JP3107964B2 - Master unit cluster system - Google Patents

Abstract

PURPOSE:To provide the device and system for clustering master unit to freely communicate data between slave sets or between the slave set and an information terminal. CONSTITUTION:A move managing part 14 manages the present position of a slave set expressing which of master unit 101 and 201 the slave set at an extension communication system exists in. While referring to the information of the present position of the slave set from the move managing part 14, a personal handy phone communication control part 12 establishes and disconnects the call of communication between slave sets. Based on an instruction from the personal handy phone communication control part 12, a communication path managing part 13 manages a communication path inside a master unit interface part 11.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a parent-child communication system such as a cordless telephone system, which is used in a parent device, between child devices, between child devices, or between a child device and an ISDN or Ethernet. The present invention relates to a base unit cluster apparatus and a base unit cluster system for performing voice communication and data communication with an information terminal connected to a wired network.

[0002]

2. Description of the Related Art In recent years, cordless telephones have become widespread in homes and offices, and wireless voice communication is being used. Further, preparations are underway for a second generation cordless telephone system, for example, a personal handy phone system, in which a conventional analog format is converted to a digital format.

[0003] The digitization increases affinity with data communication such as facsimile communication and personal computer communication. That is, the communication between the slave unit and the master unit is suitable for digital data communication by adding a device having not only a voice communication function but also a data communication function to the slave unit. In such a situation, it is expected that the second generation cordless telephone system will be a voice communication and data communication network in the office.

Conventionally, only for voice communication, a master unit and a PBX are connected to realize voice communication between slave units in the master unit and voice communication between slave units across the master unit. In such a case, the audio was treated as a continuous signal, that is, a digital bit string.

[0005]

However, in the conventional voice communication between slave units, since there is no buffering function in the interface with the master unit, the synchronization with the air, that is, the synchronization between the wired section and the wireless section at the time of loopback is not achieved. Data cannot be stored as a unit between the slave units, and data communication cannot be performed.

[0006] Further, since the conversion of the call control protocol and the conversion of the data communication protocol peculiar to the data communication are not realized, there is also a problem that the communication between the slave unit and the information terminal cannot be performed. The present invention has been made in view of such circumstances, and an object of the present invention is to provide a base unit cluster device and a base unit cluster system that can freely perform data communication between slave units or between a slave unit and an information terminal. I do.

[0007]

[0008]

[0009]

According to a first aspect of the present invention, there is provided an interface means for connecting an arbitrary number of master units in a master-slave communication system, and a buffering function for data communication. An arbitrary number of parent device cluster devices are connected to the wired network, and an arbitrary number of information terminals are further connected to the wired network, wherein each of the parent device cluster devices has a child device in the parent-child communication system. It has a function of converting a call connection protocol and a data communication protocol between an information terminal and an interconnection means for establishing and disconnecting a call for communication between a slave unit and an information terminal. I have.

[0010]

[0011]

[0012]

According to the first aspect of the present invention, the interconnecting means has a protocol conversion function of a call connection between the slave unit and the information terminal in the parent-child communication system and a data communication protocol conversion function. Establish and disconnect a call for communication with

[0013]

Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 3 is a configuration diagram of a master unit cluster system including a master unit cluster device according to an embodiment of the present invention. For example, a wired network 10 such as Ethernet or ISDN is used.
00 is connected to the master unit clusters 10 and 30 and the information terminal 20. The parent device clusters 10 include the parent devices 101 and 20
1, and a master unit 301 is connected to the master unit cluster 30 by a digital interface such as an I interface. Wireless zone 1 of base unit 101
A slave unit 102 exists in 00, and a personal computer 103 is connected to the slave unit 102. Similarly, base unit 20
In one wireless zone 200, a slave unit 202 exists, and a personal computer 203 is connected to the slave unit 202.
Similarly, in the wireless zone 300 of the parent device 301, the child device 3
02 exists, and the personal computer 302 is connected to the personal computer 303. Handset 102, personal computer 103, handset 2
02 and the personal computer 203, and the child device 302 and the personal computer 303.
Function in unison, and in the following description, both will be described as the slaves 102, 202, 302 as an integral unit. The information terminal 20 has a file server function, and a file 21 is connected. In the wireless zones 100, 200, and 300, it is assumed that a digital communication system such as a second-generation digital cordless telephone is adopted. Also, in practice, the wired network 100
0 is connected to a base unit cluster other than the base unit clusters 10 and 30 and an information terminal other than the information terminal 20, and the base unit clusters 10 and 30 are connected to base units other than the base units 101, 201, and 301. Wireless zones 100, 200, 3
00 includes slave units other than the slave units 102, 202, and 302. However, illustration is omitted for easy understanding, and the explanation will be made ignoring the existence of these units unless particularly necessary.

FIG. 1 is a block diagram of a base unit cluster 10. The base unit cluster 10 includes a base unit interface unit 11, a personal handyphone communication control unit 12, a communication path management unit 13, and a movement management unit 14. , An interconnecting unit 15 and a wired network communication control unit 16. Base unit interface unit 11 establishes a control data communication path exchanged between base units 101 and 201 and personal handyphone communication control unit 12, and sets base units 101 and 201.
A data communication path is established between the base units 101 and 201 and the interconnection unit 15. The personal handyphone communication control unit 12 establishes a call with the slave units 102 and 202 to perform communication between slave units in the master units 101 and 201 and communication between slave units in the master unit cluster 10. Perform disconnection and line control. Further, the personal handyphone communication control unit 12 instructs the communication path management unit 13 on the communication mode when establishing a call. In the communication between the slave units 102 and 202 and the information terminal 20, the establishment or disconnection of the call is entrusted to the interconnection unit 15. The communication path management unit 13 manages a communication path in the base unit interface unit 11 and responds to a call establishment request or a disconnection request from the personal handyphone communication control unit 12 to manage the communication path in the base unit interface unit 11. Establish and release. The movement management unit 14 includes the slave units 102 and 20
It manages the current position of all the child devices such as 2,302, that is, which parent device in which parent device cluster. The interconnecting unit 15 controls communication between the parent device clusters 10 and 30 in communication between child devices over the parent device clusters 10 and 30, and a call control protocol in communication between the child devices 102 and 202 and the information terminal 20. Performs conversion and data communication protocol conversion. The wired network communication control unit 16 controls communication of the wired network 1000,
For example, in the case of Ethernet, it is configured by an Ethernet card, an Ethernet driver, and a TCP / IP module.

FIG. 2 is a block diagram of the base unit cluster 30. The base unit cluster 30 includes a base unit interface unit 31, a personal handyphone communication control unit 32, a communication path management unit 33, and a movement management unit 34. , An interconnection unit 35 and a wired network communication control unit 36. That is, the base unit cluster 30 has the same configuration as the base unit cluster 10, and the base unit interface unit 31 establishes a control data communication path exchanged between the base unit 301 and the personal handyphone communication control unit 32. And master device 301
A data communication path is established between the communication unit and the interconnection unit 35. The personal handyphone communication control unit 32
In order to perform communication between child devices within 01 and communication between child devices within the parent device cluster 30, a call with the child device 302 is established and disconnected, and line control is performed. Further, the personal handyphone communication control unit 32 sets the communication path management unit 3
3 is instructed on the communication mode. In the communication between the slave unit 302 and the information terminal 20, the establishment and disconnection of the call are entrusted to the interconnection unit 35. The communication path management unit 33 manages a communication path in the base unit interface unit 31 and, in response to a call establishment request or a disconnection request from the personal handyphone communication control unit 32, manages a communication path in the base unit interface unit 31. Establish and release. The movement management unit 34 includes the slave units 102 and 20
It manages the current position of all the child devices such as 2,302, that is, which parent device in which parent device cluster. The interconnecting unit 35 controls the communication between the parent device clusters 10 and 30 in the communication between the child devices over the parent device clusters 10 and 30, the call control protocol conversion in the communication between the child device 302 and the information terminal 20, Performs data communication protocol conversion. The wired network communication control unit 36 controls communication of the wired network 1000. For example, in the case of Ethernet, the wired network communication control unit 36 includes an Ethernet card, an Ethernet driver, and a TCP / IP module.

Next, the operation will be described. First, data communication between slave units in the master unit cluster will be described. FIG. 4 is a diagram illustrating the slave 102 to the master 10 in data communication between slaves in the master cluster.
FIG. 4 is an explanatory diagram of a communication sequence of 1-base unit cluster 10 -base unit 201 -slave unit 202.
Fig. 3 shows a procedure for establishing a call for data communication to the STA. When a call setting message for performing data communication to slave unit 202 arrives at personal handyphone communication control unit 12 in master unit cluster 10 from slave unit 102 via master unit 101, personal handyphone communication control unit 12
Inquires of the movement management unit 14 about the current position of the slave unit 202. Thereby, movement management unit 14 notifies personal handyphone communication control unit 12 that child device 202 is in base device 201. As a result, the personal handyphone communication control unit 12 communicates that the master unit 101 and the master unit 201 are in the same master unit cluster 10, and that a communication path for performing loopback in the master unit cluster in the data communication mode is set. Request the path management unit 13. As a result, the communication path management unit 13 acquires the unused channel numbers of the master unit 101 and the master unit 201, that is, the addresses between the master units 101 and 201 and the master unit cluster 10, and the unused internal bus addresses. And the parent machine interface unit 11
In the data communication mode, a request is made to establish a communication path for loopback in the master unit cluster between the master unit 101 and the master unit 201, and the personal handyphone communication control unit 12
An unused channel number between master device 101 and master device 201 is notified. Thereby, the parent machine interface unit 11
A communication path is established from the designated channel number of the parent device 101, the internal bus address, and the channel number of the parent device 201. In accordance with the designation of the data communication mode, a buffer is inserted between the internal bus address and the master unit 201 to establish synchronization with the air, that is, synchronization between the wired section and the wireless section. And the personal handyphone communication control unit 12
A call setting acceptance message including which channel number is to be used is sent to slave unit 102 in master unit 101.
As a result, the master unit 101 places the data sent from the slave unit 102 on the designated channel, and
Will be sent to Then, the personal handyphone communication control unit 12 sends an incoming call message to the child device 202 in the parent device 201. As a result, the child device 202 is
1 and sends an incoming call response message to the personal handyphone communication control unit 12. As a result, the personal handyphone communication control unit 12
Send a call setup message including which channel number to use. As a result, the master unit 201 receives the data sent from the master unit cluster 10 from the designated channel and sends the data to the slave unit 202. The child device 202 sends a call setting acceptance message to the personal handyphone communication control unit 12 via the parent device 201.
Hereinafter, a call message and a response message are exchanged between the child device 202, the parent device 201, the parent device cluster 10, the parent device 101, and the child device 102.
The data communication between the child device 102 and the child device 202 in the parent device cluster 10 is established with the response confirmation message to the parent device cluster 10.

Next, data communication between slave units across the master unit cluster will be described. FIG. 5 is an explanatory diagram of a communication sequence between the child device 102, the parent device 101, and the parent device cluster 10 in data communication between child devices across the parent device cluster, and FIG. FIG. 4 is an explanatory diagram of a communication sequence of a device cluster 30-a master device 301-a slave device 302. That is, FIGS. 5 and 6 show the handset 1
02 from the base unit clusters 10 and 30
2 illustrates a procedure for establishing a call for data communication to the H.2. When a call setting message for performing data communication to slave unit 302 arrives at personal handyphone communication control unit 12 in master unit cluster 10 from slave unit 102 via master unit 101, personal handyphone communication control unit 12
Makes an inquiry to the mobility management unit 14 about the current position of the slave unit 302. As a result, the mobile management unit 14 makes the personal handyphone communication control unit 12
Let them know you're inside. As a result, the personal handyphone communication control unit 12 determines that the handset 302 to receive the call is in the base unit cluster 30 via the wired network 1000 and communication between the base unit clusters 10 and 30 is required. Master device 101 and master device cluster 10
Communication path between the master unit and the parent device interface unit 11
The communication path management unit 13 is requested to set a data communication path between the communication path and the interconnection unit 15. Note that the master unit cluster 10
And the master unit cluster 30 are connected to each other
And the connection via the wired network communication control units 16 and 36. As a result, the communication path management unit 13
01, an unused channel number, that is, an address between the parent device 101 and the parent device cluster 10, and an unused channel number of the parent device cluster 10, that is, an address for data communication with the parent device interface unit 11. (Hereinafter referred to as “master device cluster channel number”), and the master device 1
A request is made to establish a communication path between the 01-base unit cluster 10 and the personal handyphone communication control unit 12 is notified of unused channel numbers of the base unit 101 and the base unit cluster 10. As a result, the parent machine interface unit 11
Establishes a communication path from the channel numbers of the designated master device 101 and master device cluster 10. Buffering is performed according to the data communication mode designation, and data is exchanged with the interconnection unit 15 in a certain unit, for example, in a unit of layer 3. And the personal handyphone communication control unit 12
However, in order to establish a call with the child device 302 over the parent device cluster 30,
, The parent device cluster channel number, and the address of the parent device cluster 30. This allows the interconnect 15
Establishes a data link with the interconnection unit 35 in the base unit cluster 30 via the wired network communication control units 16 and 36 based on the address of the base unit cluster 30. Thereafter, control messages flow through the data link.

After the above-mentioned data link is established, the interconnection unit 35 receives a call establishment request with the slave unit 302 from the interconnection unit 15. As a result, the interconnecting unit 35 is connected to the personal handyphone communication control unit 3 in the base unit cluster 30.
2, a request to establish a call with the slave unit 302 in the data communication mode is sent. As a result, the personal handyphone communication control unit 32 inquires of the movement management unit 34 about the current position of the slave unit 302. Thereby, the movement management unit 34 notifies the personal handyphone communication control unit 32 that the slave unit 302 is in the master unit 301. Thereby, the personal handyphone communication control unit 32 communicates that the communication path between the master unit cluster 30 and the master unit 301, that is, the data communication path between the interconnecting unit 35 and the master unit interface unit 31 is set in the data communication mode. Request the path management unit 33. As a result, the communication path management unit 33 sets the unused channel number of the master unit 301, that is, the address between the master unit 301 and the master unit cluster 30, and the unused channel number of the master unit cluster 30, that is, the master unit. An address for data communication with the interface unit 31 (hereinafter referred to as “master device cluster channel number”) is obtained, and the master device cluster 3 is transmitted to the master device interface unit 31 in the data communication mode.
0 and a request for establishing a communication path between the base unit 301 and the personal handyphone communication control unit 32.
1 and an unused channel number of the master unit cluster 30. As a result, the parent device interface unit 31 establishes a communication path from the designated channel number of the parent device 301 and the channel number of the parent device cluster 30. Buffering is performed according to the data communication mode designation, and data is exchanged with the interconnection unit 35 in a certain unit, for example, in a unit of layer 3. Then, the personal handyphone communication control unit 32 notifies the interconnection unit 35 of the parent device cluster channel number to enable data communication between the interconnection unit 35 and the parent device interface unit 31.

The personal handyphone communication control unit 12 of the master unit cluster 10 includes an interconnecting unit 15-a wired network communication control unit 16-a wired network communication control unit 36-
A call setting message is sent to the personal handyphone communication control unit 32 of the parent device cluster 30 via the interconnection unit 35. Thereby, the personal handyphone communication control unit 3
2 sends an incoming call message to the child device 302 in the parent device 301. Thereby, handset 302 sends an incoming call response message to personal handyphone communication control unit 32 via base unit 301. As a result, the personal handyphone communication control unit 32 sends a call setting message including which channel number to use to the child device 302 in the parent device 301. As a result, master unit 301 receives the data sent from master unit cluster 30 from the designated channel and sends it to slave unit 302. By the above operation, the child device 102-the parent device 101-the parent device cluster 10-
A call setup acceptance message, a call message, a response message, and a response confirmation message are exchanged between the master unit cluster 30-master unit 301-slave unit 302, and the slave unit 102-slave unit 302 data communication path spanning the master unit clusters 10, 30. Is established. It should be noted that the established data communication path is based on the slave unit 102, the master unit 101, the master unit interface unit 11-
The interconnection unit 15-the interconnection unit 35-the parent device interface unit 31-the parent device 301-the child device 302.

Next, data communication between the slave unit and the information terminal will be described. FIG. 7 is an explanatory diagram of a communication sequence of the child device 102, the parent device 101, the parent device cluster 10, and the information terminal 20 in data communication between the child device and the information terminal. In the description, it is assumed that the data communication protocol of the layer 3 of the child device 102 and the parent device cluster 10 is a non-procedure, and the IP protocol is between the parent device cluster 10 and the information terminal 20. From the child device 102 to the parent device 101
When a call setup message for performing data communication to the information terminal 20 arrives at the personal handyphone communication control unit 12 in the base unit cluster 10 through the personal handyphone cluster 10, the personal handyphone communication control unit 12 Since the mobile device cluster 10 is connected to the main device cluster 10 via the wired network 1000, the communication path between the main device 101 and the main device cluster 10, that is, the data communication path between the main device interface unit 11 and the interconnecting unit 15 is set in the data communication mode. It requests the communication path management unit 13 to set. As a result, the communication path management unit 13 sets the unused channel number of the master unit 101, that is, the address between the master unit 101 and the master unit cluster 10, and the unused channel number of the master unit cluster 10, that is, the master unit. An address for data communication with the interface unit 11 (hereinafter referred to as “parent device cluster channel number”) is acquired, and a communication path is established between the parent device 101 and the parent device cluster 10 in the data communication mode with respect to the parent device interface unit 11. And notifies the personal handyphone communication control unit 12 of the unused channel number of the master unit 101 and the unused channel number of the master unit cluster 10. As a result, the parent device interface unit 11 establishes a communication path from the designated channel number of the parent device 101 and the channel number of the parent device cluster 10. Buffering is performed according to the data communication mode specification.
For example, data is exchanged with the interconnection unit 15 on a layer 3 basis. And the personal handyphone communication control unit 1
2 is the information terminal 2 via the wired network 1000
0 to establish a call to
The address of the information terminal 20 and the master device cluster channel number are notified. Further, the personal handyphone communication control unit 12 sends a call setting message to the interconnection unit 15. Thus, the interconnecting unit 15 executes a connection procedure with the information terminal 20. In this case, since the call control protocols are different between the slave unit 102 and the interconnection unit 15 and between the interconnection unit 15 and the information terminal 20, the interconnection unit 15
Performs protocol conversion. And the interconnect 15
A call setting acceptance message is sent to personal handyphone communication control unit 12. As a result, the personal handyphone communication control unit 12 sends a call setting acceptance message including which channel number to use to the child device 102 in the parent device 101. As a result, the master unit 101 sends the data sent from the slave unit 102 to the master unit cluster 10 on the designated channel. Then, the interconnection unit 15 generates a response message when the connection with the information terminal 20 is completed, and sends the response message to the slave unit 102 via the personal handyphone communication control unit 12. By the above operation,
A data communication path is established between the slave device 102 and the information terminal 20. Note that the established data communication path is
-Master unit 101-Master unit interface unit 11-Interconnecting unit 15-Information terminal 20.

As described above, the master unit 101, 201 in the master-slave communication system has the master unit interface unit 11 to which an arbitrary number of master units 101 and 201 are connected, and the buffering function for data communication. Master unit cluster 1
0, and the slave units 102 and 202
01, and refers to the information on the current position of the slave units 102 and 202 from the movement management unit 14, and refers to the information of the current position of the slave units 102 and 202 from the movement management unit 14.
A personal handyphone communication control unit 12 for establishing and disconnecting a communication call between communication terminals 2 and 202, and a communication path for managing a communication path in base unit interface unit 11 based on an instruction from personal handyphone communication control unit 12. Since the management unit 13 is provided, voice and data communication between child devices in the parent device and voice and data communication between child devices in the parent cluster device can be freely performed.

In addition, the parent machine 1 in the parent-child communication system
Master device clusters 10 and 30 having master device interfaces 11 and 31 to which an arbitrary number of master devices 01, 201 and 301 are connected, and a buffering function for data communication. Wired network 100
A master cluster system connected to an arbitrary number of 0s,
The interconnecting units 15 and 35 for controlling communication between the master unit clusters 10 and 30 and the slave unit 10
2, 202, and 302 are the parent devices 101, 201, and 301.
Management units 14, 34 for managing the current positions of the slave units 102, 202, 302 indicating that they are within the master unit clusters 30, and the slave units 102, 202 from the movement management units 14, 34. , 302 with reference to the current position information, the communication path management unit 13, which manages the communication paths of the parent device interface units 11, 31 and the interconnection units 15, 35,
33, the voice and data communication between the child devices via the parent device cluster can be freely performed.

In addition, the parent machine 1 in the parent-child communication system
A base unit cluster 10 that has a base unit interface unit 11 to which an arbitrary number of base units 01 and 201 are connected, and a buffering function for data communication, and bundles the base units 101 and 201
A master cluster system in which an arbitrary number of wired terminals are connected to the wired network 1000, and an arbitrary number of information terminals 20 are further connected to the wired network 1000.
0 has a protocol conversion function of a call connection between the slave units 102 and 202 and the information terminal 20 and a data communication protocol conversion function, and establishes a call for communication between the slave units 102 and 202 and the information terminal 20. And disconnecting interconnect 15
The voice and data communication between the slave and the information terminal can be freely performed.

[0024]

[0025]

[0026]

As described above, according to the present invention, an interface means for connecting an arbitrary number of master units in a master-slave communication system and a buffering function for data communication are provided, and the master units are bundled. An arbitrary number of parent device cluster devices are connected to the wired network, and an arbitrary number of information terminals are further connected to the wired network, wherein each of the parent device cluster devices has a child device in the parent-child communication system. It has a protocol conversion function of a call connection between the information terminal and a data communication protocol conversion function,
If there is provided an interconnecting means for establishing and disconnecting a call for communication between the slave and the information terminal, voice and data communication between the slave and the information terminal over the master cluster can be freely performed. Therefore, the present invention can be used for accessing a file server from a slave unit, and can be particularly effectively used as a wireless data communication network.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a master device cluster device according to an embodiment of the present invention.

FIG. 2 is a configuration diagram of a master device cluster device according to an embodiment of the present invention.

FIG. 3 is a configuration diagram of a master unit cluster system including a master unit cluster device according to an embodiment of the present invention.

FIG. 4 is an explanatory diagram of a communication sequence of data communication between child devices in the parent device cluster device realized by the parent device cluster device in one embodiment of the present invention.

FIG. 5 is an explanatory diagram of a communication sequence of data communication between child devices spanning the parent device cluster device realized by the parent device cluster system in one embodiment of the present invention.

FIG. 6 is an explanatory diagram of a communication sequence of data communication between child devices spanning a parent device cluster device realized by the parent device cluster system in one embodiment of the present invention.

FIG. 7 is an explanatory diagram of a communication sequence of data communication between a child device and an information terminal realized by the parent device cluster system in one embodiment of the present invention.

[Explanation of symbols]

 Reference Signs List 10 parent device cluster 11 parent device interface unit 12 personal handyphone communication control unit 13 communication path management unit 14 movement management unit 15 interconnection unit 20 information terminal 30 parent device cluster 31 parent device interface unit 32 personal handyphone communication control unit 33 communication Path management unit 34 Movement management unit 35 Interconnection unit 101 Master unit 102 Slave unit 201 Master unit 202 Slave unit 301 Master unit 302 Slave unit

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) H04B ^7/ 24-7/26 H04Q ⁷ /04-7/38

Claims (1)

(57) [Claims] And interface means master unit is connected any number of 1. A child-type communication system, and a buffering function for data communication, the parent machine cluster tool for bundling the master unit, optionally to the wired network Number connected,
Furthermore, a master unit cluster system in which an arbitrary number of information terminals are connected to the wired network, wherein each master unit cluster device includes a protocol for a call connection between the slave unit and the information terminal in the master-slave communication system. A master unit cluster system having a conversion function and a data communication protocol conversion function, and comprising an interconnecting means for establishing and disconnecting a communication call between the slave unit and the information terminal.