JP4150109B2 - Communication connection switching method and communication connection switching device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a communication connection switching method and a communication connection switching device, and more particularly to a communication connection switching method and a communication connection switching device for a communication path due to movement of a communication terminal device in a mobile communication facility.
[0002]
[Prior art]
FIG. 17 shows a schematic configuration diagram of a basic mobile communication facility.
[0003]
In general, a basic mobile communication facility includes communication base station apparatuses 8, 9 and 10, base station control apparatuses 2 and 3, and an electronic exchange 1. The electronic exchange 1 is further connected to another electronic exchange, a transfer device, a terminal device, or the like via a network.
[0004]
The communication terminal device 11 has a function of transmitting or receiving control information related to connection with the communication base station device 8, the communication base station device 9, or the communication base station device 10 and communication information related to communication contents. The base station control device 2 or the base station control device 3 supervises one or a plurality of communication base station devices, and performs management and control. The electronic exchange 1 has a function of exchanging the control information and communication information to a predetermined other base station control device, communication terminal device, or the like by switching the communication path.
[0005]
FIG. 18 is an explanatory diagram about the concept of the cell.
[0006]
Usually, a range of a radio zone in which one communication base station apparatus can communicate with a plurality of communication terminal apparatuses is called a “cell”. By adjoining this cell, even if the communication terminal device moves between wireless zones, mobile communication that enables transmission / reception without instantaneous interruption can be provided.
[0007]
Conventionally, a mobile communication facility in which a plurality of communication terminal devices, a plurality of communication base station devices, and a plurality of electronic exchanges are involved is provided by a combination of components included in the mobile communication facility as described above. Here, it is assumed that one communication terminal apparatus is communicating through a communication path that passes through one communication base station apparatus, one base station control apparatus, and one electronic exchange. From this state, it is assumed that this communication terminal device moves out of the cell range provided by the current communication base station and moves to a cell range provided by one communication base station device under the control of a different base station control device. To do. Also, this different base station control device has a plurality of communication base station devices under its control. In such a case, the communication connection switching method that enables switching of the communication path between the electronic exchange and the other base station control device includes TIA / EIA, Interim Standard IS 634 ( (1995) Chapter 3 Section 4 (TIA / EIA Interim Standard, IS-634).
[0008]
That is, in the conventional technology, the communication path switching is performed without causing or suppressing communication quality deterioration such as instantaneous interruption, noise, and data loss by the method described below. It is carried out.
[0009]
First, a state is assumed in which a communication path including one electronic switch, one switching source base station control device, one communication base station device, and one communication terminal device is configured. Here, the communication base station apparatus is a switching apparatus (selecter / Distributer Unit, SDU) that selects a signal having the best end and quality, and a communication data code that performs encoding and restoration (encoding) of communication data. Built-in device.
[0010]
In this state, when the communication terminal device moves between adjacent cells, the communication path with the switching destination base station control device under the control of another communication base station device that is different from the communication base station device in communication is connected to the electronic exchange. Via the switching source base station controller. At this time, in the newly configured switching destination base station control device on the communication path, the internal SDU and the communication data encoding device are not operating, and the signal simply passes through the bypass circuit. Further, in the electronic exchange, the signal on the communication path is simply passed by simply returning the communication path from the switching source base station control device to the switching destination base station control device.
[0011]
On the other hand, the newly established communication path signal terminates the original communication path signal and the new communication path signal in the SDU of the switching source base station controller, and from among these signal paths. The one having the best quality is selected, and the communication data is restored by the internal communication data encoding device.
[0012]
Further, when the communication terminal apparatus moves between adjacent cells, the original communication path between the communication terminal apparatus, the communication base station apparatus, and the base station control apparatus is cut off, while the switching destination base station control apparatus The communication data line is configured through the switching source base station control device, the electronic exchange, and the switching destination base station control device by activating the internal communication data encoding device. At this time, the transmission / reception signal of the configured communication path is not subjected to signal processing in the communication data encoding device in the switching source base station control device, but simply passes through the bypass circuit. Finally, the electronic exchange switches the communication line from the switching source base station control device to the switching destination base station control device.
[0013]
[Problems to be solved by the invention]
In general, when a communication terminal apparatus moves between wireless zones, the communication terminal may form a communication path with two or more base station control apparatuses other than the switching source. In this case, there are also two or more communication paths from the base station controller that can be the switching destination to the switching source base station controller, and as a result, one of the two or more communication paths is finally selected. Need to be switched.
[0014]
However, conventionally, a selection method in such a case is not disclosed. For example, in a switching source base station control apparatus having a plurality of communication paths from two or more base station control apparatuses, communication connection switching is not performed. Even if a request occurs, in principle, the switching source base station control device cannot switch. In addition, conventionally, there has been a problem that a large number of communication line resources between the base station controller and the electronic exchange are used more than necessary for switching the communication path.
[0015]
In the present invention, for example, when there are a plurality of communication paths between a certain communication terminal apparatus and a communication base station apparatus and a plurality of base station control apparatuses are involved in communication, a communication path via an electronic exchange is not provided. An object of the present invention is to realize communication switching that suppresses deterioration of communication quality such as instantaneous interruption, noise, and data loss by using a communication line set between base station control devices. The present invention also relates to a communication connection switching method and a communication connection switching device that effectively use communication resources such as a communication line connected to the base station control device and a communication device including the SDU of the base station control device as necessary. The purpose is to provide.
[0016]
[Means for Solving the Problems]
In the conventional system as described above, switching of the base station control device is realized using a communication line between the electronic exchange and the base station control device. On the other hand, in the present invention, a communication line for connecting the base station control devices is provided, and a system for establishing a communication path without using an electronic exchange is adopted. In order to achieve the above-described object, in the present invention, for example, there is a communication path between one communication terminal apparatus and a switching source base station control apparatus. When there is a communication path connected to the switching source base station control apparatus via the communication terminal apparatus and another base station control apparatus, these communication path switching is performed.
[0017]
In this case, before the request for switching the communication connection is generated from the switching source base station control device, the switching destination base station control device side selects in advance the termination of a plurality of transmission / reception signals with the communication terminal device and the one with the best quality. And terminates a plurality of communication paths between the communication terminal apparatus and another base station control apparatus that is not the switching destination. As a result, the communication path from the electronic exchange to the communication terminal apparatus is switched from the communication path from the electronic exchange to the switching source base station control apparatus and the communication base station apparatus under the switching from the electronic exchange to the switching source base station control apparatus. It is possible to switch to the communication path via the destination base station control device and the communication base stations under its control. As a result, the communication path between the switching source base station control device and the electronic exchange, the communication resources between the switching source base station control device and the switching destination base station control device, and the like are saved.
[0018]
According to the first solution of the present invention,
In a mobile communication facility comprising a plurality of communication base station devices that cover a plurality of adjacent radio zones, a base station control device that controls the communication base station device, and an electronic exchange that houses the base station control device A communication connection switching method,
In the first state,
A main signal path is formed between the electronic exchange and the first base station controller,
A first sub-signal path is formed between the first base station control device and the first communication base station device,
A first wireless communication path is formed between the first communication base station device and the communication terminal device,
In the second state,
A second wireless communication path is further formed between the communication terminal device and the second communication base station device,
A second sub-signal path is formed between the first base station control device and the second base station control device having the second communication base station device under its control,
The first base station controller multiplexly connects the first and second sub signal paths with the main signal path,
In the third state,
In the first base station controller, when the signal of the second sub-signal path is selected by comparing the signals of the first and second sub-signal paths,
The first base station control device provides a communication connection switching method in which the first sub signal path is disconnected and the second sub signal path is connected to the main signal path.
[0019]
Further, according to the communication connection switching method of the present invention,
When the communication terminal device is also located in the radio zone of the third communication base station device controlled by the third base station control device,
A third sub-signal path is further formed between the second base station controller and the third base station controller;
A signal is transmitted to the electronic exchange through the first communication base station device under the control of the first base station control device and the first sub signal path, or the second base station control device A signal is transmitted to the electronic exchange via the first base station control device via the second communication base station device under control and the second sub-signal path, or the third base station control device A signal is transmitted to the electronic exchange via the first and second base station control devices by the third communication base station device under the control of the second communication device and the second and third sub signal paths. .
[0020]
According to the second solution of the present invention,
A communication base station apparatus connection unit that terminates a signal from a communication base station apparatus and connects and disconnects a communication path;
Create a communication path connection request and a communication path disconnection request with the communication base station apparatus, a communication base station apparatus connection control unit connected to the communication base station apparatus connection unit,
Terminating signals from other base station control devices, and connecting and disconnecting communication paths, base station control device connection units,
A communication channel connection request and a communication channel disconnection request with another base station control device are created, and a base station control device connection control unit connected to the base station control device connection unit;
With
When a communication terminal device moves to an adjacent wireless zone,
The communication base station apparatus connection unit receives a first communication path connection request signal for connection switching from a communication base station apparatus under its control, and transmits the signal to the communication base station apparatus connection control unit,
In response to the first communication channel connection request, the base station control device connection control unit transmits a second communication channel connection request to another base station control device via the base station control device connection unit. , Completing the connection of the second sub-signal path with the other base station controller,
The base station control device connection unit receives a first communication channel connection request response indicating that a communication channel with a subordinate communication base station device is connected from the other base station control device,
The communication base station connection control unit creates a second communication channel connection request response in response to the first communication channel connection request response, and the communication base station under its control via the communication base station connection unit Provided is a communication connection switching device configured to transmit to a device.
[0021]
According to the third solution of the present invention,
A communication base station apparatus connection unit that terminates a signal from a communication base station apparatus and connects and disconnects a communication path;
Create a communication path connection request and a communication path disconnection request with the communication base station apparatus, a communication base station apparatus connection control unit connected to the communication base station apparatus connection unit,
Terminating signals from other base station control devices, and connecting and disconnecting communication paths, base station control device connection units,
A communication channel connection request and a communication channel disconnection request with another base station control device are created, and a base station control device connection control unit connected to the base station control device connection unit;
With
When the communication terminal device moves to its own wireless zone,
The base station controller connection unit receives a second communication path connection request from another base station controller, and transmits the second communication path connection request to the base station controller connection controller.
The communication base device connection control unit controls the communication base station device connection unit to connect a communication path with a communication base station device under its control,
The base station control device connection control unit transmits a first communication channel connection request response indicating that a communication channel with a communication base station device under its control is connected via the base station control device connection unit. Provided is a communication connection switching device.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Examples of the present invention will be described below.
[0023]
(1) First communication switching state (when two base station controllers are involved)
FIG. 1 shows an explanatory diagram of a first communication switching state (part 1) according to the present invention. FIG. 1A shows a system block diagram in that state.
[0024]
Here, the communication terminal apparatus 11 is in the wireless zone Z1 provided by the communication base station apparatus 8, and the wireless communication path 14 is established. In this case, a sub signal path 17 is established between the communication base station apparatus 8 and the base station control apparatus 2.
[0025]
The communication terminal device 11 is connected to the electronic exchange 1 via the wireless communication path 14, the communication base station apparatus 8, the sub signal path 17, the base station control apparatus 2, and the main signal path 15. In the base station control device 2, the communication data encoding device 4 and the SDU 5 are operating.
[0026]
In the following description, a thick signal path indicates a signal path through which an encoded signal flows. This signal is a digital signal that is encoded and decoded by the communication data encoding device, and is a signal that is mainly processed in the electronic exchange 1. The signal path of the normal line is a signal path through which such an unencoded signal flows, and is a signal mainly processed in the communication terminal apparatus and the communication base station apparatus.
[0027]
FIG. 1B illustrates an example of an explanatory diagram of the movement of the communication terminal device and the wireless zone.
[0028]
The radio zones Z1, Z2, and Z3 indicate examples of communication ranges of the communication base station apparatuses 8, 9, and 10, respectively. The communication base station device 8 is under the base station control device 2, and the communication base station devices 9 and 10 are under the base station control device 3. The base station control devices 2 and 3 are accommodated in the electronic exchange 1 and include communication data encoding devices 4 and 6 and SDUs 5 and 7, respectively.
[0029]
In the state of FIG. 1A, the communication terminal device 11 is in the area Z1 as shown in FIG.
[0030]
Next, FIG. 2 shows an explanatory diagram of the first communication switching state (part 2) according to the present invention. FIG. 2A shows a system block diagram in that state.
[0031]
Here, as shown in FIG. 2B, a case where the communication terminal apparatus 11 is in an area where the wireless zone Z1 and the wireless zone Z2 overlap is shown. For example, such a state occurs while the communication terminal device 11 is moving from the wireless zone Z1 provided by the communication base station device 8 to the wireless zone Z2 provided by the communication base station device 9. That is, in FIG. 2A, the sub signal path 17 is established between the communication base station apparatus 8 and the base station control apparatus 2, and the sub signal path is connected between the communication base station apparatus 9 and the base station control apparatus 3. 18 shows a case where the sub signal path 16 is established between the base station controller 2 and the base station controller 3.
[0032]
FIG. 3 shows a flowchart in the switching source base station control apparatus when a communicating base station control apparatus is added. FIG. 4 shows a flowchart in the switching destination base station control apparatus when a communicating base station control apparatus is added. FIG. 5 shows a sequence diagram when a communicating base station control device is added. Below, it demonstrates according to these figures.
[0033]
When the communication terminal apparatus 11 moves between adjacent cells in this way, the communication terminal apparatus 11 also receives a radio signal from the communication base station apparatus 9, and accordingly, the radio communication path 13 is formed. The request information (first communication path connection request) for the communication base station apparatus 9 to be connected to the base station control apparatus 3 using the sub signal path 18 by newly forming the wireless communication path 13 is: The base station control apparatus 2 receives the data via the communication base station apparatus 8 currently communicating (100). When the base station control device 2 determines that the communication base station device 9 to be connected is under the control of another base station control device (in this case, the base station control device 3) (101), A communication channel connection request (second communication channel connection request) is made to the station control device 3 (102).
[0034]
The base station control device 3 receives this second communication path connection request (200). Further, since the currently connected communication path is the first one (201), the communication base station apparatus 9 is connected by the sub signal path 18 (203). Thereafter, the base station control device 3 returns a first communication path connection request response to the base station control device 2 (204). Each control signal such as a communication path connection request and a connection request response can be transmitted, for example, by a control line, a control time slot, or the like that connects the base station control devices to each other.
[0035]
The base station controller 2 receives the first communication path connection request response (103), and determines that there are two or more connected sub signal paths (here, the sub signal paths 16 and 17 as an example). (104). Then, the base station controller 2 terminates the sub signal path 16 and the sub signal path 17 etc. so as to be double-connected or multiple-connected, and the code error rate from the sub signal path 16 and the sub signal path 17 etc. Then, the SDU 5 is activated in order to select the best one by the selection method based on comparison of communication quality such as noise and distortion rate (105). If the sub signal path 16 between the base station controllers 2 and 3 has not yet been established (106), the sub signal path 16 is connected (107). When the connection of the sub signal path 16 is completed, the base station control apparatus 2 returns a second communication path connection request response to the communication base station apparatus 8 (108).
[0036]
FIG. 6 is an explanatory diagram of the first communication switching state (part 3) according to the present invention. FIG. 6A shows a system block diagram in this state. This figure shows a state in which the communication terminal apparatus 11 has further moved as shown in FIG. That is, this is a case where the communication terminal apparatus 11 is located in an area where the radio zones Z1, Z2, and Z3 provided by each of the communication base station apparatuses 8, 9, and 10 overlap. In this state, the sub signal path 17 between the communication base station apparatus 8 and the base station control apparatus 2, the sub signal path 18 between the communication base station apparatus 9 and the base station control apparatus 3, the communication base station 10 and the base station A case where the sub signal path 19 between the station control device 3 and the sub signal path 16 between the base station control device 2 and the base station control device 3 is established is shown.
[0037]
When the communication terminal apparatus 11 moves between adjacent cells in this way, the communication terminal apparatus 11 also receives a radio signal from the communication base station apparatus 10, and accordingly, the radio communication path 12 is formed. Because the wireless communication path 12 is newly formed, the first communication path connection request for the communication base station apparatus 10 to connect to the base station control apparatus 3 using the sub signal path 19 is the communication currently being communicated. The base station control device 2 receives the signal via the base station device 8 (100). When the base station controller 2 determines that the communication base station 10 to be connected is under another base station controller (in this case, the base station controller 3) (101), the base station controller 3 A second communication path connection request for adding a communication base station apparatus is transmitted to (102).
[0038]
The base station control device 3 receives this second communication path connection request (200), and the number of connected communication base station devices under its own device is two or more (in this case, the communication base station devices 9 and 10 as an example) ) (201). Then, the base station controller 3 terminates the sub-signal path 19 and the sub-signal path 18 etc. so as to be double-connected or multiple-connected, and from the communication path 18 and the communication path 19, the code error rate, noise, In order to select the best one by the selection method based on comparison of communication quality such as distortion rate, the SDU 7 is activated (202). Then, the selected signal is transmitted using the sub signal path 16 between the base station control device 3 and the base station control device 2 without going through the communication data encoding device 6. Thereafter, the communication base station apparatus 10 and the communication terminal apparatus 11 are connected by the wireless communication path 12 (203), and a first communication path connection request response is returned to the base station control apparatus 2 (204).
[0039]
On the other hand, the base station control device 2 further improves the quality of the signal from the communication terminal device 11 under its control and the signal transmitted through the sub-signal path 16 by the SDU 5 by the signal termination and the same selection method as before. After selecting the best one, it is transmitted to the electronic exchange 1 using the main signal path 15 via the communication data encoding device 4.
[0040]
FIG. 7 is an explanatory diagram showing the first communication switching state (part 4) according to the present invention. FIG. 7A shows a system block diagram in that state. Here, as shown in FIG. 7B, for example, the communication terminal device 11 is moved out of the base station control device 2 due to further movement, and each of the communication base station devices 9 and 10 This is a case where the wireless zones Z2 and Z3 provided by are located in overlapping areas.
[0041]
FIG. 8 shows a flowchart of the switching source base station control apparatus in the case of communication path switching. FIG. 9 shows a flowchart of the switching destination base station control apparatus in the case of communication path switching. FIG. 10 shows a sequence diagram when the communication base station apparatus is disconnected.
[0042]
In the switching source base station control device, when a communication path disconnection request is received from the communication base station device or the base station control device, a communication channel (sub signal) other than the requesting communication base station device or base station control device Check if there is a road). When there is no communication path (sub signal path) during communication, SDU stop processing is performed. Hereinafter, as illustrated in FIG. 7, the communication terminal apparatus 11 moves to an area where the wireless zones Z2 and Z3 provided by each of the communication base station apparatuses 9 and 10 overlap, so that the switching source base station control apparatus The case where it is going to cut | disconnect the communication path 17 between 2 and the communication base station apparatus 8 is demonstrated.
[0043]
First, the switching source base station control device 2 receives a communication path disconnection request from the communication terminal device 11 via the communication base station device 8 (300), and is communicating with others under the switching source base station control device 2 If it is determined that there is no communication path (301), a communication path switching request is transmitted to the switching destination base station controller 3 (302).
[0044]
The switching destination base station control device 3 receives this communication path switching request (400). Thereafter, the switching source base station device takes over the currently connected channel information (401), and returns a channel switching request response to the switching source base station controller 2 (402). The switching source base station controller 2 receives this communication path switching request response (303), and then stops the SDU 5 (304). When it is determined that the main signal path 15 with the electronic exchange 1 is formed (305), the sub signal path 17 with the communication base station apparatus 8 is disconnected (307), and the communication base station apparatus 8 A communication path disconnection request response is returned to 308 (308). The switching source base station control device 2 can effectively use the SDU resource, the communication line with the communication base station device, the communication line with the base station control device 3 and the like by stopping the SDU 5.
[0045]
(2) Second communication switching state (when there are three or more base station controllers)
In the first communication switching state, the communication switching method when there are two base station controllers has been described. The present invention is not limited to this, and the technical idea can be applied even when three or more base station control apparatuses are involved in switching. The present invention can be similarly applied when more than three base station controllers are connected. A case where communication paths are established between the three base station control devices will be described below.
[0046]
FIG. 11 is an explanatory diagram of the second communication switching state (part 1) according to the present invention. FIG. 11A shows a system block diagram in that state. As shown in FIG. 11B, the wireless zones Z1, Z2 and Z3, Z4 and Z5 show examples of the communication ranges of the communication base station apparatuses 8, 9 and 10, 26 and 27, respectively. Actually, in addition to the size, shape, setting, and arrangement of wireless zones, there are multiple wireless zones in this way due to the effects of buildings, bridges, steel towers, and other natural terrain. May overlap. The communication base station device 8 is under the control of the base station control device 2, the communication base station devices 9 and 10 are under the control (under control) of the base station control device 3, and the communication base station devices 26 and 27 are base stations. It is under the control device 21. The base station control devices 2 and 3 and 21 include data encoding devices 4 and 6 and 22 and SDUs 5 and 7 and 23, respectively.
[0047]
In the state of FIG. 11A, the communication terminal apparatus 11 is an area where the wireless zones Z1, Z2, and Z3 provided by each of the communication base station apparatuses 8, 9, and 10 overlap as shown in FIG. This is the case. In this state, the sub signal path 17 between the communication base station apparatus 8 and the base station control apparatus 2, the sub signal path 18 between the communication base station apparatus 9 and the base station control apparatus 3, the communication base station 10 and the base station A case where the sub signal path 19 between the station control apparatus 3 and the base station control apparatus 3 is established and the sub signal path 30 between the base station control apparatus 2 and the base station control apparatus 3 is established is shown. The operation relating to this state is the same as that shown in FIG.
[0048]
Next, FIG. 12 shows an explanatory diagram of the second communication switching state (part 2) according to the present invention. FIG. 12A shows a system block diagram in that state. As shown in FIG. 12B, in this state, the communication terminal apparatus 11 is provided with the wireless zones Z1, Z2, Z3, Z4, and Z5 provided by the communication base station apparatuses 8, 9, 10, 25, and 26, respectively. In the overlapping area.
[0049]
In this case, in addition to the state of FIG. 11, the sub-signal path 24 between the communication base station apparatus 26 and the base station control apparatus 21 and the communication base station 27 and the base station control apparatus 21 are further connected. The sub signal paths 25 are established, and further, the sub signal path 16 between the base station control device 3 and the base station control device 21 is established.
[0050]
In the second communication switching state, in each flowchart, the base station control device 2 operates as a switching source with respect to the base station control device 3, and the base station control device 3 switches with respect to the base station control device 2. Works as. Further, the base station control device 3 operates as a switching source for the base station control device 21, and the base station control device 21 operates as a switching destination for the base station control device 3.
[0051]
When the communication terminal apparatus 11 moves between adjacent cells in this way, the communication terminal apparatus 11 also receives radio signals from the communication base station apparatuses 26 and 27, so that the radio communication paths 29 and 28 are correspondingly transmitted. It is formed. Request information (first communication path) for the base station control device 21 to connect to the communication base station devices 26 and 27 using the sub signal paths 24 and 25 by newly forming the wireless communication paths 29 and 29. The connection request is received by the base station control device 21 from the communication terminal device 11 via the communication base station device 8, 9 or 10 currently communicating (100). When the base station control device 3 determines that the communication base station devices 26 and 27 to be connected are under the control of another base station control device (in this case, the base station control device 21) (101), A second communication path connection request is made to the base station controller 21 (102).
[0052]
The base station control device 21 receives this second communication channel connection request (200), and connects to the communication base station devices 26 and 27 through the sub signal channels 24 and 25 (203). Thereafter, the base station control device 21 returns a first communication path connection request response to the base station control device 3 (204).
[0053]
The base station control device 3 receives the first communication path connection request response (103), and determines that there are two or more connected sub signal paths (104). Then, the base station controller 3 terminates the sub-signal path 16 and the sub-signal paths 18, 19 and 30 so as to be double-connected or multiple-connected, and from among the sub-signal paths 18, 19 and 16, etc. In order to select the best one by the selection method based on comparison of communication quality such as error rate, noise and distortion rate, the SDU 7 is started (105). If the sub signal path 16 itself has not been established between the base station controllers 3 and 21 (106), the connection of the sub signal path 16 is completed (107). When the connection of the sub signal path 16 is completed, the base station control apparatus 3 returns a second communication path connection request response to the communication base station apparatuses 9 and 10 (108).
[0054]
Next, FIG. 13 shows an explanatory diagram of the second communication switching state (part 3) according to the present invention. FIG. 13A shows a system block diagram in the state after the switching. As shown in FIG. 13 (B), the communication terminal apparatus 11 moves outside the area of the wireless zone Z1 and is located within the area of the wireless zones Z2 to Z5.
[0055]
In this state, if the sub-signal path 17 between the switching source base station control device 2 and the communication base station device 8 is to be disconnected, one input to the SDU 5 of the base station control device 2 is performed in the same procedure as described above. It is judged that there is, and the SDU 5 is stopped. Then, the sub signal path 30 from the switching destination base station control device 3 is connected to the communication data encoding device 4 by bypassing the SDU 5.
[0056]
Next, FIG. 14 shows an explanatory diagram of the second communication switching state (part 4) according to the present invention. FIG. 14A shows a system block diagram in the state after the switching. As shown in FIG. 14B, the communication terminal apparatus 11 that was in the area of the wireless zones Z2, Z3, Z4, and Z5 has moved to the area of the wireless zones Z4 and Z5.
[0057]
In this case, when the base station control device 3 that is the switching source for the base station control device 21 determines that the main signal path to the electronic exchange 1 is not formed (305), the base station control device that is the switching destination The communication channel loopback connection process 21 is performed (306). That is, the sub-signal path 16 is turned back and connected to the sub-signal path 30 by a base station controller connection unit or SDU 7 described later. Thereafter, the communication switching process can be performed by performing the same procedure as described above. That is, the secondary signal paths 18 and 19 with the communication base station apparatuses 9 and 10 are disconnected (307), and a communication path disconnection request response is returned to the communication base station apparatuses 9 and 10 (308).
[0058]
In such a mobile communication facility, it may be considered that the communication terminal device 11 returns to the once existing wireless zone after moving outside the area of the once existing wireless zone. Even in such a case, reconnection can be performed as appropriate and switching can be performed by the operations shown in the flowcharts and the like described above.
[0059]
In the embodiments described so far, the data encoding device 4 of the base station control device 2 that is the switching source with respect to the base station control device 3 is not switched to the switching destination base station control device 3 or the like. 4 can be appropriately switched to the data encoding device 6 or the like such as the switching destination base station control device 3 or the like. As a result, the main signal path 15 between the electronic exchange 1 and the switching source base station control device 2 can also be switched to the switching destination base station control device 3 or the like.
[0060]
Thus, even when a plurality of sub-signal paths are established between a wireless communication terminal and a plurality of base station control devices, communication is achieved by connecting the base station control devices with a single communication path. Communication connection switching using the line resources effectively is possible, and the SDU resources can be used effectively.
[0061]
As the switching destination base station control device, for example, the base station control device with the largest number of communication devices connected to the base station control device, or the base station control device that started communication most recently, or the communication A base station control device having a communication channel with good quality can be determined. In addition, the communication quality may be compared by sequentially comparing the sub-signal paths connected to the respective base station control devices as described above, or the base station control connecting the electronic exchange and the main signal path. The apparatus may collectively perform the comparison process.
[0062]
(3) Hardware
Next, the configuration of the electronic exchange and the base station controller for realizing the functions described above will be described.
[0063]
FIG. 15 shows a configuration diagram of the electronic exchange. The electronic exchange 1 includes a base station control device connection unit 50, an exchange unit 51, another communication network connection unit 52, a base station control device connection control unit 53, another communication network connection control unit 54, and an overall control unit 55. The overall control unit 55 includes an arithmetic device 56 and a storage device 57. In the figure, a thick line indicates a data communication path, and a thin line indicates a control communication path.
[0064]
FIG. 16 shows a configuration diagram of the base station control apparatus. The base station controller includes an electronic exchange connection unit 60, a communication data encoding device 61, an SDU 62, a communication base station device connection unit 63, an electronic exchange connection control unit 64, an encoding device bypass circuit 65, and a communication base station device connection control unit. 66, an overall control unit 67, a base station control device connection unit 70, an SDU bypass circuit 71, and a base station control device connection control unit 72. The overall control unit 67 includes an arithmetic device 68 and a storage device 69. In the figure, a thick line indicates a data communication path, and a thin line indicates a control communication path. A communication path (network) connecting between adjacent base station control apparatuses is configured by terminating the sub signal paths 16 and 30 and the like at the base station control apparatus connection unit 70.
[0065]
Next, hardware used for signal selection and connection switching will be described.
[0066]
First, according to the control of the overall control unit 56, the electronic switching unit 1 can perform return connection or appropriate line selection connection by the switching unit 51. Information from the communication terminal device 11 and the base station control devices 2, 3 and 21 is extracted by the base station control device connection unit 50 and detected by the base station control device connection control unit 53. On the other hand, information transmitted from the electronic exchange 1 is transmitted to a predetermined base station controller via the base station controller connection unit 50 under the control of the base station controller connection controller 53. Therefore, based on these information, the overall control unit 55 controls the base station control device connection unit 50 by the base station control device connection control unit 53, and also includes the exchange unit 51, the other communication network connection unit 52, and the other communication network. An appropriate connection switching operation can be performed by the connection control unit 53.
[0067]
On the other hand, in the base station control device, the SDU 62 has the following functions, for example. That is, first, signal selection of a designated communication path (sub signal path) is performed. Second, double or multiple connections are made so that signals are transmitted in common between the electronic exchange 1 and the communication base station apparatus and one or more other base station control apparatuses. Thirdly, from the data received from the communication base station, the line quality data such as the code error rate and the electric field strength and the data related to other wireless communication channels (for example, the identification of the base station control device, the information on the number of connections, etc.) are acquired. It is to be. Fourth, an instruction signal is sent to the overall control unit 67 so as to determine and select the best communication line based on the line quality data and the data related to the wireless communication path, and to transmit data to the base station controller. Or to communicate.
[0068]
The communication base station apparatus connection unit 63 terminates the line from the communication base station and connects and disconnects the communication path with the communication base station apparatus under the control of the communication base station apparatus connection control unit 66. The communication base station apparatus connection unit 63 transmits a request / response from the communication base station apparatus to the communication base station apparatus connection control unit 66, and transmits the request / response from the communication base station apparatus connection control unit 66 to the communication base station apparatus. Send.
[0069]
The communication base station apparatus connection control unit 66 creates a communication path connection request / request response, a communication path disconnection request response, etc. with the communication base station in accordance with a command from the arithmetic unit 68 and transmits it to the communication base station apparatus connection unit 63 To do.
[0070]
The base station control device connection unit 70 terminates lines from other base station control devices under the control of the base station control device connection control unit 72. The base station controller connection unit 70 loops back and connects a plurality of communication paths from other connected base station controllers, and connects and disconnects the communication paths with the base station controller. . The base station controller connection unit 70 transmits the request / response from the base station controller control unit 72 to another base station controller, while the request / response from the other base station controller is transmitted to the base station controller. It transmits to the control part 72.
[0071]
The base station control device connection control unit 72 creates a communication channel connection request / request response, a communication channel switching request, etc. with another base station control device in accordance with a command from the arithmetic device 68, and the base station control device connection unit 70. On the other hand, a communication channel connection request, a communication channel disconnection request, etc. from another base station control device transmitted via the base station control device connection unit 70 is received and transmitted to the computing device 68, or a request is received. Is transmitted to the base station controller connection unit 70.
[0072]
The overall control unit 67 performs selection control so that a signal transmitted between the electronic exchange 1 and the communication base station device passes through either the communication data encoding device 61 or the encoding device bypass circuit 65. The overall control unit 67 performs selection control so that a signal transmitted via the communication base station apparatus connection unit 63 or the base station control apparatus connection unit 70 passes through either the SDU 62 or the SDU bypass circuit 71.
[0073]
Various information (for example, connection status information, connection number information, etc.) transmitted from the electronic exchange 1 to the base station controller is appropriately extracted by the electronic exchange connection section 60 according to the control of the electronic exchange connection control section 64. Can be received. On the other hand, various information (for example, connection state information, connection number information, etc.) to the electronic exchange 1 can be appropriately inserted and transmitted. In addition, various information as described above for connection or signals transmitted with the communication terminal device or the communication base station device are directly transmitted to the electronic exchange 1 via the encoding device bypass circuit 65 or the communication data encoding device 61. It can also be transmitted.
[0074]
For example, in the base station controller 2 as shown in FIGS. 6, 11, and 12, the main signal path 15 transmitted with the electronic exchange 1 is the communication data encoder 61 (communication data encoder 4 ) And connected to SDU 62 (SDU 5). Further, by this SDU 62 (SDU 5), the sub-signal path 17 transmitted to the communication base station device 8 via the communication base station device connection unit 63, and the base station control device 3 via the base station control device connection unit 70 The sub signal path 16 (or 30) to be transmitted is multiplex connected. Further, for example, in the base station controller 2 as shown in FIGS. 7, 13 and 14, the main signal path 15 transmitted with the electronic exchange 1 is connected to the communication data encoder 61 (communication data encoder 61). It is connected to the SDU bypass circuit 71 via the device 4) and further connected to the sub-signal path 16 (or 30) transmitted to the base station control device 3 via the base station control device connection unit 70.
[0075]
On the other hand, for example, in the base station control apparatus 3 as shown in FIGS. 6, 7, and 11, the SDU 62 (SDU 7) causes the communication base station apparatuses 9 and 10 to communicate with the communication base station apparatus connection unit 63. The sub-signal paths 18 and 19 to be transmitted and the sub-signal path 16 (or 30) to be transmitted to the base station control apparatus 2 via the base station control apparatus connection unit 70 are multiple-connected. Further, for example, in the base station control device 3 as shown in FIGS. 12 and 13, the SDU 62 (SDU 7) transmits the communication base station devices 9 and 10 via the communication base station device connection unit 63. The sub signal paths 18 and 19 and the sub signal paths 30 and 16 transmitted to the base station control apparatuses 2 and 21 via the base station control apparatus connection unit 70 are multiple-connected. Further, for example, in the base station control device 3 as shown in FIG. 14, the base station control devices 2 and 21 and the sub signal paths 30 and 16 transmitted via the base station control device connection unit 70 are Multiple connections are made by the SDU 62 (SDU 7) or the base station controller connection unit 70.
[0076]
Next, hardware used for managing the number of lines connected to the base station controller (a method for grasping the number of lines) will be described.
[0077]
When the communication terminal apparatus moves to the radio zone of each communication base station apparatus, the communication terminal apparatus transmits and receives signals to and from the communication base station. At that time, the management information such as the connection state and the number of connections of the communication base station device and the base station control device is stored in the switching source base station control device (in particular, the base station control connected to the electronic exchange by the main signal). Device). The management information such as the line state is transmitted to the electronic exchange 1 through the base station control device as described above. Such management information can also be transmitted to a newly connected base station controller.
[0078]
In the switching source base station control device in communication, the connection state of the line is held in the storage device 69, and control necessary for connection switching is performed by the program of the arithmetic device 68. The switching source base station control device in communication is a device that controls communication path switching control, and manages the base station in communication and the number of lines. Therefore, the number of lines used by the communication terminal apparatus currently communicating is always grasped.
[0079]
In the switching destination base station control device, the connection state of the line received from the switching source base station control device is held in the storage device 69, and control necessary for connection switching is performed by the program of the arithmetic device 68. The switching destination base station controller does not know the total number of lines currently communicating with the target communication terminal device, but the connection status is notified when a switching request is received from the switching source base station controller. Is done. Therefore, when connection switching occurs, the number of lines used for the communication terminal device can be grasped.
[0080]
Note that these lines, wireless communication paths, main signal paths, sub-signal paths, and the like can be formed time-divisionally or asynchronously. Furthermore, the period during which the main signal path and the sub signal path are connected is set to the same frequency or the ratio of the sub signal path is less than that of the main signal path in consideration of the use of communication resources and traffic. For example, the frequency may be set appropriately.
[0081]
【The invention's effect】
According to the present invention, as described above, for example, when there are a plurality of communication paths between a certain communication terminal device and a communication base station device, and further, a plurality of base station control devices are involved in communication, the communication is performed via the electronic exchange. By using a communication line set between the base station control devices without providing a communication path, it is possible to realize communication connection switching that suppresses deterioration in communication quality such as instantaneous interruption, noise, and data loss. In addition, according to the present invention, a communication connection switching method and communication connection switching for effectively using communication resources such as a communication line connected to the base station control device and a communication device including the SDU of the base station control device as a necessary minimum Can be provided with the device.
[0082]
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of a first communication switching state (part 1) according to the present invention.
FIG. 2 is an explanatory diagram of a first communication switching state (part 2) according to the present invention.
FIG. 3 is a flowchart in the switching source base station control apparatus when a communicating base station control apparatus is added.
FIG. 4 is a flowchart in the switching destination base station control apparatus when a communicating base station control apparatus is added.
FIG. 5 is a sequence diagram when a communicating base station control device is added.
FIG. 6 is an explanatory diagram of a first communication switching state (part 3) according to the present invention.
FIG. 7 is an explanatory diagram of a first communication switching state (part 4) according to the present invention.
FIG. 8 is a flowchart of the switching source base station control apparatus in the case of communication path switching.
FIG. 9 is a flowchart of the switching destination base station control apparatus in the case of communication path switching.
FIG. 10 is a sequence diagram when a communication base station apparatus is disconnected.
FIG. 11 is an explanatory diagram of a second communication switching state (part 1) according to the present invention.
FIG. 12 is an explanatory diagram of a second communication switching state (part 2) according to the present invention.
FIG. 13 is an explanatory diagram of a second communication switching state (part 3) according to the present invention.
FIG. 14 is an explanatory diagram of a second communication switching state (part 4) according to the present invention.
FIG. 15 is a configuration diagram of an electronic exchange.
FIG. 16 is a configuration diagram of a base station control device.
FIG. 17 is a schematic configuration diagram of a mobile communication facility.
FIG. 18 is an explanatory diagram of a cell concept.
[Explanation of symbols]
1: Electronic switch
2, 3, 21: Base station controller
4, 6, 22: Communication data encoding device
5, 7, 23: SDU
8, 9, 10, 26, 27: Communication base station apparatus
11: Communication terminal device
12-14, 28, 29: Wireless communication path
15: Main signal path
16-20, 24, 25, 30: Sub signal path
50: Base station controller connection part
51: Exchange part
52: Other communication network connection
53: Base station controller connection controller
54: Other communication network connection control unit
55: Whole electronic switch control unit
56: Arithmetic unit
57: Storage device
60: Electronic switch connection
61: Communication data encoding device
62: SDU
63: Communication base station apparatus connection part
64: Electronic switch connection control unit
65: Encoder bypass circuit
66: Communication base station apparatus connection control unit
67: Base station controller overall control unit
68: Arithmetic unit
69: Storage device
70: Base station controller connection part
71: SDU bypass circuit
72: Base station controller connection controller

Claims (4)

A mobile communication facility comprising a plurality of communication base station apparatuses covering a plurality of adjacent areas, a plurality of base station control apparatuses for controlling the communication base station apparatuses, and an electronic exchange accommodating the base station control apparatus A communication connection switching method in
The base station controller and the base station controller under the electronic switch are connected by a main signal path, the base station controllers having adjacent areas are connected by a sub signal path, and the base station controller and the base station The communication base station device under the control of the station control device is connected by the sub signal path, the communication base station device and a communication terminal in the local station area are connected by a radio signal path,
When the communication terminal is in the area of the communication base station device under the control of the first base station control device, the first base station control device sends the first signal from the communication terminal to the communication base station. When receiving a plurality of the first signals from a plurality of the communication base station devices, select the first signal received through a path with good communication quality and select by the encoding device Encoded first signal and transmitted to the electronic exchange via the main signal path,
When the communication terminal moves into the area of the communication base station device under the control of the adjacent second base station control device due to the movement of the communication terminal, the communication terminal controls the communication base under the control of the first base station control device. A connection request with the communication base station device under the control of the second base station control device is transmitted to the first base station control device via the station device, and the first base station control device The connection request is transferred to the second base station controller via the sub signal path, and the second base station controller connects the sub signal path and the first base station controller. A response to the connection request is made, the local station and the communication base station device under its own station are connected, and the second base station control device is connected to the communication base under its own control. receiving a second signal from the communication terminal via station unit When a plurality of the second signals are received from a plurality of the communication base station devices, the second signal received via a path with good communication quality is selected by the switching device of the second base station control device And transmitting the selected second signal to the first base station controller via the sub-signal path,
The first base station control device performs multiple termination of the first signal and the second signal selected by the switching device of the second base station control device, and the first signal and the second signal A communication connection switching method comprising: selecting one of the signals, encoding the selected signal by the encoding device of the first base station control device, and transmitting the encoded signal to the electronic exchange. A mobile communication facility comprising a plurality of communication base station apparatuses covering a plurality of adjacent areas, a plurality of base station control apparatuses for controlling the communication base station apparatuses, and an electronic exchange accommodating the base station control apparatus In the communication connection switching system in
The electronic exchange is connected to the base station control device under its own control through a main signal path, the adjacent base station control devices are connected to each other through a sub signal path, and the base station control device is connected to the base station control device. The communication base station device is connected to the sub signal path, and the communication base station device is connected to a communication terminal in its own area by a radio signal path,
Each of the plurality of base station control devices includes a coding device that performs signal coding, and a switching device that performs signal selection from a plurality of signals at the end of the signal,
When the communication terminal is in the area of the communication base station apparatus under the control of the first base station control apparatus, the first base station control apparatus sends the first signal from the communication terminal to the communication base station When receiving a plurality of the first signals from a plurality of the communication base station devices, the switching device selects the first signal received via a path with good communication quality, A first signal selected by an encoding device is encoded and transmitted to the electronic exchange via the main signal path;
When the communication terminal moves into the area of the communication base station device under the control of the adjacent second base station control device due to the movement of the communication terminal, the communication terminal controls the communication base under the control of the first base station control device. A connection request with the communication base station device under the control of the second base station control device is transmitted to the first base station control device via the station device, and is transmitted to the first base station control device. Then, the connection request is transferred to the second base station control device via the sub signal path, and the second base station control device transmits the sub signal path and the first base station control device. A response to the connection request is made via the network, and the own base station is connected to the communication base station apparatus under its own station, and the second base station controller is connected to the communication under its own substation. receiving a second signal from the communication terminal through the base station apparatus When receiving a plurality of the second signals from a plurality of the communication base station devices, the second signals received by the switching device of the second base station control device via a route with good communication quality. Selecting and transmitting the selected second signal to the first base station controller via the sub-signal path;
Wherein the first base station controller, said second signal multiplexed terminations selected by the first signal and the switching device of the second base station control device, the said first signal second communication connection switching selected by either the switching device of the signal, encoded by the encoding device of the selected signal said first base station control device, and transmits to the electronic exchange system. The communication connection switching system according to claim 2,
When the base station control device receives a signal through the communication base station device under its control and through the base station control device adjacent to the area, the base station control device receives the second signal. If it is the second one, the switching device is activated, the one having the better communication quality is selected from the two received signals, the encoding device encodes the encoded signal, and the encoded signal is the main signal. A communication connection switching system, wherein the transmission is transmitted to the electronic exchange via a route. The communication connection switching system according to claim 2,
When the first base station control device receives a disconnection request for the first signal from the communication base station device under its control and determines that there is no other first signal under communication under its control, the first base station control device When a communication path switching request is transmitted to the second base station control apparatus, and the first base station control apparatus receives a communication path switching request response from the second base station control apparatus, the switching apparatus is stopped. A communication connection switching system.

Images