3n via Bluetooth, and the gateways 3a to 3n are connected to the Bluetooth devices of the terminals 10a to 10m connected thereto. An identifier unique to the Bluetooth device called an address is acquired. This identifier becomes an identifier of the Bluetooth device between local networks called piconets composed of the gateways 3a to 3n and the terminals 10a to 10m. Therefore, when the gateways 3a to 3n to which the terminals 10a to 10m are connected are known, if the Bluetooth device address is known, the desired terminals 10a to 10m can be specified.
[0105]
On the other hand, since the gateways 3a to 3n are connected by the Ethernet LAN 2, an IP address is used as an identifier on the Ethernet LAN 2. Control of the communication path between the gateways 3a to 3n can be handled by a conventional IP protocol.
[0106]
Although not shown in detail, the Ethernet LAN 2 is configured by using some of a router, a hub, a DNS server, a DCHP server, and a normal gateway.
[0107]
Therefore, the communication path can be determined by combining and managing the Bluetooth addresses of the terminals 10a to 10m and the IP addresses of the connection destination gateways 3a to 3n. In the extension telephone system 1, the database 5 manages this management. Do.
[0108]
For example, in the case of the terminal voice conversion method in which voice IP packetization is performed by the terminals 10a to 10m, the terminals 10a to 10m are connected to the gateways 3a to 3n functioning as LAN access points. Each terminal 10a-10m has an IP address.
[0109]
When the gateways 3a to 3n have a DHCP server function, a local IP address in the piconet having the gateways 3a to 3n as a master can be used instead of the Bluetooth device address.
[0110]
In addition, when the terminals 10a to 10m have fixed IP addresses, the IP addresses of the terminals 10a to 10m can be registered without registering the IP addresses of the gateways 3a to 3n in the database 5, and the IP protocol can be used. The communication path can be determined.
[0111]
Then, when the terminals 10a to 10m and the gateways 3a to 3n are connected by Bluetooth and a state where communication is possible is established, the gateways 3a to 3n access the database 5 and confirm that the terminals 10a to 10m are connected. Notice. At this time, the Bluetooth device address of the terminals 10a to 10m is used as an identifier, and it becomes possible to search which gateways 3a to 3n the terminals 10a to 10m are connected to.
[0112]
The database 5 not only manages addresses on the Ethernet LAN 2, but can also register information identifying the owner and other information as a set. For example, by assigning a unique extension number to each of the terminals 10a to 10m and specifying the extension number, an identifier on the Ethernet LAN 2 can be obtained from the database 5, and a communication path can be secured. Further, when the extension telephone system 1 is connected to the outside line (general subscriber telephone line 20) by the outside line gateway 4 and can use the outside line as shown in FIG. It is possible to register information such as the department name of the owner.
[0113]
The communication path determination process will be described with reference to FIG. FIG. 7 shows a flow when the terminal A which is one of the terminals 10a to 10m makes a call to the terminal B which is the other terminals 10a to 10m. In FIG. 7, first, when the terminal A transmits the extension number of the terminal B, a call request for the extension of the terminal B is made to the gateway A which is one of the gateways 3a to 3n to which the terminal A is connected by Bluetooth communication. Is sent. The gateway A accesses the database 5 (described as DB in FIG. 7), searches for which gateway 3a to 3n (described as GW in FIG. 7) the counterpart terminal B is connected to, and the Bluetooth device. Search for an address. Next, the gateway A connects to the gateway B to which the terminal B, which is found by searching the database 5, is connected, and transmits a call request to the terminal B. The gateway B transmits the call to the terminal B designated by the Bluetooth device address. The terminal B receives the incoming call and transmits the incoming call to the owner of the terminal B by, for example, a dial tone or mechanical vibration.
[0114]
Terminal A can also make a call by directly specifying the Bluetooth device address of terminal B.
[0115]
Next, call control will be described. Once the communication path is established, call control, ie call control, is then required. Basically, call control is based on H.264, which is an ITU-T standard. It is realized by using the QGIS (Signaling protocol over Q reference point) compatible with the H.323 recommendation or the existing PINX (Private Integrated Network eXchanger). That is, a call control signal adopted in VoIP can be used.
[0116]
Further, when voice packetization is performed by the gateways 3a to 3n, since the terminals 10a to 10m do not directly communicate with the IP protocol, call control different from VoIP is performed between the terminals 10a to 10m and the gateways 3a to 3n. It is necessary to do. In this case, the call control can be performed by a method defined by the Bluetooth cordless telephony profile and the TCS binary protocol, and the gateways 3a to 3n relay the VoIP call control and the Bluetooth TCS call control. -It will have a function to convert.
[0117]
Next, on the premise of the basic communication technology of the extension telephone system 1 of the present embodiment, voice communication in the case of the gateway voice system in which voice packetization is performed by the gateways 3a to 3n is shown in FIG. 8 and FIG. This will be explained based on. In the following description, it is assumed that a call is made from one terminal A of the terminals 10a to 10m to a terminal B that is one of the other terminals 10a to 10m.
[0118]
When voice packetization is performed by the gateways 3a to 3n, the communication between the terminals 10a to 10m and the gateways 3a to 3n is performed by an application conforming to the Bluetooth cordless telephony profile. For call control, Bluetooth is used. The TCS binary protocol is used. Audio data is communicated using SCO packets.
[0119]
First, terminal A makes a call by making a call using Bluetooth TCS protocol. Next, when the owner of the terminal A generates voice to the voice input unit, the terminal A performs A / D conversion as shown in FIG. 8 and FIG. An address (NW address) is added and transmitted to the gateway A as a Bluetooth (BT) SCO packet.
[0120]
The gateway A that has received the Bluetooth SCO packet extracts the address of the Ethernet LAN 2 from the SCO packet, extracts the voice packet, and reconfigures the packet to be transmitted on the Ethernet LAN 2, and the header payload unique to the Ethernet LAN 2 Added to the IP, and transmitted over the Ethernet LAN 2.
[0121]
The gateway B that has received the LAN packet takes out the voice packet and transmits the Bluetooth address (BD address) in order to transmit the received LAN packet as a Bluetooth SCO packet, and converts it into a Bluetooth SCO packet. And send to terminal B via Bluetooth.
[0122]
Upon receiving the SCO packet, terminal B disassembles the SCO packet, extracts the voice, performs voice decoding, echo cancellation, etc., performs D / A conversion, and then outputs the voice from the voice output unit of terminal B. To do.
[0123]
As described above, in the extension telephone system 1 according to the present embodiment, in the case of the gateway voice system, the gateways 3a to 3n mutually transmit voice data that can be voice-communication according to the Bluetooth standard and IP packets that can be communicated on the Ethernet LAN 2. And the terminals 10a to 10m communicate with the other gateways 10a to 10m via the nearest gateways 3a to 3n and the Ethernet LAN 2 among the plurality of gateways 3a to 3n. A call request is transmitted, the other terminals 10a to 10m receive the call request via the nearest gateways 3a to 3n of the other terminals 10a to 10m, and the terminals 10a to 10m are connected to the gateways 3a to 3m. A voice call is performed via 3n and Ethernet LAN2.
[0124]
Therefore, the gateways 3a to 3n and the Bluetooth connected to the Ethernet LAN 2 having a function of converting voice and IP packets without drawing a dedicated telephone line and carrying around two portable telephone terminals as in the prior art. The two terminals 10a to 10m that perform voice data communication can communicate with each other using two Ethernet LAN lines, so that the cost of drawing a dedicated telephone line can be reduced and the extension telephone system 1 can be used. Can be improved.
[0125]
Next, voice communication in the case of a terminal voice method in which voice packetization is performed by the terminals 10a to 10m will be described with reference to FIGS.
[0126]
In the case of a terminal voice conversion method in which voice packetization is performed by the terminals 10a to 10m, the terminals 10a to 10m and the gateways 3a to 3n perform WAP communication using an application defined by the Bluetooth LAN access profile.
[0127]
First, when the owner of the terminal A generates voice to the voice input unit, the terminal A encodes the voice and converts it into an IP packet as shown in FIGS. At this time, the terminal A does not use the Ethernet header / payload, adds the Bluetooth header / payload and L2CAP / RFCOMM data, adds the address of the Ethernet LAN2, and is defined by the Bluetooth LAP packet. Assemble the WAP packet. That is, the terminal A directly generates an IP packet in the VoIP format as a VoIP terminal.
[0128]
Terminal A transmits a WAP packet including the voice data to gateway A.
[0129]
The gateway A takes out the part excluding the Bluetooth specific part from the WAP packet received from the terminal A, adds it to the header payload of the Ethernet LAN 2 to construct an IP packet, and transmits it to the gateway B. At this time, the gateway A collects the voice parts of a plurality of Bluetooth packets into one IP packet according to the QoS, or conversely, divides the voice part of one Bluetooth packet into a plurality of IP packets and transmits them.
[0130]
Gateway B that has received the IP packet from gateway A creates a WAP packet defined by the Bluetooth LAP packet by the reverse operation, and transmits the WAP packet to terminal B.
[0131]
When the terminal B receives the WAP packet, the terminal B decomposes the WAP packet, extracts the voice data portion, and performs processing such as voice decoding and echo cancellation. Terminal B further D / A converts the sound and outputs it from the sound output unit.
[0132]
As described above, in the extension telephone system 1 of the present embodiment, in the case of the terminal voice conversion system, the terminals 10a to 10m mutually convert voice and IP packets that can be communicated on the Ethernet LAN 2, and gateways 3a to 3n. Functions as a Bluetooth LAN access profile server or PAN gateway connected to an Ethernet LAN, and the terminals 10a to 10m have a function of connecting to a server as a Bluetooth LAN access profile client. Thus, the function has a function of accessing the Ethernet LAN 2 via the gateways 3a to 3n and performing voice data communication using IP packets via the gateways 3a to 3n and the Ethernet LAN 2, and a plurality of terminals 10a to 10m are provided. of A call request to the other terminals 10a to 10m through the gateways 3a to 3n and the Ethernet LAN 2 of the gateways 3a to 3n, and the other terminals 10a to 10m are connected to the other terminals 10a to 10m. The call request is received via the nearest gateways 3a to 3n, and the terminals 10a to 10m perform a voice call via the gateways 3a to 3n and the Ethernet LAN 2.
[0133]
Therefore, the gateways 3a to 3n connected to the Ethernet LAN 2 and the PPP are connected to the Ethernet LAN 2 without drawing a dedicated telephone line and without carrying two mobile phone terminals as in the prior art. Can be connected via a LAN access profile or a PAN profile to communicate voice data on the Ethernet LAN 2, and the cost of drawing a dedicated telephone line can be reduced. Usability can be improved.
[0134]
Next, voice communication in the case where a gateway voice system that performs voice packetization at the gateways 3a to 3n and a terminal voice system that performs voice packetization at the terminals 10a to 10m are mixed is based on FIG. explain. Note that now, the terminal A and the gateway A are the gateway voice system in which the voice packetization is performed by the gateways 3a to 3n, and the terminal voice conversion in which the terminal B and the gateway B are the voice packetization by the terminals 10a to 10m. Suppose that it is a method.
[0135]
In this case, in the terminal A and the gateway A that perform voice packetization in the gateways 3a to 3n, the gateway B performs communication by a method defined by the Bluetooth cordless telephony profile and the TCS binary protocol, and the voice packet In the terminal B and the gateway B that perform the conversion in the terminals 10a to 10m, the gateway B The call control signal is relayed by the VoIP method based on the H.323 recommendation or QGIS.
[0136]
That is, since the gateway A performs packetization of voice in the terminal A, when the owner of the terminal A generates voice to the voice input unit, as shown in FIG. 12, after A / D conversion, Bluetooth is used. The voice is encoded and transmitted to the gateway A as a Bluetooth (BT) SCO packet (voice packet).
[0137]
Upon receiving the Bluetooth SCO packet, the gateway A takes out the voice packet from the SCO packet, reconfigures the packet for transmission on the Ethernet LAN 2, adds it to the header payload specific to the Ethernet LAN 2, converts it to IP, It transmits on Ethernet LAN2.
[0138]
Gateway B that receives the IP packet takes the reverse operation of taking out the voice packet and converting it into a Bluetooth SCO packet (WAP packet) in order to transmit the received LAN packet (IP packet) as a Bluetooth SCO packet. And transmit to terminal B via Bluetooth.
[0139]
The terminal B that has received the WAP packet disassembles the WAP packet, extracts the IP packet, performs voice decoding, echo cancellation, and the like, performs D / A conversion, and then transmits the voice from the voice output unit of the terminal B. Output.
[0140]
Therefore, the owner of the terminal B can listen to the voice uttered by the owner of the terminal A.
[0141]
In addition, when the owner of the terminal B generates voice to the voice input unit, the terminal B encodes the voice and converts it into an IP packet. At this time, the terminal B does not use the Ethernet header / payload, adds the Bluetooth header / payload and L2CAP / RFCOMM data, adds the address of the Ethernet LAN2, and is defined by the Bluetooth LAP packet. Assemble the WAP packet. That is, terminal B directly generates a VoIP format IP packet as a VoIP terminal, and transmits a WAP packet including the voice data to gateway B.
[0142]
The gateway B extracts a portion excluding the Bluetooth specific portion from the WAP packet received from the terminal B, adds it to the header payload of the Ethernet LAN 2 to construct an IP packet, and transmits it to the gateway A.
[0143]
Receiving the IP packet from gateway B, gateway A creates a WAP packet (voice packet) defined by the Bluetooth LAP packet by the reverse operation, and transmits the WAP packet to terminal A.
[0144]
When the terminal A receives the WAP packet, the terminal A disassembles the WAP packet, extracts the voice data portion, performs processing such as voice decoding and echo cancellation, and then D / A converts the voice, Output from.
[0145]
Therefore, the owner of the terminal A can listen to the sound uttered by the owner of the terminal B.
[0146]
Next, communication is performed between the general subscriber telephone terminal 21 connected to the general subscriber telephone line 20 via the external line gateway 4 and an external terminal such as a general portable radio terminal 22 such as a general PHS or a mobile phone. Will be described with reference to FIGS.
[0147]
As described above, the external line gateway 4 has a role of an exchange between the IP telephone on the Ethernet LAN 2 and the general subscriber telephone line 20, and is an Ethernet that is an extension with the general subscriber telephone terminal 21 and the general portable radio terminal 22. The general subscriber telephone line 20 and the communication path on the Ethernet LAN 2 are controlled so that the terminals 10a to 10m on the LAN 2 can make a call. The external line gateway 4 has a function of converting the voice data of the general subscriber telephone line 20 and the IP packet flowing through the Ethernet LAN 2.
[0148]
That is, as shown in FIG. 13, the extension telephone system 1 is connected from an outside terminal such as a general subscriber telephone terminal 21 connected to a general subscriber telephone line 20 which is an external line and a general portable radio terminal 22 such as a general PHS or a mobile phone. When a call is made to the numbers of the terminals 10a to 10m on the Ethernet LAN 2, the external line gateway 4 is first called.
[0149]
When the external gateway 4 receives the incoming call of the external line, it accesses the database 5 and sets the called external line number to the address (NW) of the extension telephone system 1 such as the IP address on the Ethernet LAN 2 or the device address of Bluetooth. The external line gateway 4 simultaneously packetizes the voices of the general subscriber telephone terminal 21 and the general portable radio terminal 22 that are circuit-switched analog communications on the Ethernet LAN 2. . That is, as shown in FIG. 15A, the external line gateway 4 performs A / D conversion on audio from the external line, encodes the audio, and then encodes the header payload of the Ethernet LAN 2 The voice is added to form an IP packet. At this time, the address on the Ethernet LAN 2 of the receiving side terminals 10a to 10m is used as the destination information.
[0150]
As shown in FIG. 13, the external gateway 4 calls and transmits this LAN packet via the Ethernet LAN 2 to the gateway A to which the terminal A, which is the counterpart terminal 10a to 10m, is connected. When the terminal A receives the call, the telephone call between the terminal A and the outside line terminal becomes possible.
[0151]
On the contrary, when the terminal 10a to 10m of the extension telephone system 1, for example, the terminal A sends a call to the outside line, it is realized by a process reverse to the above. That is, as shown in FIG. 14, when terminals 10 a to 10 m, for example, terminal A makes a call to an outside line, gateway A receives the call from terminal A and connects to outside line gateway 4. At this time, the gateway A transmits to the external gateway 4 as a LAN packet by any one of the methods shown in FIGS.
[0152]
As shown in FIG. 15 (b), the external line gateway 4 extracts voice packets from the LAN packets, converts the network address (NW address) into a telephone number, transmits to the external line, and controls the call. Thus, communication between the terminal A and the external terminal is made possible. Further, the external line gateway 4 extracts voice packets from the LAN packets to perform voice decoding and D / A conversion in order to transmit voice over the circuit-switched general subscriber telephone line 20, and performs general voice telephone line 20 To the connected external line terminal. The external line gateway 4 also performs processing such as echo cancellation.
[0153]
Thus, in the extension telephone system 1 of the present embodiment, the external line gateway 4 to which the general subscriber telephone line 20 is connected is connected to the Ethernet LAN 2, and the external line gateway 4 is connected to the IP on the Ethernet LAN 2. It has a function of converting voice data by packet and voice communication of the general subscriber telephone line 20 and a function of converting an incoming signal and an outgoing signal, and calling the terminals 10a to 10m by the external line number from the general subscriber telephone line 20. The terminals 10a to 10m make outgoing calls to the general subscriber telephone line 20 to enable voice communication between the telephone terminals 21 and 22 and the terminals 10a to 10m that can communicate with the general subscriber telephone line 20.
[0154]
Therefore, it is possible to make a call between the terminals 10a to 10m using the Ethernet LAN 2 line and to connect the telephones 21 and 22 of the general subscriber telephone line 20 to the terminals 10a to 10m, and to make an outside line call, an incoming call from the outside line, and a call. Accordingly, the extension telephone system 1 can be made inexpensive and more highly usable.
[0155]
Next, the search process of the database 5 will be described. In the extension telephone system 1, the user designates the person whom he / she wants to call by performing a search on the database 5 based on fragmentary memories such as the names of the owners of the terminals 10a to 10m and the departments to which the terminals belong. Can do. The search process of the database 5 will be described with reference to FIG.
[0156]
The extension telephone system 1 is equipped with an application in which the terminals 10a to 10m have a function of causing the gateways 3a to 3n to search the database 5 for information, and the gateways 3a to 3n search the database 5 by the terminals 10a to 10m. It has a function to mediate.
[0157]
Therefore, first, the terminals 10a to 10m request the gateways 3a to 3n to search the database 5 as shown in FIG. Upon receiving the search request for the database 5, the gateways 3a to 3n accept the search request to the terminals 10a to 10m, access the database 5, and start data search mediation. The owner of each of the terminals 10a to 10m searches the database 5 by using a fragmentary memory such as the owner's name and department, and identifies the partner. When the partner is identified by searching the database 5, the identification information on the identified partner's Ethernet LAN 2 can be acquired, and a communication path is established.
[0158]
Therefore, when the owner of the terminals 10a to 10m uses the terminals 10a to 10m to make a call to the partner, the gateways 3a to 3n connect to each other so that a call with the partner can be made. In the same manner as described above, when the counterpart terminals 10a to 10m accept an incoming call, a voice call between the terminals 10a to 10m becomes possible.
[0159]
As described above, in the extension telephone system 1 of the present embodiment, the database 5 for managing the location information and identification information of the terminals 10a to 10m is connected to the Ethernet LAN 2, and the gateways 3a to 3n are connected to itself. The terminal 10a-10m connected to the gateway 3a-3n and the identification information on the Ethernet LAN 2 of the gateway 3a-3n and the gateway 3a-3n. ID information and information for identifying the owners of the terminals 10a to 10m are managed as a set, and the telephone numbers of the external telephones 21 and 22 of the general subscriber telephone line 20 connected to the external line gateway 4 and the telephone. The identification information of the owner of the number is registered and managed, and the gateways 3a to 3n connect to themselves If there is a change in the information regarding the terminals 10a to 10m, the database 5 is notified of the change, and the database 5 changes the registration information regarding the terminals 10a to 10m that have received the notification based on the notification, and the gateways 3a to 3a 3n refers to the database 5 and searches for connection destination gateways 3a to 3n to control communication.
[0160]
Therefore, when the terminals 10a to 10m make a call, it is possible to accurately know which gateway 3a to 3n is connected to, and the communication path on the Ethernet LAN 2 between the gateways 3a to 3n is easily established. It is possible to make a call between the terminals 10a to 10m promptly, and the extension telephone system 1 can be made inexpensive and more highly usable.
[0161]
Next, the current position information acquisition process will be described. In the extension telephone system 1, the location information of the gateways 3a to 3n is registered in the database 5 in advance. When the owner of the terminals 10a to 10m transmits to the gateways 3a to 3n, the terminals 10a to 10m communicate with each other. The location information of the existing gateways 3a to 3n can be searched from the database 5, and the location information of the terminals 10a to 10m can be acquired.
[0162]
That is, the database 5 manages the physical location information of the gateways 3a to 3n together, and can access the database 5 to know the current location of the owner of the terminals 10a to 10m. Data registration is done so that it can be done. For example, obtain information such as whether it is connected to the gateways 3a to 3n at its own seat in the office or to the gateways 3a to 3n of the third conference room on the 10th floor of the A office. Can do.
[0163]
Moreover, the names of the terminals 10a to 10m connected to the specific gateways 3a to 3n and the owners of the terminals 10a to 10m can be searched in the database 5 to obtain a list thereof. At this time, the information of the connected terminals 10a to 10m can be updated to the latest information using the Bluetooth inquiry.
[0164]
Thus, the extension telephone system 1 of the present embodiment also records the physical location information of the gateways 3a to 3n in the database 5, and the terminals 10a to 10m are terminals that the gateways 3a to 3n have. The database 5 is accessed via the gateways 3a to 3n using the intermediary function of data communication between the terminals 10a to 10m and the database 5 or using the LAN / access function of the terminals 10a to 10m. The current position of the owner of the terminals 10a to 10m is acquired.
[0165]
Accordingly, the current position of the connected party can be known from the position information of the gateways 3a to 3n to which the other party is connected, and the extension telephone system 1 can be made inexpensive and more highly usable. can do.
[0166]
Next, incoming information display processing will be described with reference to FIGS. The extension telephone system 1 sends information specifying the terminals 10a to 10m in the database 5, sender information such as the names of the owners of the terminals 10a to 10m, and external telephone numbers and names of users of the external telephone numbers. The caller information is registered as a pair, and when the call is received at the terminals 10a to 10m, the caller information of the other party that is the caller to the terminals 10a to 10m is searched from the database 5, and the callee terminals 10a to 10m are searched. 10m, and the terminal 10a to 10m notifies by a predetermined notification method such as display.
[0167]
In other words, a typical commercially available PHS or mobile phone generally registers a phone number and name in a memory and registers them in a memory. Has a function to display.
[0168]
Also in the extension telephone system 1 of the present embodiment, by registering the caller information such as the telephone number and the terminals 10a to 10m and the caller information such as the name of the other party in each memory of the terminals 10a to 10m, When a call is received, caller information such as the name of the other party can be displayed.
[0169]
However, when the caller information is not registered in the terminals 10a to 10m or when the terminals 10a to 10m do not have such a function, it is impossible to know who the other party is.
[0170]
Therefore, the extension telephone system 1 of the present embodiment stores information specifying the terminals 10a to 10m, caller information such as the names of the owners of the terminals 10a to 10m, external telephone numbers, and external telephone numbers in the database 5. The caller information such as the name of the user is registered as a pair, and when the call is received, the caller information of the incoming call is retrieved from the database 5 and notified to the receiving terminals 10a to 10m. Caller information is notified by displaying on a 10 m display unit or by outputting a voice.
[0171]
The caller information notification function can turn on / off the caller information notification function for the terminals 10a to 10m, and the extension telephone system 1 makes a call according to the caller information notification on / off setting. Person information notification process.
[0172]
That is, as shown in FIG. 17, there is a caller information notification function for acquiring caller information such as the name of the caller from the database 5 in advance at the terminal A and displaying it on the display screen of the terminal A, as shown in FIG. When set to ON, when a call is made from terminal B, which is one of terminals 10a to 10m, to terminal A, which is another terminal 10a to 10m, when terminal B makes a call to terminal A, The gateway B receives the call, and the gateway B searches the connection destination gateway A of the terminal A, which is the destination, from the database 5. At this time, as the information regarding the terminal A, at the same time, the terminal A Information requested to be displayed (sender information notification function ON information) is acquired. When the caller information notification function of the terminal A is on, the gateway B accesses the database 5 to obtain connection destination information and makes a caller information request.
[0173]
Next, the gateway B calls the gateway A that is the connection destination of the terminal A that is the partner, acquires caller information from the database 5, and transmits the acquired caller information to the gateway A.
[0174]
In response to a request from the gateway B, the gateway A calls the terminal A and transmits the caller information sent from the gateway B to the terminal A.
[0175]
In response to an incoming call from the gateway A, the terminal A notifies the incoming call, displays the caller information sent from the gateway on the display unit, and notifies the caller information by voice notification or the like.
To do.
[0176]
Further, in this caller information notification process, as shown in FIG. 18, when a call request is made to the terminal A, the gateway A searches for the caller information from the database 5 and transmits it to the terminal A. The caller information may be displayed on the display unit of the terminal A or notified by voice notification or the like.
[0177]
Further, as shown in FIG. 19, the gateway A receives information specifying the caller from the gateway B, searches for the caller information from the database 5, and displays the caller information on the display unit of the terminal A. The caller information may be notified by voice notification or the like.
[0178]
When terminal A receives an incoming call, if the user wants to know the other party's information, he / she does not make a call immediately, requests a notification by displaying the caller information, etc., and makes a call after confirming the caller. You may do it. In this case, as shown in FIG. 20, the terminal A that has received the call transmits a command for requesting caller information to the gateway A, and the gateway A accesses the database 5 to obtain the call obtained from the database 5. The caller information is returned to the terminal A by communication using Bluetooth, and the received caller information is displayed on the display unit of the terminal A, or the caller information is notified by voice notification or the like.
[0179]
In this case, when the terminal A receives an incoming call, the terminal A accesses the database 5 via the gateway A, detects and acquires the caller information, and displays the acquired caller information on the display of the terminal A. The caller information may be notified by display on the screen or by voice notification or the like.
[0180]
As described above, in the extension telephone system 1 of the present embodiment, when the terminals 10a to 10m receive an incoming call from the other terminals 10a to 10m, the identification information of the owner of the terminal 10a to 10m on the transmission side is received from the database 5. Is getting.
[0181]
Therefore, even if a call is received from a caller who is not recorded in the memory of the terminals 10a to 10m, information can be obtained from the database 5 so that the destination of the call can be identified, so that a smooth response can be made. In addition, it is possible to refuse to answer unnecessary telephones, and the extension telephone system 1 can be made cheaper and more highly usable.
[0182]
Next, in the extension telephone system 1 of the present embodiment, the information device 3n, which is a gateway connected to the Ethernet LAN 2, is used to make a call to the communication partner and to connect to the information device 3n as the gateway. A case where a telephone call is made between the terminals 10a to 10m using the terminals 10a to 10m being operated as slave units will be described with reference to FIG.
[0183]
Now, in the extension telephone system 1 of FIG. 1, the information device 3n having the gateway function is owned by another user 10a to 10m at the place where the user of the information device 3n is installed (for example, own seat). When making a call with a person, if an audio input device such as a microphone and an audio output device such as a headphone or a speaker are connected to the information device 3n, the information device 3n can be used as an IP telephone terminal.
[0184]
However, even if there is an information device 3n having such a function at the office's own seat, it is not always necessary to have a conversation with the information device 3n when the user is at his / her seat. Rather than connecting a microfin, headphones, etc. to the information device 3n or preparing a single Bluetooth headset for use in a person's own seat, the terminals 10a to 10m that can be carried in the person's seat, for example, the terminal 10c It is more convenient to use as a slave unit of the information device 3n.
[0185]
Therefore, the extension telephone system 1 of the present embodiment performs all voice input / output by the terminal 10c without providing any voice input / output device in the information device 3n.
[0186]
However, when making a call, the user of the information device 3n usually works toward the information device 3n, and the display screen of the information device 3n is larger than the display screen of the terminal 10c. It is more convenient to perform transmission or information retrieval using the device 3n than to perform transmission or information retrieval using the terminal 3c.
[0187]
Therefore, in the extension telephone system 1, the information device 3n is operated to directly make a call, and the terminal 10c is used as a slave for the call so that the terminal 10c can make a call.
[0188]
That is, as shown in FIG. 21, when the information device 3n (displayed as gateway function PC in FIG. 21) uses the terminal 10c (displayed as terminal A in FIG. 21) as a headset (that is, a slave), The transmission source is the information device 3n, and normal transmission is performed from the information device 3n. In other words, the information device 3n accesses the database 5, searches for the gateways 3a to 3n to which the partner terminal B is connected, for example, the gateway B, calls the partner destination gateway B, and sets the Bluetooth headset profile. Headset control is performed on the terminal 10c functioning as an audio gateway and functioning as a headset, and a state in which a voice call is possible (incoming call waiting state) is set. That is, the information terminal 2c functions as an audio gateway of the headset profile and an IP telephone terminal directly connected to a VoIP standard LAN.
[0189]
Then, when the gateway B that has received the call calls the terminal B and the terminal B receives an incoming call, the terminal A and the terminal B can communicate with each other.
[0190]
As described above, the extension telephone system 1 according to the present embodiment includes, as the gateways 3a to 3n, gateways 3a to 3n that have an information processing function of accessing the database 5 and searching the database 5, for example, the gateway 3n. When making a call, the database 5 is searched, and when an operator of the gateway 3n having the information processing function selects a desired communication partner from the search result, a call is made to the selected communication partner, and the gateway 3n The terminals 10a to 10m connected to the terminal, for example, the terminal 10c, are controlled to a response waiting state for the call, and when the caller terminals 10a to 10m respond, the communication with the terminal 10c in the waiting state is enabled. .
[0191]
Accordingly, the gateway 10n, which is an information processing apparatus such as a personal computer having a gateway function, is operated, the gateway 3n such as the personal computer is used as a parent device, and the terminal 10c owned by the person who operates the personal computer is a child. As a machine, it is possible to make a call with other terminals 10a to 10m and to operate using an information processing device such as a personal computer that is easier to operate than to operate the terminals 10a to 10m, and to use the terminals 10a to 10m. Thus, the extension telephone system 1 can be made inexpensive and more highly usable.
[0192]
Further, as described above, when the information device 3n is a parent device and the terminal 10c is a child device, in the extension telephone system 1, when there is an incoming call to the terminal 10c, caller information regarding the caller is displayed on the display screen of the information device 3n. Etc. can be displayed.
[0193]
That is, for example, as shown in FIG. 22, when there is a call from the terminal B, the gateway B calls the information device (gateway function PC) 3n which is the gateway 3a to 3n of the connection destination of the call destination and accesses the database 5 Then, the caller information is acquired from the database 5, and the acquired caller information is transmitted to the information device 3n.
[0194]
When there is a call from the gateway B, the information device 3n calls the terminal 10c (displayed as terminal A in FIG. 22) with Bluetooth, and displays the caller information received from the gateway B on the display screen of the information device 3n.
[0195]
When the user of the information device 3n and the owner of the terminal 10c confirms the caller information displayed on the information device 3n and receives the call at the terminal 10c, the terminal 10c (terminal A) and the terminal B A call can be made.
[0196]
Accordingly, the identification information of the caller can be displayed on the display screen of the gateway 10c, which is an information processing apparatus such as a personal computer having a display screen larger than the terminals 10a to 10m, and the extension telephone system 1 can be used more inexpensively. It can be made good.
[0197]
In this case, the information device 3n may function only as a gateway, and the caller information may be transmitted to the terminal 10c to be displayed on the display screen of the terminal 10c. When the information device 3n is used as a gateway and as an extension terminal without being used as a slave unit and an incoming call is received, the caller information is displayed on the information device 3n and the information device 3n receives the incoming call. Good.
[0198]
Further, in the extension telephone system 1, when the terminals 10a to 10m are terminals that can also be used as general PHS terminals or mobile phones like the terminal 10m of FIG. 1, the PHS or mobile phone is used as the network identifier of the database 5. Can be used as the terminals 10 a to 10 m of the extension telephone system 1. In this case, the extension telephone system 1 communicates so that the outside line is automatically sent to the PHS or the mobile phone even when a call is made to a party outside the communicable area of the extension telephone system 1. Set the route and enable the call.
[0199]
That is, as shown in FIG. 23, when a call is made from terminal A, which is a terminal 10a to 10m other than the terminal 10m set as an external terminal, to terminal B, which is a terminal 10m for which external line transfer setting is performed. The gateway A accesses the database 5 and acquires transfer setting information, that is, the PHS or mobile phone number, and connects to the external line gateway 4 that transmits to the external line. The external gateway 4 dials the number received from the gateway A, and the connection to the radio base station 23 in the vicinity of the terminal B is established. When the base station 23 calls the terminal B, the terminal B receives the incoming call, and the terminal A can communicate with the terminal B.
[0200]
Thus, in the extension telephone system 1 of the present embodiment, the Ethernet LAN 2 is connected to the external line gateway 4 connected to the general subscriber telephone line 20, and at least one of the terminals 10a to 10m, for example, the terminal 10m functions as an external wireless mobile terminal such as a mobile phone terminal or a PHS terminal capable of making a call via the general subscriber telephone line 20, and the external line telephone number of the terminal 10m having the function as the external wireless mobile terminal is stored in the database 5 When the terminal 10m is connected to the general subscriber telephone line 20 at the time of making a call to the terminal 10m, it is transferred to the external telephone number registered in the database 5.
[0201]
Therefore, it can be transferred to the outside telephone number, and the extension telephone system 1 can be made inexpensive and more highly usable.
[0202]
The transfer setting to the database 5 may be performed manually by the owner, or automatically when the destination terminals 10a to 10m are not connected to any gateway 3a to 3n of the extension telephone system 1. If the terminal 10a to 10m does not respond to a call more than a certain number of times, the transfer may be performed. You may set it to do.
[0203]
Also, as the transfer of incoming calls, other terminals 10a to 10m can be set as transfer destinations. At this time, the transfer is not set to the terminals 10a to 10m like a normal extension telephone but is transferred to the database 5. Set the contents. By setting the transfer contents in the database 5 in this way, the time required for controlling the call path by transfer can be shortened.
[0204]
The extension telephone system 1 has an answering machine service function, and executes an answering machine service.
[0205]
That is, as shown in FIG. 1, the answering server 6 is connected to the Ethernet LAN 2 of the extension telephone system 1, and the owner of the terminals 10a to 10m is outside the callable area of the extension telephone system 1. When there is no intention to answer a call, the function of changing the setting of the database 5 is provided so that the answering machine service is executed. In addition, the answering machine setting in the database 5 is such that when the owner of the terminals 10a to 10m has turned off the power of the terminals 10a to 10m or communication is impossible, the information on the current connection gateways 3a to 3n is stored in the database 5. If there is no answering machine, it is automatically set to automatically execute the answering machine service. After that, when the terminals 10a to 10m connect to any of the gateways 3a to 3n, the setting of the answering machine service is automatically stopped. An automatic setting function is set in the database 5. Furthermore, the answering machine setting in the database 5 also has a function of automatically setting to use the answering machine service when the terminals 10a to 10m do not answer the call for a certain time or longer.
[0206]
Then, as shown in FIG. 24, the extension telephone system 1 performs an answering machine service. That is, when a terminal 10a to 10m or an outside line terminal (hereinafter referred to as terminal A) makes a call with a terminal 10a to 10m that is currently set to use an answering service, terminal A makes a call. When done, the gateway A is connected, and the gateway A accesses the database 5 in order to obtain a network address. At this time, since the answering service is set for the destination terminals 10a to 10m in the database 5, the gateway A uses the answering machine service for the destination terminals 10a to 10m from the database 5. Acquire information to the effect.
[0207]
The gateway A connects to the answering machine 6 and connects the terminal A to the answering server 6. Therefore, the terminal A is in a state where the message can be recorded in the answering machine 6.
[0208]
The answering machine 6 records the recording message uttered from the terminal A, and when the recording message blowing and recording are completed, the answering service is terminated.
[0209]
Furthermore, the answering machine 6 has a function of transmitting an e-mail, and the database 5 has a function of registering the e-mail address of the owner of the terminals 10a to 10m as one of the owner information. Yes.
[0210]
Then, when the answering machine 6 performs the answering record, as shown in FIG. 24, it sends an e-mail to the effect that there is an answering message at the destination of the answering record. That is, when the answering machine message is recorded in the answering machine service, the answering machine server 6 accesses the database 5 and is the owner of the terminals 10a to 10m using the answering service. The other party's e-mail address is searched and acquired, and an e-mail is transmitted to the acquired e-mail address to notify that an answering machine message is contained. At this time, the message from whom the message is sent may be retrieved from the database 5 and reported on the e-mail. In particular, it is preferable to write the name of the voice mail recorder in the subject of the e-mail.
[0211]
This e-mail may be received by the terminals 10a to 10m, or other communication means, for example, a PHS, a mobile phone used for private use, a telephone of a general subscriber line such as a public telephone, a personal computer or a PDA You may receive with mobile information terminals, such as.
[0212]
The owner of the terminals 10a to 10m that has received the e-mail can access the answering machine 6 and immediately hear the recorded message.
[0213]
Further, when sending the e-mail, the answering machine 6 may send the recorded answering message attached to the e-mail itself.
[0214]
In this case, the answering machine 6 may perform signal processing to compress and transmit the recorded voice message (answering message), or when the recorded voice message passes over the Ethernet LAN 2, Since the compression processing has been performed, when recording, the voice IP packet may be assembled as it is, stored as digital data while being compressed, and the compressed recording message may be transmitted.
[0215]
Thus, in the extension telephone system 1 of the present embodiment, the answering machine service server 6 that performs the answering machine service is connected to the Ethernet LAN 2, and the answering machine service is provided to the database 5 for each of the terminals 10a to 10m. When there is a call request to the terminals 10a to 10m registered to use the answering service, the gateway 3a to 3n connects the call request to the answering service server 6. The answering machine service server 6 records the answering machine message addressed to the terminal of the call requesting party so that the terminals 10a to 10m can obtain the answering machine message addressed to itself from the answering machine service server 6. Yes.
[0216]
Therefore, an answering machine message can be recorded when an incoming call to the terminals 10a to 10m cannot be received, such as when absent, so that the extension telephone system 1 can be made cheaper and more highly usable. it can.
[0217]
Further, the extension telephone system 1 of the present embodiment registers the e-mail address designated by the owner of the terminals 10a to 10m in the database 5 by specifying the owner, and the answering machine service server 6 receives the answering machine. When the message is recorded, the e-mail address of the owner of the terminal 10a-10m that is the destination of the answering machine message is obtained from the database 5, and an e-mail is sent to the effect that at least the answering machine message is recorded to the e-mail address. And, according to the designation of the owner, the recorded answering machine message is attached to the e-mail and transmitted.
[0218]
Therefore, the owner of the terminals 10a to 10m can know that there is an answering machine message, and the answering machine message can be received directly by e-mail, so that the extension telephone system 1 is inexpensive. Therefore, it is possible to further improve the availability.
[0219]
The extension telephone system 1 has a proxy response function, and this proxy response is performed by the terminals 10a to 10m set as proxy responses instead of the gateways 3a to 3n.
[0220]
In this case, a gateway that performs a proxy response can be realized by using a gateway that itself has a call function, such as the gateway 3b in FIG. 1, but the gateway itself does not have a call function. Even in such a case, it can be realized even if it has a function of notifying an incoming call by a voice function such as an electronic sound. The automatic response mode can be set manually by the owner of the terminals 10a to 10m, but is not limited to manual setting. For example, the owner of the terminals 10a to 10m answers the call. It may be set to automatically enter the proxy response mode when it is impossible or when a certain number of calls are not answered.
[0221]
That is, as shown in FIG. 25, when the owner of a certain terminal 10a to 10m is set to make a proxy incoming call to the gateway B with respect to the database 5 in order to leave, the other terminal 10a to 10m When a certain terminal A makes a call to a terminal for which the proxy incoming request setting has been performed and the gateway A receives the outgoing call from the terminal A, the gateway A accesses the database 5 and performs the proxy incoming request setting. The gateway B set as the proxy incoming call of the terminal is searched, and the incoming call is made to the gateway B, and a ringing tone sounds.
[0222]
On the other hand, the terminal B connected to the gateway B has a function of responding instead, like a normal extension telephone. When there is an incoming call to the gateway B, the terminal B makes a proxy response. As a result, the communication path is changed from the gateway B to the terminal B, and a call between the terminal A and the terminal B becomes possible.
[0223]
The proxy response is a gateway voice system in which voice IP packetization is performed by the gateways 3a to 3n. When a cordless telephony profile is used, a normal extension telephone proxy response mechanism can be used as it is. In addition, when connecting to a gateway by LAN access in a terminal voice conversion method in which voice IP packetization is performed by the terminals 10a to 10m, only a command requesting a proxy response is transmitted from an application program based on the cordless telephony profile. Alternatively, it can be realized by transmitting a command by an IP packet.
[0224]
As described above, the extension telephone system 1 according to the present embodiment can set the terminals 10a to 10m to a proxy response possible state in which the terminals 10a to 10m receive incoming calls from the specific gateways 3a to 3n instead. When the terminals 10a to 10m that have received incoming calls are set in the proxy response request state, when the incoming call cannot be received or when the incoming call is rejected, the destination is specified as a specific gateway 3a to The specific gateways 3a to 3n that have received the incoming call are connected to the terminals 10a to 10m that are set in the proxy response ready state, and the terminals 10a to 10m in the proxy response ready state are connected. Receives the incoming call on behalf and makes a call.
[0225]
Therefore, instead of the terminals 10a to 10m that cannot receive incoming calls, the proxy response can be made by the other terminals 10a to 10m, and the extension telephone system 1 can be made inexpensive and more highly usable. .
[0226]
The extension telephone system 1 has various functions as described above, but the terminals 10a to 10m can be turned off by turning off the ring tone as in the manner mode of a general mobile phone. A function of notifying an incoming call using mechanical vibration may be provided. In particular, when connected to specific gateways 3a to 3n, the manner mode is automatically deactivated.
[0227]
For example, when connected to the gateways 3a to 3n in the conference room during the conference, the owner of the terminals 10a to 10m is set to notify the incoming call by mechanical vibration by setting the terminals 10a to 10m to the manner mode. However, if you return to a place where you do not need to use manner mode, such as your own seat in the office, when you connect to your own gateway 3a-3n, By setting the terminals 10a to 10m so as to automatically cancel, it is possible to prevent a situation in which the user forgets to cancel the manner mode and does not notice the call.
[0228]
Therefore, the extension telephone system 1 registers the identification information of the gateways 3a to 3n that do not use the manner mode in the storage units of the terminals 10a to 10m, and the terminals 10a to 10m have the gateways 3a to 3n registered in the storage unit. When connected to, a command to automatically cancel the manner mode is generated, and the manner mode is automatically canceled.
[0229]
Further, the gateways 3a to 3n may search for whether or not the terminals 10a to 10m are in the manner mode by Bluetooth. That is, when the gateways 3a to 3n connect to the terminals 10a to 10m, the database 5 is accessed, and the manner mode is prohibited when the setting information related to the terminals 10a to 10m connects to the gateways 3a to 3n itself. Search for whether the setting is enabled, and detect manner mode. Further, if the manner mode is defined as one of the searchable service attributes by the service discovery, the gateways 3a to 3n can search whether or not the terminals 10a to 10m are using the manner mode. Further, the manner mode may be searched and canceled by an application for connecting the terminals 10a to 10m and the gateways 3a to 3n.
[0230]
In addition, when connected to the gateways 3a to 3n which are set not to use the manner mode, the terminals 10a to 10m are released from the manner mode by a method such as electronic sound, mechanical vibration, light emission / flashing, This can be realized by providing a function of notifying the owner of the terminals 10a to 10m.
[0231]
Furthermore, an information device 3n with a gateway function that can be used as an IP telephone terminal as a gateway is installed at the office seat, and this information device 3n with a gateway function functions as an audio gateway in the headset profile. And when terminal 10a-10m is provided with the headset profile, the case where it uses as a headset is more convenient. In this case, when connected to specific gateways 3a to 3n, by setting to use as a headset, it is possible to automatically function as a headset.
[0232]
Further, when the terminals 10a to 10m are connected to an information device with a gateway function that has a headset profile and can also be used as an IP telephone terminal, the terminal 10a to 10m may be set to automatically connect using the headset profile. .
[0233]
As described above, the extension telephone system 1 according to the present embodiment has a manner mode in which the terminals 10a to 10m are turned off and the incoming call is notified by mechanical vibration or the like, and the manner mode is set. Thus, when connecting to the specific gateways 3a to 3n, the manner mode is automatically canceled at least while the gateways 3a to 3n are connected.
[0234]
Therefore, even if the manner mode is set in a place where the ringtone cannot be heard, forgetting to cancel the manner mode in a place where it is not necessary to use the manner mode such as an office seat. The extension telephone system 1 can be made cheaper and more highly usable by being able to cancel automatically and appropriately responding to incoming calls.
[0235]
Further, the extension telephone system 1 has a function in which the terminals 10a to 10m automatically search for the gateways 3a to 3n. This gateway automatic search function will be described with reference to FIG.
[0236]
As shown in FIG. 26, the terminals 10a to 10m first check whether or not they are connected to the gateways 3a to 3n (step S101), and maintain the connection state with the gateways 3a to 3n when they are connected (step S101). S112).
[0237]
When the timer is reset when the gateways 3a to 3n are not connected in step S101 (step S103), the terminals 10a to 10m first use the inquiry, which is a basic function of Bluetooth, to use the neighboring Bluetooth. A device search is performed (step S103). In this case, the gateways 3a to 3n are set to send limited limited responses, while the terminals 10a to 10m specify a device class so that only devices of the class used by the gateways 3a to 3n respond. The system setting for performing limited inquiry may be performed. Therefore, the time required for searching for the gateways 3a to 3n is responded to the inquiry performed by the terminals 10a to 10m because devices that are clearly different from the gateways 3a to 3n such as mobile phones and facsimile machines respond. It is possible to prevent an unnecessary increase, and the gateways 3a to 3n do not need to respond to the inquiry of other Bluetooth devices, thereby improving the efficiency of communication with the original terminals 10a to 10m. it can.
[0238]
In this automatic gateway search, the gateway search operation is periodically repeated using a timer, and even if the repeat time is too frequent, traffic on the Ethernet LAN 2 is unnecessarily increased. Set to run every 5 minutes.
[0239]
Then, when searching for a device, the terminals 10a to 10m check whether a new device has been found (step S104). In the determination as to whether or not this new device has been found, in the repeated search operation, the Bluetooth device address of the device that has been determined not to be the gateway 3a to 3n or the gateway 3a to 3n that has been refused connection is recorded. Based on this, it is determined whether a new device has been discovered.
[0240]
If no new device is found in step S104, the terminals 10a to 10m wait until the timer is completed in order to omit the operation of searching for the same device as a gateway many times (step S105). ) When the timer expires, the process returns to step S102 and the same processing as described above is performed (steps S102 to S104).
[0241]
When a new Bluetooth device is found in step S104, the terminals 10a to 10m perform a gateway service search (step S106) and check whether a gateway is found (step S107). In this gateway service search, a service search is performed for the newly discovered new device using the Bluetooth service discovery protocol (SDP). For example, in the case of the gateway voice system terminals 10a to 10m that perform voice packetization at the gateways 3a to 3n, a device that can provide a service that conforms to the cordless telephony profile, and voice packetization. In the case of a terminal voice system device performed by the terminals 10a to 10m, a LAN access profile using PPP or a device capable of providing a service compliant with WAP is searched. Whether the profile functions as the gateways 3a to 3n of the extension telephone system 1 is registered with the gateway so that it can be determined by the attributes such as the service name and WAP gateway (UUID = 0x0307), and the terminal 10a. -10 m can be identified as a gateway having the function of the extension telephone system 1 from the service attribute. By setting the extension telephone system 1 in this way, the terminals 10a to 10m can screen the gateways 3a to 3n by the discovered Bluetooth devices using the SDP.
[0242]
If the gateway cannot be found in step S107, the terminals 10a to 10m record that the Bluetooth device discovered in step S104 is not a gateway, wait until the timer is completed (step S105), and the timer is completed. Then, it returns to step S102 and processes in the same manner as above (steps S102 to S107).
[0243]
When the gateways 3a to 3n are found in step S107, the terminals 10a to 10m notify the owner of the terminals 10a to 10m that they have been found (step S108). This notification of gateway discovery is, for example, a method of generating a ring tone different from a normal incoming call, a method of generating mechanical vibration, a method of displaying a message to that effect on the display unit of the terminals 10a to 10m, or a terminal This is performed by a method of blinking the light emitting elements attached to 10a to 10m.
[0244]
Next, the terminals 10a to 10m make an inquiry to the owner of the terminals 10a to 10m as to whether or not the connection with the discovered gateways 3a to 3n is desired (step S109). If not, the discovered gateway is registered as a discovered gateway, waits until the timer is completed (step S105), and when the timer is completed, the process returns to step S102 and is processed in the same manner as above (steps S102 to S109).
[0245]
In step S109, if the owner of the terminals 10a to 10m wishes to connect, the terminals 10a to 10m make a connection request to the discovered gateways 3a to 3n (step S110) to check whether the connection is permitted. (Step S111).
[0246]
In communication according to the Bluetooth standard, it can be set to require authentication at the time of connection. In this case, authentication called pairing is performed at the time of connection. If the devices are already authenticated, the link key necessary for establishing the link is stored, so that the connection is permitted. On the other hand, in the case of an unauthenticated device, pairing is newly required. At this time, a character string of up to 16 characters called a PIN code is used as an encryption key. If the PIN codes do not match, authentication fails and the connection is rejected. For the authentication at the time of pairing, authentication using a unique encryption instead of the PIN code may be used, or authentication may be performed by combining both the PIN code and the unique encryption.
[0247]
When the connection is rejected in step S111, the terminals 10a to 10m store the newly discovered gateway as a device whose connection is rejected, wait until the timer is completed (step S105), and the timer is completed. Then, it returns to step S102 and processes in the same manner as above (steps S102 to S111).
[0248]
If the connection is permitted in step S111, the terminals 10a to 10m are connected to the newly-discovered gateway, finish the operation mode in which periodic search is performed, and become ready for a call. (Step S112).
[0249]
In the periodic gateway automatic search process, as described above, part or all of the stored information about the Bluetooth device is deleted so that the same device is not searched many times. May be.
[0250]
As described above, the extension telephone system 1 according to the present embodiment uses the Bluetooth inquiry function and the service discovery function when the terminals 10a to 10m are not connected to any gateway 3a to 3n. Then, when the gateways 3a to 3n are periodically searched and the gateways 3a to 3n are found, it is notified that the gateways 3a to 3n are found by a notification method such as sound, mechanical vibration, light or display, An inquiry about whether to connect to the gateways 3a to 3n is displayed.
[0251]
Therefore, it is possible to automatically search for the nearest gateways 3a to 3n, and to connect as necessary, thereby making the extension telephone system 1 inexpensive and more highly usable. it can.
[0252]
The extension telephone system 1 has a function in which the terminals 10a to 10m automatically search for and connect to the gateways 3a to 3n. This gateway automatic search connection function will be described with reference to FIG.
[0253]
As shown in FIG. 27, the terminals 10a to 10m first check whether they are connected to the gateways 3a to 3n (step S201), and maintain the connection state with the gateways 3a to 3n when they are connected (step S201). S212).
[0254]
In step S201, when the timers are reset when not connected to the gateways 3a to 3n (step S203), the terminals 10a to 10m use the inquiry, which is a basic function of Bluetooth, as described above. A certain Bluetooth device is searched (step S203). Also in this gateway automatic connection, the gateway search operation is periodically repeated using a timer, and the repetition time unnecessarily increases the traffic of the Ethernet LAN 2 even if it is performed too frequently. Set to run every minute.
[0255]
Then, when searching for a device, the terminals 10a to 10m check whether a new device has been found (step S204). In the determination as to whether or not this new device has been found, in the repeated search operation, the Bluetooth device address of the device that has been determined not to be the gateway 3a to 3n or the gateway 3a to 3n that has been refused connection is recorded. Based on this, it is determined whether a new device has been discovered.
[0256]
If no new device is found in step S204, the terminals 10a to 10m wait until the timer is completed in order to omit the operation of searching for the same device as a gateway many times (step S205). ) When the timer expires, the process returns to step S202 and the same processing as described above is performed (steps S202 to S204).
[0257]
When a new Bluetooth device (device) is found in step S204, the terminals 10a to 10m perform a gateway service search (step S206) and check whether a gateway is found (step S207).
[0258]
If the gateway is not found in step S207, the terminals 10a to 10m record that the Bluetooth device discovered in step S204 is not a gateway, wait until the timer is completed (step S205), and the timer is completed. Then, it returns to step S202 and processes in the same manner as described above (steps S202 to S207).
[0259]
When the gateway is found in step S207, the terminals 10a to 10m increment the counter that counts the number of times the gateway is found by “1” (step S208), and the count value of the counter is set in advance. In other words, it is checked whether the gateway has been found the number of times of a predetermined value set in advance (step S209). That is, each of the terminals 10a to 10m has a function of storing a device discovered as a gateway and a function of storing the number of times the gateway has been discovered using a counter that counts the number of times the gateway has been discovered. ing.
[0260]
In step S209, when the count value of the counter does not reach the specified value, the terminals 10a to 10m wait until the timer is completed (step S205), and when the timer is completed, the process returns to step S202 to perform the same processing as above. (Steps S202 to S207). In this process, for the device once recorded as a gateway, the service is not detected again, and if it is discovered again at the inquiry stage, it is determined that the gateway is still within the communicable range, The count value of the counter is incremented by “1”.
[0261]
When the count value of the counter reaches a specified value in step S209, the terminals 10a to 10m automatically request connection to the gateway whose count value has reached the specified value in accordance with the Bluetooth standard (step S210). It is checked whether the connection is permitted (step S211).
[0262]
When the connection is refused in step S211, the terminals 10a to 10m are refused the connection so that the newly discovered gateway does not perform a service search again for the device. The device is stored and waits until the timer is completed (step S205). When the timer is completed, the process returns to step S202 and the same processing as described above is performed (steps S202 to S211).
[0263]
If the connection is permitted in step S211, the terminals 10a to 10m are connected to the newly-discovered gateway, finish the operation mode in which periodic search is performed, and are ready to talk. (Step S212).
[0264]
As described above, the extension telephone system 1 according to the present embodiment uses the Bluetooth inquiry function and the service discovery function when the terminals 10a to 10m are not connected to any gateway 3a to 3n. When the gateways 3a to 3n are periodically searched and the same gateways 3a to 3n are continuously found for a certain period of time by the periodic gateways 3a to 3n search, the gateways 3a to 3n are automatically connected. ing.
[0265]
Therefore, it is possible to automatically connect to the gateways 3a to 3n to receive the incoming call, and the extension telephone system 1 can be made inexpensive and more highly usable.
[0266]
If a plurality of gateways 3a to 3n are found in the gateway automatic search in FIG. 26 and the gateway automatic connection process in FIG. 27, it is determined that the one with stronger radio wave reception strength from the gateways 3a to 3n is closer. The terminals 10a to 10m may connect to the gateways 3a to 3n. In this case, the comparison of the radio wave intensity is performed by obtaining the radio wave intensity level from the Bluetooth link manager (LM) using the host controller interface, and the terminals 10a to 10m are connected to the one having the higher radio wave intensity.
[0267]
In addition, the end owner may perform the search and connection manually by executing the gateway automatic search in FIG. 26 and the gateway automatic connection process in FIG. 27 using the terminals 10a to 10m.
[0268]
In this way, when the plurality of gateways 3a to 3n are within a communicable range, it is possible to determine that the one with stronger radio wave reception strength is nearby and select it as a connection destination, and the extension telephone system 1 is inexpensive. Therefore, it is possible to further improve the availability.
[0269]
Further, the extension telephone system 1 has a function in which the gateways 3a to 3n automatically search for the terminals 10a to 10m. This terminal automatic search function will be described with reference to FIG.
[0270]
As shown in FIG. 28, when the timer is reset (step S301), the gateways 3a to 3n first search for nearby Bluetooth devices using the inquiry, which is a basic function of Bluetooth. Is performed (step S302). In this automatic terminal search, the terminal search operation is periodically repeated using a timer, and even if the repetition time is too frequent, traffic on the Ethernet LAN 2 is unnecessarily increased. Set to run every minute.
[0271]
When the gateways 3a to 3n search for a device, the gateways 3a to 3n check whether a new device has been found (step S303). In the determination of whether or not this new device has been found, in the repeated search operation, the Bluetooth device address of the device that has been determined not to be a terminal or the terminal that has been refused connection is recorded, and the new device is identified based on this record. Judge whether or not it was found.
[0272]
If a new device is not found in step S303, the process waits until the timer is completed (step S304) in order to omit the operation of searching for the same device repeatedly as to whether it is a gateway (step S304). Returning to step S301, the same processing as described above is performed (steps S301 to S303).
[0273]
When a new Bluetooth device is found in step S303, the gateways 3a to 3n perform a client service search (step S305) and check whether the client terminals 10a to 10m are found (step S306). In this client service search, a device having a service identifier of the client service is searched.
[0274]
If the client terminals 10a to 10m cannot be found in step S306, the gateways 3a to 3n record that the Bluetooth device found in step S303 is not the client terminal 10a to 10m, and wait until the timer is completed. (Step S304) When the timer is completed, the process returns to Step S301 to perform the same processing as above (Steps S301 to S306).
[0275]
When the client terminals 10a to 10m are found in step S306, the gateways 3a to 3n notify the owner of the client terminals 10a to 10m of the discovery (step S307), and check whether connection is desired (step S308). ). The notification of the discovery of the client terminals 10a to 10m is performed, for example, by the gateways 3a to 3n issuing an instruction to make an incoming call to the discovered client terminals 10a to 10m, and the terminals 10a to 10m having received the instruction In response to the command, a method of notifying the owner of the terminals 10a to 10m by generating a ring tone or the like, or the discovered client terminals 10a to 10m are connected to the gateways 3a to 3n from the gateways 3a to 3n. When an event in which a service search with the content related to the service identifier indicating the client terminal is performed is detected, a method of notifying the owner by generating a ring tone or the like can be used.
[0276]
Next, the client terminals 10a to 10m that have received the notification operate the terminals 10a to 10m to respond whether or not the owner of the terminals 10a to 10m permits the connection, and responds according to the operation. In this case, if the terminals 10a to 10m are set to automatically permit all connections, the terminals 10a to 10m respond according to the setting.
[0277]
When the owner does not wish to connect in step S308, the gateways 3a to 3n register the discovered terminals 10a to 10m as the discovered terminals 10a to 10m, wait until the timer is completed (step S304), When completed, the process returns to step S301 and the same processing as described above is performed (steps S301 to S308).
[0278]
In step S308, if the owner of the terminals 10a to 10m desires connection, the terminals 10a to 10m request connection to the gateways 3a to 3n (step S309), and if the connection is permitted (step S310), a call is made. A possible state is reached (step S311).
[0279]
In addition, the gateways 3a to 3n connect to the terminals 10a to 10m that are originally not permitted in response to the connection request only by notifying the owner of the terminals 10a to 10m of the discovery in step S307. You may not be asked if you want. Whether or not the terminals 10a to 10m are terminals 10a to 10m that do not permit connection is determined by, for example, registering a list of Bluetooth device addresses that permit connection or connecting to the database 5 and permitting connection to the database 5 It is checked whether or not the connection is permitted from the list of Bluetooth device addresses to be determined, and it is determined whether or not the discovered terminals 10a to 10m are the terminals 10a to 10m that do not permit the connection.
[0280]
Further, when it is determined that the terminals 10a to 10m that do not permit connection are performed before the client service search, the client service may not be detected.
[0281]
When the terminals 10a to 10m are terminals 10a to 10m that do not permit connection, the connection is not permitted in step S310, and the gateways 3a to 3n wait until the timer is completed (step S304). Returning to step S301, the same processing as described above is performed (steps S301 to S306).
[0282]
As described above, in the extension telephone system 1 of the present embodiment, the gateways 3a to 3n periodically search for the terminals 10a to 10m using the Bluetooth inquiry function and the service discovery function, and the terminal 10a 10m to 10m is notified to the terminals 10a to 10m that the gateways 3a to 3n have been discovered by a notification method for causing the discovered terminals 10a to 10m to perform sound, mechanical vibration, light, display, or the like. The terminal 10a-10m is made to display the inquiry of whether to connect with 3a-3n.
[0283]
Therefore, it is possible to automatically search for nearby terminals 10a to 10m, and to connect as necessary, and to make the extension telephone system 1 inexpensive and more highly usable. Can do.
[0284]
Further, the extension telephone system 1 has a function in which the gateways 3a to 3n automatically search for the terminals 10a to 10m and connect automatically. This terminal automatic search connection function will be described with reference to FIG.
[0285]
As shown in FIG. 29, when the timer is reset (step S401), the gateways 3a to 3n first search for nearby Bluetooth devices using the inquiry, which is a basic function of Bluetooth. Is performed (step S402). In this automatic terminal search, the terminal search operation is periodically repeated using a timer, and even if the repetition time is too frequent, traffic on the Ethernet LAN 2 is unnecessarily increased. Set to run every minute.
[0286]
When the gateways 3a to 3n search for a device, the gateways 3a to 3n check whether a new device has been found (step S403). In the determination of whether or not this new device has been found, in the repeated search operation, the Bluetooth device address of the device that has been determined not to be a terminal or the terminal that has been refused connection is recorded, and the new device is identified based on this record. Judge whether or not it was found.
[0287]
When no new device is found in step S403, the gateways 3a to 3n wait until the timer is completed (step S404) in order to omit the operation of searching for the same device many times as to whether it is a gateway. ) When the timer expires, the process returns to step S401 to perform the same processing as above (steps S401 to S403).
[0288]
If a new Bluetooth device is found in step S403, the gateways 3a to 3n perform a client service search by searching for a device having the service identifier of the client service (step S405), and the client terminals 10a to 10m are detected. It is checked whether it has been found (step S406).
[0289]
If the client terminals 10a to 10m cannot be found in step S406, the gateways 3a to 3n record that the Bluetooth device found in step S303 is not the client terminal 10a to 10m, and wait until the timer is completed. (Step S404) When the timer is completed, the process returns to Step S401, and the same processing as described above is performed (Steps S401 to S406).
[0290]
When the client terminals 10a to 10m are found in step S406, the gateways 3a to 3n increment the counter that counts the number of times the gateway terminals 3a to 3n have found the client terminals 10a to 10m by “1” (step S407). ), It is checked whether the count value of the counter has reached a preset specified value, that is, whether the client terminals 10a to 10m have been found by the number of preset preset values (step S408). That is, the gateways 3a to 3n discover the terminals 10a to 10m by using the function of storing the devices discovered as the client terminals 10a to 10m and the counter that counts the number of times the client terminals 10a to 10m are discovered. It has a function to memorize what is done.
[0291]
When the count value of the counter does not reach the specified value in step S408, the gateways 3a to 3n wait until the timer is completed (step S404), and when the timer is completed, the process returns to step S401 and performs the same processing as above. (Steps S401 to S408). In this process, for the devices once recorded as the client terminals 10a to 10m, the service is not detected again and the client terminals 10a to 10m still communicate with each other when they are discovered again at the inquiry stage. It is determined that it is within the possible range, and the count value of the counter is incremented by “1”.
[0292]
When the count value of the counter reaches a specified value in step S408, the gateways 3a to 3n automatically request connection according to the Bluetooth standard to the client terminal whose count value has reached the specified value (step S408). S409), it is checked whether the connection is permitted (step S410).
[0293]
When the connection is refused in step S410, the gateways 3a to 3n are refused the connection in order to prevent the newly discovered client terminal from performing a service search again for the device. As a device, the system waits until the timer is completed (step S404). When the timer is completed, the process returns to step S401 and the same processing as described above (steps S401 to S404).
[0294]
If the connection is permitted in step S410, the connection between the gateways 3a to 3n and the newly discovered client terminals 10a to 10m is established, the operation mode for performing periodic search is terminated, and a call can be made. A state is entered (step S411).
[0295]
As described above, in the extension telephone system 1 according to the present embodiment, the gateways 3a to 3n periodically search for the terminals 10a to 10m using the Bluetooth inquiry function and the service discovery function. If the same terminals 10a to 10m are continuously found for a certain time or longer by searching for the terminals 10a to 10m, the terminals 10a to 10m are automatically connected.
[0296]
Accordingly, the gateways 3a to 3n can automatically connect to the terminals 10a to 10m that are within a communicable area for a certain time or more, and the extension telephone system 1 is inexpensive and more highly usable. It can be.
[0297]
In the above description, the case where a voice call is performed has been mainly described, but the present invention can be similarly applied to a case where digital data communication is performed between the terminals 10a to 10m. For example, the terminals 10a to 10m that perform voice IP packetization on the terminals 10a to 10m can chat on the Ethernet LAN 2 using chat software that operates on TCP / IP.
[0298]
The invention made by the present inventor has been specifically described based on the preferred embodiments. However, the present invention is not limited to the above, and various modifications can be made without departing from the scope of the invention. Needless to say.
[0299]
【The invention's effect】
The extension telephone system of the present invention has the following effects.
(1) When a plurality of gateways connected to an Ethernet LAN and communicate with each other via the Ethernet LAN and a plurality of terminals perform voice communication according to the Bluetooth standard, the gateway can perform voice communication according to the Bluetooth standard. And IP packets communicable on the Ethernet LAN are mutually converted to perform voice data communication on the Ethernet LAN, and the terminal is connected to the nearest gateway among the plurality of gateways and other terminals via the Ethernet LAN. The other terminal receives the call request via the gateway nearest to the other terminal, and the terminals communicate with each other via the gateway and the Ethernet LAN. Without using a dedicated telephone line. An Ethernet LAN line between a gateway connected to an Ethernet LAN having a function of converting voice and IP packets and two terminals performing Bluetooth voice data communication without carrying two mobile phone terminals as in the prior art Can be used to reduce the cost of drawing a dedicated telephone line and improve the usability.
[0300]
(2) When a plurality of gateways connected to an Ethernet LAN and communicate with each other via the Ethernet LAN and a plurality of terminals perform voice communication according to the Bluetooth standard, the terminals transmit voice data on the Ethernet LAN. The terminal and the gateway have a function of generating an IP packet by incorporating it in a data part of a communicable IP packet, and a function of extracting voice data from the data part of the IP packet. And a function for generating a Bluetooth standard packet, a function for decomposing a Bluetooth standard packet to extract an IP packet, and a function for performing Bluetooth communication for transmitting and receiving the Bluetooth standard packet. The hay has a function of transmitting an IP packet extracted by disassembling the Bluetooth standard packet to the Ethernet LAN, and a function of receiving an IP packet from the Ethernet LAN. A call request to another terminal via the gateway and the Ethernet LAN, the other terminal receives the call request via the gateway nearest to the other terminal, and the terminals communicate with each other. Since voice communication is performed via the gateway and the Ethernet LAN, voice and IP packets are converted without drawing a dedicated telephone line and carrying two mobile phone terminals as in the past. At the terminal, a gateway connected to the Ethernet LAN and a LAN access protocol using PPP File or by connecting the PAN profile, can communicate voice data over the Ethernet LAN, it is possible to reduce the cost of catching a dedicated phone line, thereby improving the usability.
[0301]
(3) An external line gateway connected to a general subscriber telephone line is connected to the Ethernet LAN, and the external line gateway transmits voice data by IP packets on the Ethernet LAN and voice communication of the general subscriber telephone line. A general subscriber telephone having a function of converting and a function of converting an incoming signal and an outgoing signal, calling a terminal by an external line number from a general subscriber telephone line, and calling an external line from a terminal to a general subscriber telephone line. Since voice communication between a telephone terminal and a terminal that can communicate with each other via a line is possible, a telephone call between terminals using an Ethernet LAN line and a connection between a telephone on a general subscriber telephone line and the terminal can be made. Incoming telephone calls and calls can be made, and the extension telephone system can be made cheaper and more usable.
[0302]
(4) The database for managing the location information and identification information of the terminal is connected to the Ethernet LAN, and the gateway acquires the identification information of the terminal that is connected to itself and can receive incoming calls. At least the identification information on the Ethernet LAN of the gateway, the identification information of the terminal connected to the gateway, and the information identifying the owner of the terminal are managed as a set, and an external gateway is connected to the Ethernet LAN In this case, the telephone number of the general telephone line connected to the gateway for the external line and the identification information of the owner of the telephone number are registered and managed, and the terminal connected to the gateway itself If there is a change in the information regarding, the database will be notified of the change, and the database will Therefore, the gateway changes the registration information about the terminal that has been notified, and the gateway refers to the database to search for a gateway to connect to and controls communication. The communication path on the Ethernet LAN between the gateways can be easily established, the terminals can be quickly called, and the extension telephone system can be made inexpensively. Therefore, it is possible to further improve the availability.
[0303]
(5) The terminal uses the intermediary function of data communication between the terminal possessed by the gateway and the database, or uses the LAN / access function possessed by the terminal to enter the database via the gateway. Access, search for the other party from the database, and send to the other party specified in the search result. If you do not know the information such as the phone number of the other party you want to call, Based on fragmentary clues, a partner can be identified and a call can be made to the partner, and the extension telephone system can be made cheaper and more highly usable.
[0304]
(6) The physical location information of the gateway is also recorded in the database, and the terminal uses the intermediary function of data communication between the terminal and the database that the gateway has, or the terminal has The current location of the owner of the terminal is obtained by accessing the database via the gateway using the existing LAN / access function, so that the current location of the connected party is determined from the location information of the connected gateway. As a result, the extension telephone system can be made inexpensive and more usable.
[0305]
(7) When a terminal receives an incoming call from another terminal, the terminal acquires identification information of the owner of the terminal on the calling side from the database, so even if it is an incoming call from a caller not recorded in the memory of the terminal , It is possible to obtain information from the database so that the destination of the incoming call can be known, so that it is possible to reject smooth answering and answering unnecessary calls, and the extension telephone system can be made inexpensively. Therefore, it is possible to further improve the availability.
[0306]
(8) Ethernet LAN is connected to an external gateway connected to a general subscriber telephone line, and at least one of the terminals is an external line such as a mobile phone terminal or a PHS terminal capable of making a call via the general subscriber telephone line When functioning as a wireless mobile terminal, registering an external telephone number of a terminal having the function as the external wireless mobile terminal in the database, and when the terminal is connected to a general subscriber telephone line when making a call to the terminal, Since it is transferred to the external telephone number registered in the database, it can also be transferred to the external telephone number destination, and the extension telephone system can be made inexpensive and more highly usable.
[0307]
(9) An answering machine service server that performs an answering machine service is connected to the Ethernet LAN, and it can be registered for each terminal that the answering machine service is used in the database, and the use of the answering machine service is used. When there is a call request to the registered terminal, the gateway connects the call request to the answering machine service server, and the answering machine service server records the answering machine message addressed to the other terminal of the call request source. Because the terminal can obtain the answering machine message addressed to itself from the answering machine service server, it is possible to record the answering machine message when it is not possible to answer the incoming call to the terminal, such as when you are away. The system can be made inexpensive and more highly usable.
[0308]
(10) When the e-mail address specified by the owner of the terminal is registered in the database with the owner identified and the answering machine service server records the answering machine message, the owner of the terminal of the answering machine message destination The user's e-mail address is retrieved from the database, and an e-mail is sent to the effect that at least an answering machine message has been recorded for the e-mail address. Send the message as an email attachment so that the owner of the device knows that there is an answering machine message, or you can receive the answering machine message directly in the email, The extension telephone system can be made inexpensive and more highly usable.
[0309]
(11) When the terminal can be set in a proxy response ready state to receive an incoming call other than that addressed to a specific gateway instead, and the gateway is set in the proxy response request state, When the incoming call cannot be received or is rejected, the incoming call is switched to a specific gateway to receive the call, and the specific gateway that receives the incoming call is set to the proxy response ready state. The terminal in the proxy response ready state receives the incoming call on behalf of the terminal and makes a call, so that it can change to a terminal that cannot receive the incoming call and can make a proxy response on another terminal. The system can be made inexpensive and more highly usable.
[0310]
(12) When the terminal has a manner mode in which the ringtone is turned off and an incoming call is notified by mechanical vibration or the like and is set in the manner mode, at least when connected to a specific gateway, the terminal is connected to the gateway. While the phone is in the silent mode, it has a silent manner automatic release function, so even if you set the manner mode in a place where the ringtone cannot be heard, If you do not need to use the manner mode, you can automatically cancel the manner mode even if you forget to release the manner mode. Can be made cheaper and more highly usable.
[0311]
(13) When the terminal is not connected to any gateway, it uses the Bluetooth inquiry function and the service discovery function to periodically search for the gateway and find the gateway. In addition to notifying that the gateway has been found by a notification method such as mechanical vibration, light, or display, and displaying an inquiry as to whether or not to connect to the gateway, it is possible to automatically search for the nearest gateway. The extension telephone system can be made cheaper and more highly usable.
[0312]
(14) When the terminal is not connected to any gateway, it periodically searches for the gateway using the Bluetooth inquiry function and the service discovery function, and searches for the periodic gateway. If you continue to discover the same gateway for more than a certain period of time, it will automatically connect to the gateway, so you can automatically connect to the gateway and receive incoming calls, making the extension telephone system cheaper and more usable. It can be good.
[0313]
(15) When the terminal is not connected to any gateway, it uses the Bluetooth inquiry function and the service discovery function to periodically search for the gateway, and If a search continues to find multiple gateways for a certain period of time, when connecting to a gateway, the gateway with the stronger received radio wave strength is selected and connected as the connection destination. If you are in a communicable area, you can determine that the one with stronger radio wave reception strength is nearby and select it as the connection destination, making the extension telephone system cheaper and more usable. it can.
[0314]
(16) When the gateway periodically searches for a terminal by using the Bluetooth inquiry function and the service discovery function and finds the terminal, the gateway detects sound, mechanical vibration, light, display, or the like. Notifying the terminal that the gateway has been found by the notification method to be performed and displaying the inquiry about whether or not to connect to the gateway to the terminal, automatically searching for nearby terminals The extension telephone system can be made cheaper and more highly usable.
[0315]
(17) When the gateway periodically searches for a terminal using the Bluetooth inquiry function and the service discovery function, and continues to find the same terminal for a certain period of time by the periodic terminal search, the terminal The gateway can automatically connect to terminals that are in a communicable area for a certain period of time or more, making the extension telephone system cheaper and more usable. can do.
[0316]
(18) As a gateway, a gateway having an information processing function for accessing a database and searching the database searches the database when making a call, and an operator of the gateway having the information processing function is desired from the search result. When a communication partner is selected, a call is made to the selected communication partner, and the terminal connected to the gateway is controlled to be in a response standby state for the call. Since communication with a terminal in a state is possible, the terminal owned by the person who operates the personal computer is operated by operating a personal computer or the like having a gateway function. As a device, you can talk to other terminals and operate the terminals. Operating in easily performed operation personal computer or the like than can perform a call using the terminal, inexpensive telephone extension system, it can be made more of the availability good.
[0317]
(19) When a gateway having an information processing function has a predetermined display device and receives an incoming call to a connected terminal, the identification information of the caller of the incoming call is displayed on the display device. This identification information can be displayed on a display screen of a personal computer or the like having a display screen larger than that of the terminal, so that the extension telephone system can be made inexpensive and more usable.
[Brief description of the drawings]
FIG. 1 is a system configuration diagram of an extension telephone system to which an embodiment of an extension telephone system of the present invention is applied.
FIG. 2 is a diagram showing a main part of a Bluetooth protocol stack.
FIG. 3 is a detailed configuration diagram of the WAP of FIG. 2;
FIG. 4 is a diagram showing an example of the configuration of an SCO packet when voice communication is performed using Bluetooth.
FIG. 5 is a diagram showing a configuration example of a packet when performing a voice call on an Ethernet LAN using VoIP.
FIG. 6 is a diagram showing a configuration example of a Bluetooth WAP packet.
7 is a time chart of a communication path determination process when one terminal A of the terminals in FIG. 1 makes a call to another terminal B. FIG.
FIG. 8 is a time chart of voice communication processing between terminals when voice packetization is performed by a gateway.
FIG. 9 is a flowchart showing voice communication processing between terminals when voice packetization is performed by a gateway.
FIG. 10 is a time chart of voice communication processing between terminals when voice packetization is performed at the terminals.
FIG. 11 is a flowchart showing voice communication processing between terminals when voice packetization is performed at the terminals.
FIG. 12 is a time chart of voice communication processing when a method of performing voice packetization at a gateway and a method of performing voice packetization at a terminal are mixed.
FIG. 13 is a time chart of a voice call process between an external line terminal and a terminal by transmission from the external line terminal.
FIG. 14 is a time chart of a voice call process between a terminal and an external line terminal by transmission from the terminal to the external line terminal.
FIG. 15 is a flowchart (a) of a voice call process between an external line terminal and a terminal by a call from the external line terminal, and a flowchart (b) showing a voice call process between the terminal and the external line terminal by a call from the terminal to the external line terminal.
FIG. 16 is a time chart of database search processing from a terminal;
FIG. 17 is a time chart of caller information display processing in which a caller side gateway acquires caller information from a database and displays the caller information on a callee terminal.
FIG. 18 is a time chart of caller information display processing in which the callee gateway acquires caller information from the database and displays it on the callee terminal.
FIG. 19 shows a caller in which a callee gateway receives information identifying a caller from the caller gateway, and the callee gateway retrieves caller information from the database and displays the caller information on the callee terminal. Time chart of information display processing.
FIG. 20 is a time chart of caller information display processing when a call is made after the terminal on the receiving side confirms the caller in the caller information display processing.
FIG. 21 is a time chart of call processing between terminals using an information device as a gateway on the Ethernet LAN as a parent device and using a terminal connected to the information device as a child device;
FIG. 22 is a time chart of caller information display processing in call processing between terminals using an information device as a gateway on the Ethernet LAN as a parent device and using a terminal connected to the information device as a child device;
FIG. 23 is a time chart of call processing when a call is made from a terminal connected to the Ethernet LAN to a terminal connected to an external line.
FIG. 24 is a time chart of an answering machine service process of the extension telephone system.
FIG. 25 is a time chart of proxy response processing of the extension telephone system.
FIG. 26 is a flowchart showing gateway automatic search processing in which a terminal automatically searches for a gateway.
FIG. 27 is a flowchart showing gateway automatic search connection processing in which a terminal automatically searches for a gateway and connects automatically.
FIG. 28 is a flowchart showing terminal automatic search processing in which a gateway automatically searches for a terminal.
FIG. 29 is a flowchart showing terminal automatic search connection processing in which a gateway automatically searches for a terminal and connects automatically.
[Explanation of symbols]
1 Extension telephone system
2 Ethernet LAN
3a-3n gateway
4 External gateway
5 Database
6 Answering machine
10a-10m terminal
20 General telephone line
21 General subscriber phone terminals
22 General mobile devices
23 Base station

Claims (18)

An extension telephone system in which a plurality of gateways connected to an Ethernet LAN and communicating with each other via the Ethernet LAN and a plurality of terminals perform voice communication according to the Bluetooth standard,
The terminal has a function of incorporating voice data into a data part of an IP packet communicable over the Ethernet LAN to generate an IP packet, and a function of extracting voice data from the data part of the IP packet,
The terminal and the gateway each include a function for generating a Bluetooth standard packet by incorporating an IP packet into a data part of a Bluetooth standard packet, a function for decomposing a Bluetooth standard packet and extracting an IP packet, and a function for extracting the Bluetooth standard packet. A function of performing Bluetooth communication to transmit and receive,
The gateway has a function of transmitting an IP packet taken by disassembling the Bluetooth standard packet to the Ethernet LAN, and a function of receiving an IP packet from the Ethernet LAN.
The terminal sends a call request to the other terminal through the nearest gateway and the Ethernet LAN among the plurality of gateways, and the other terminal passes through the nearest gateway of the other terminal. In the extension telephone system characterized in that a call request is received and the terminals perform a voice call via the gateway and the Ethernet LAN .
A database that manages the location information and identification information of the terminal is connected to the Ethernet LAN, and the gateway acquires the identification information of the terminal that is connected to itself and can receive incoming calls, and the database Manages at least the identification information on the Ethernet LAN of the gateway, the identification information of the terminal connected to the gateway, and the information for identifying the owner of the terminal, and the external line on the Ethernet LAN. If the gateway for the telephone is connected, the telephone number of the external telephone of the general subscriber telephone line connected to the gateway for the external line and the identification information of the owner of the telephone number are registered and managed. When there is a change in information about the terminal connected to itself, the database Based on the notification, the database changes the registration information regarding the terminal that has received the notification, and the gateway refers to the database to search for the gateway of the connection destination and perform communication. An extension telephone system characterized by performing control . An extension telephone system in which a plurality of gateways connected to an Ethernet LAN and communicating with each other via the Ethernet LAN and a plurality of terminals perform voice communication according to the Bluetooth standard,
The gateway mutually converts voice data capable of voice communication according to the Bluetooth standard and IP packets communicable on the Ethernet LAN to perform voice data communication on the Ethernet LAN. Sending a call request to the other terminal via the nearest gateway and the Ethernet LAN among the gateways, the other terminal receiving the call request via the nearest gateway of the other terminal, In the extension telephone system in which the terminals make a voice call via the gateway and the Ethernet LAN,
A database that manages the location information and identification information of the terminal is connected to the Ethernet LAN, and the gateway acquires the identification information of the terminal that is connected to itself and can receive incoming calls, and the database Manages at least the identification information on the Ethernet LAN of the gateway, the identification information of the terminal connected to the gateway, and the information for identifying the owner of the terminal, and the external line on the Ethernet LAN. If the gateway for the telephone is connected, the telephone number of the external telephone of the general subscriber telephone line connected to the gateway for the external line and the identification information of the owner of the telephone number are registered and managed. When there is a change in information about the terminal connected to itself, the database Based on the notification, the database changes the registration information regarding the terminal that has received the notification, and the gateway refers to the database to search for the gateway of the connection destination and perform communication. An extension telephone system characterized by performing control.   An external line gateway connected to a general subscriber telephone line is connected to the Ethernet LAN, and the external line gateway converts voice data by IP packets on the Ethernet LAN and voice communication of the general subscriber telephone line. A function to convert the incoming signal and the outgoing signal, and to call the terminal by the external line number from the general subscriber telephone line, and to send an external line from the terminal to the general subscriber telephone line, 3. The extension telephone system according to claim 1, wherein a voice call between the telephone terminal capable of communicating on the general subscriber telephone line and the terminal is enabled.   The terminal uses an intermediary function of data communication between the terminal of the gateway and the database, or uses a LAN access function of the terminal via the gateway. The extension telephone system according to any one of claims 1 to 3, wherein the database is accessed, a call partner is searched from the database, and a call is made to the partner specified by the search result. .   The database also records physical location information of the gateway, and the terminal uses an intermediary function of data communication between the terminal and the database of the gateway, or of the terminal. 5. The current location of the owner of the terminal is obtained by accessing the database via the gateway using a LAN access function that the user has. 5. The extension telephone system described.   6. The extension telephone system according to claim 5, wherein when receiving an incoming call from another terminal, the terminal acquires identification information of an owner of the calling terminal from the database.   The Ethernet LAN is connected to an external gateway connected to a general subscriber telephone line, and at least one of the terminals is an external radio such as a mobile phone terminal or a PHS terminal capable of making a call via the general subscriber telephone line. When an external telephone number of a terminal that functions as a mobile terminal and has a function as the external wireless mobile terminal is registered in the database, and the terminal is connected to the general subscriber telephone line when making a call to the terminal 7. The extension telephone system according to claim 1, wherein the extension telephone number is transferred to an external telephone number registered in the database.   In the extension telephone system, an answering machine service server that performs an answering machine service is connected to the Ethernet LAN, and the fact that the answering machine service is used can be registered in the database for each terminal. When there is a call request to the terminal registered to use the phone service, the gateway connects the call request to the answering machine service server, and the answering service server sends the call requesting party 8. The answering machine message addressed to the terminal is recorded, and the terminal can acquire the answering machine message addressed to the terminal from the answering machine service server. Extension telephone system.   The extension telephone system can register the e-mail address specified by the owner of the terminal in the database by specifying the owner, and the answering machine service server records the answering machine message, Obtain the email address of the owner of the terminal of the answering machine message from the database, notify the email address that at least an answering machine message has been recorded, and specify the owner 9. The extension telephone system according to claim 8, wherein the recorded answering machine message is attached to an electronic mail and transmitted.   The terminal can be set in a proxy response ready state to receive an incoming call other than that addressed to a specific gateway instead, and the gateway receives an incoming call when the terminal that has received the call is set in a proxy response request state If the incoming call cannot be received or the incoming call is rejected, the incoming call is switched to the specific gateway and the incoming call is received, and the specific gateway that has received the incoming call sets the incoming call to the proxy response ready state. The extension telephone system according to any one of claims 1 to 9, wherein a terminal connected to a connected terminal and in a state where the proxy response is possible receives the incoming call as a proxy and makes a call.   The terminal has a manner mode in which a ringtone is turned off and an incoming call is notified by mechanical vibration or the like. When the terminal is connected to a specific gateway in the manner mode, the terminal is connected to at least the gateway. The extension telephone system according to any one of claims 1 to 10, further comprising a manner mode automatic release function for automatically releasing the manner mode.   When the terminal is not connected to any of the gateways, it uses the Bluetooth inquiry function and the service discovery function to periodically search for the gateway and finds the gateway. 12. A notification that a gateway has been found by a notification method such as mechanical vibration, light, or display, and an inquiry as to whether or not to connect to the gateway are displayed. The extension telephone system according to any one of the above.   When the terminal is not connected to any of the gateways, the terminal periodically searches for the gateways using the Bluetooth inquiry function and the service discovery function, and searches for the periodic gateways. The extension telephone system according to any one of claims 1 to 11, wherein when the same gateway is continuously discovered for a predetermined time or more, the gateway is automatically connected to the gateway.   When the terminal is not connected to any of the gateways, the terminal periodically searches for the gateway using the Bluetooth inquiry function and the service discovery function, and When a plurality of gateways are continuously discovered in a search for a predetermined time or longer, a gateway having a stronger received radio wave intensity is selected and connected as a connection destination among the plurality of gateways when connected to the gateway. The extension telephone system according to claim 12 or claim 13.   The gateway periodically searches for the terminal using Bluetooth's inquiry function and service discovery function, and when the terminal is found, performs sound, mechanical vibration, light, display or the like on the discovered terminal. 15. The notification according to claim 1, wherein the terminal is notified that the gateway has been found, and the terminal displays an inquiry as to whether or not to connect to the gateway. The extension telephone system described in the above.   The gateway periodically searches for the terminal using the Bluetooth inquiry function and the service discovery function, and when the gateway continues to discover the same terminal for a certain period of time in the periodic terminal search, The extension telephone system according to any one of claims 1 to 14, wherein the extension telephone system is automatically connected.   The extension telephone system includes, as the gateway, at least one gateway having an information processing function of accessing the database and searching the database, and the gateway having the information processing function uses the database when making a call. When the operator of the gateway having the information processing function selects a desired communication partner from the search results, the terminal that is connected to the gateway is transmitted to the selected communication partner, The extension telephone according to any one of claims 1 to 16, wherein control is made to a response waiting state for the outgoing call, and communication with the terminal in the standby state is enabled when a caller terminal responds. system.   The gateway having the information processing function includes a predetermined display device, and when there is an incoming call to the connected terminal, the identification information of the caller of the incoming call is displayed on the display device. 18. The extension telephone system according to claim 17.

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