JP2004260445A - System and method for controlling network equipment, network equipment setting control apparatus, and network equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a network equipment control system capable of achieving plug and play to a plurality of network interfaces. <P>SOLUTION: For the network equipment control system, a network equipment setting control apparatus is provided on a network, network equipment has an inherent address informing means for informing the network equipment setting control apparatus of an inherent address, and the network equipment setting control apparatus comprises a search means for searching for whether there is channel setting information to the inherent address in an address correspondence table, and an automatic configuration setting means for transferring configuration setting information required for setting a channel at a portion to the network equipment to the network equipment. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a network device management system and a method therefor, and more particularly, to a network device management system and a method for realizing a plug and play function of a network device.
[0002]
The present invention also relates to a network control device and a network device used in such a network device management system.
[0003]
[Prior art]
When a device is connected, a PC (personal computer) automatically detects the presence of the device, reads necessary software, and becomes usable. So-called plug-and-play (play immediately after inserting a plug (plug in a code)) Can be used (meaning that it can be used).
[0004]
For example, plug and play of a network device such as a PC is an ARP (ARP: Address Resolution Protocol) in a router (registered trademark) (Ethernet (registered trademark)), a protocol for searching for and confirming a host on the same network. (Referred to as a protocol for performing a conversion from an IP address to a MAC address), and is applied only to Ethernet (registered trademark).
[0005]
Also, when a desired connection device is connected to a network via an adapter, appropriate various setting values to be set to operate the connection device normally on the network are obtained from a server and automatically set. There is also a technique that can reduce a user's individual setting burden on the adapter (for example, see Patent Document 1).
[0006]
[Patent Document 1]
JP 2000-259538 A
[Problems to be solved by the invention]
The plug-and-play function described above is applied only to Ethernet (registered trademark), and has a problem that it cannot be applied when used in combination with a transmission method other than Ethernet (registered trademark) such as ATM.
[0008]
Also, the transmission loss between the router and the network device is not taken into account in the router. Therefore, it cannot be said that the power value transmitted from the router is necessarily optimized.
[0009]
Furthermore, target network devices are limited to terminals such as PCs, and do not support devices such as base stations used in mobile communication or access points used in wireless LANs.
SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and an object of the present invention is to realize a plug-and-play for a plurality of network interfaces and reduce a network device management cost. An object of the present invention is to provide a device management system and a method thereof.
[0010]
Another object of the present invention is to provide a network device setting control device and a network device used in such a network device management system.
[0011]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the present invention provides a network device management system for setting conditions necessary for starting communication of network devices connected to a network, wherein A network device setting control device having line setting means for setting a line for the device, wherein the network device includes a unique address notifying means for notifying the network device setting control device of an address unique to the network device; The line setting means of the setting control device searches for an address correspondence table storing line setting information corresponding to the address unique to the network device and whether a unique address notified from the network device exists in the address correspondence table. Search means to An auto-configuration setting unit for transferring configuration setting information necessary for line setting to the network device to the network device when the address correspondence table does not include the unique address as a result of the search. It is characterized by:
[0012]
Further, in the network device management system according to a second aspect of the present invention, in the network device management system, the address correspondence table holds topology information indicating a connection state of the network device to the network, and the auto-configuration setting means includes: Line setting address generation means for determining a line setting address based on topology information, and a first line for notifying the determined line setting address to the network device newly connected to the network as the configuration setting information And a setting address notifying means.
[0013]
According to a third aspect of the present invention, in the network device management system, the address correspondence table holds topology information indicating a connection state of the network device to the network, and can be assigned based on the topology information. Line setting address storage means for obtaining and storing a line setting address, wherein the auto-configuration setting means determines a line setting address that can be assigned from the line setting address storage means, and stores the determined line setting address in the configuration. A second line setting address notifying unit for notifying network devices newly connected to the network as application setting information is provided.
[0014]
Further, in the network device management system according to the present invention, the auto-configuration setting means may notify the network device before notifying a network device of a line setting address to a network device newly connected to the network. Authentication means for performing the authentication of
[0015]
The network device management system according to claim 5, wherein the network device notifies the network device setting control device of connection information indicating a connection / disconnection state with the network. The network device setting control device, when receiving the information indicating the connection status from the network device, a unique address notification requesting means for requesting a notification of a unique address to the network device, from the network device When receiving the information indicating the non-connection state, the apparatus further comprises a data deletion unit for deleting the line setting information corresponding to the network device from the address correspondence table.
[0016]
According to a sixth aspect of the present invention, in the network device management system, the network device setting control device is newly connected by the first line setting address notifying unit or the second line setting address notifying unit. After notifying a line setting address to the network device, the network device includes a test signal transmitting unit that transmits a test signal to the network device, wherein the network device measures a reception signal level of the test signal and controls the network device setting. A first reception level measuring / notifying unit for notifying the device, the network device setting control device detects a transmission loss of a transmission path from the network device setting control device to the network device based on the received signal level. Transmission loss estimating means for estimating, and the network considering the transmission loss. It is characterized in that a first transmission power setting means for setting the transmission power of the click device.
[0017]
According to a seventh aspect of the present invention, in the network equipment management system, the network equipment setting control device sends a test signal from another network equipment already connected to the network to a newly connected network equipment. The network device further includes a second reception level measurement / notification unit that measures a reception signal level of the test signal and notifies the network device setting controller of the test signal. The setting control device, based on the received signal level, an interference power estimating means for estimating interference power from the other network device, and setting a second transmission power of the network device in consideration of the interference power Transmission power setting means, and the network in consideration of the transmission loss and the interference power. It is characterized by further comprising a third transmission power setting means for setting the transmission power of the vessel.
[0018]
According to the present invention, if the unique address notified from the network device connected to the network is not in the address correspondence table held in advance, the network device setting control device determines that the network device is a new NE. I do. Then, a new line setting address is automatically generated and notified to the network device. As a result, it is possible to automatically complete the line setting of the newly installed network device without performing the line setting operation that has been performed manually. That is, plug-and-play for the newly installed network device becomes possible, and the management cost of the network device can be greatly reduced.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0020]
FIG. 1 is a configuration diagram of a network device management system according to an embodiment of the present invention.
[0021]
In FIG. 1, the network device management system includes wireless systems A100 to C300 each including a network device (eg, a base station, an access point, etc.) for performing wireless communication with a user terminal (eg, a mobile terminal, hereinafter abbreviated as a terminal). And an automatic setting / deleting device 10 for managing the connection status of the network device (hereinafter abbreviated as NE (Network Equipment)).
[0022]
The automatic setting / deletion device 10 includes an address correspondence table 15 for storing line setting information for each NE. The wireless systems A100, B200, and C300 are wireless systems having different wireless transmission schemes. For example, a wireless system that employs a WCDMA (Wideband Code Division Multiple Access) scheme based on the IMT-2000 standard is referred to as a wireless system A100. A wireless system adopting the HSDPA (High Speed Downlink Packet Access) system, which is an extended version of the WCDMA system, as a wireless system B200, and a wireless system adopting a wireless LAN system conforming to the IEEE 802.11 standard as a wireless system C300; In this example, it is defined.
[0023]
Thus, the wireless systems A to C are different wireless systems. Normally, terminals belonging to different wireless systems cannot communicate with each other without going through a router. In this example, it is assumed that the automatic setting / deleting device 10 is built in a router, and that the route setting in the case of communication between terminals across a wireless system is also performed by this router.
[0024]
The wireless system A100 includes NEs 101 to 103, the wireless system B200 includes NEs 201 to 203, and the wireless system C300 includes NEs 301 to 302. The NE 303 of the wireless system C300 is a newly installed NE that is newly connected to the network (dotted line).
[0025]
In each of the wireless systems A100 to C300, a subnet mask for finding out to which wireless system A100 to C300 the terminal belongs, that is, a network prefix ([255.255.255.0] to [255.255.255. 3]).
[0026]
The automatic setting / deleting device is configured, for example, as shown in FIG. FIG. 2 is a functional configuration diagram of the automatic setting / deleting device 10.
[0027]
In FIG. 1, the automatic setting / deleting device 10 includes a line interface (I / F) function 11 for the NE, a network interface (I / F) function 12 for the network side, and an address correspondence table 15.
[0028]
Next, the NE will be described. Hereinafter, a description will be given of a newly installed NE 303 accommodated in the wireless system C300 as an example.
[0029]
The NE 303 is configured, for example, as shown in FIG. FIG. 3 is a functional configuration diagram of the NE 303.
[0030]
In the figure, the NE 303 has an interface (I / F) function 21 for the terminal and a line interface (I / F) 22 function for the automatic setting / deletion device 10.
[0031]
The operation of the network device management system configured as described above will be described with reference to FIG. FIG. 4 is a sequence diagram in a case where the automatic setting / deleting device 10 sets a line for the new NE 303.
[0032]
In the figure, when the new NE 303 is first connected to the network (the cable of the NE is connected to the network), the new NE 303 automatically detects the connection to the network and automatically sets its own unique address. 10 is notified (S1). This unique address is a unique ID for uniquely identifying itself, and is, for example, a serial number or a number assigned in advance by a business operator or the like. Upon receiving the unique address notified from the new NE 303, the automatic setting / deleting device 10 refers to the address correspondence table 15 and searches whether the unique address of the new NE 303 is present in the address correspondence table 15 (S2). I do.
[0033]
FIG. 5 is a diagram showing an example of the structure of the address correspondence table 15. In each NE (NE # 1 to NE # n), a field of "unique address", "interface number", and "line number" is provided. And that information is described using a topology structure,
Is held.
[0034]
The automatic setting / deleting device 10 searches the “unique address” field of the address correspondence table 15 and, if the unique address is in the “unique address” field of the address correspondence table 15, ends the processing as it is (not a new NE). Is considered). On the other hand, if the unique address is not in the “unique address” field of the address correspondence table 15, an authentication request to the new NE 303 is notified (S3). In the new NE 303, authentication is performed according to a predetermined authentication algorithm, and the result of the authentication is notified to the automatic setting / deleting device 10 as an authentication response (S4). After confirming the validity of the new NE 303 from the authentication response, the automatic setting / deleting device 10 uses the topology information included in the address correspondence table 15 with a new line setting address required for line setting with the new NE 303. Then, the generated line setting address is given to the new NE 303 (S5) and notified (S6). At this time, the automatic setting / deleting device 10 performs a new line bridge setting for its own network interface function 12.
[0035]
FIG. 6 is a diagram illustrating an example of automatic line setting address assignment and bridge setting in the automatic setting / deletion device 10 when the line interface function 22 of the new NE 303 is an ATM transmission line interface.
[0036]
Upon receiving the unique address from the new NE 303, the automatic setting / deleting device 10 automatically sets the address content of the layer 2 (data link layer) to the new NE 303 (see (1) below).
[0037]
In ATM transmission, an IP packet is cellized using AAL5 and transferred through a virtual connection of a permanent connection (PVC). Therefore, the content of the set layer 2 address is, for example,
(1) Layer 2 address content AAL5 setting PVC setting VPI = 0
VCI = 1
It becomes.
[0038]
At this time, the automatic setting / deleting device 10 automatically sets its own bridge setting (see (2) below).
[0039]
(2) Automatic bridge setting content VPI = 0
VCI = 1
The network interface function 12 includes, for example,
IP address: 10.100.88.1
Network prefix: 255.255.255.248
MAC address: 00.00.0 c. 83.6.80
Is set.
[0040]
The new NE 303 holds the line setting address notified from the automatic setting / deleting device 10 as described above (S7), and then transmits a response (ACK) indicating the completion of the holding to the automatic setting / deleting device 10 (S8). I do. Then, when the ACK is received by the automatic setting / deleting device 10, communication with the new NE 303 is started (S9).
[0041]
In the above-described embodiment, the case where the transmission line interface of the new NE 303 accommodated in the automatic setting / deletion device 10 is an ATM has been described as an example. However, even if the transmission line interface differs for each wireless system (a plurality of transmission lines The interface (when there is STM, Ethernet (registered trademark) in addition to ATM), the unique address, interface number, and line number accommodated in the automatic setting / deleting device 10 in the address correspondence table 15 are collectively managed. Automatic line setting for the NE is possible for each transmission line interface.
[0042]
As described above, according to the present embodiment, if the unique address notified from the NE connected to the network is not in the address correspondence table held in advance, the automatic setting / deleting device 10 sets the NE to a newly installed NE. It is determined as NE. Then, a new line setting address is automatically generated and notified to the NE. As a result, it is possible to automatically complete the line setting of the new NE without performing the line setting operation that has been performed manually. That is, plug-and-play for the newly installed NE becomes possible, and the management cost of the network device can be significantly reduced.
[0043]
In the above embodiment, the unique address is notified to the automatic setting / deleting device 10 when the new NE 303 is connected to the network. However, it is detected that the new NE 303 is connected to the network. At this point, the detection result may be once notified to the automatic setting / deleting device 10, and a request for a unique address may be issued from the automatic setting / deleting device 10.
[0044]
Further, in the above embodiment, when the new NE 303 is connected to the network, the automatic setting / deleting device 10 automatically assigns a line setting address to the NE to start communication. When an NE already connected to the network is disconnected from the network, a notification of non-connection information indicating that the NE has been disconnected from the network is sent from the NE to the automatic setting / deletion device 10. When detecting the non-connection information notification, the automatic setting / deleting device 10 deletes the line setting information related to the NE from the address correspondence table 15. As a result, the operation of deleting the line setting information, which has conventionally been performed manually, is automatically performed, so that the management cost of the network device can be reduced.
[0045]
In the above embodiment, the line setting address to be assigned to the new NE 303 is determined based on the topology information held in the address correspondence table. However, the present invention is not limited to this. For example, the address correspondence table may obtain and store a line setting address that can be assigned in advance based on the topology information, and read the line setting address from the automatic setting / deleting device 10.
[0046]
When the line setting for the new NE 303 is completed as described above, the automatic setting / deleting device 10 automatically sets the transmission power value for the terminal interface function 21 of the new NE 303. This automatic setting process of the transmission power value is performed, for example, according to the sequence shown in FIG.
[0047]
(Transmission power value setting of new NE303)
In FIG. 7, the automatic setting / deletion device 10 simultaneously transmits a burst test signal (S11) to each of the communicating NEs (excluding the NE newly connected to the network) (the destination address is the NE). Terminal interface (however, even if the terminal does not exist, the NE uses a broadcast channel or the like that can be transmitted to the terminal interface). Each of the communicating NE devices transmits a test signal from the automatic setting / deleting device 10 to the new NE 303 using a broadcast channel or the like (S12). The new NE 303 notifies the automatic setting / deleting device 10 of the received power value A (total value from each NE) of the test signal transmitted from each NE (S13). Upon receiving the notification of the received power value A from the new NE 303, the automatic setting / deleting device 10 holds the received power value A (S14), and transmits a test signal to the new NE 303 again (S15). At that time, the transmission power value B of the test signal transmitted by itself is held (S16). The new NE 303 notifies the automatic setting / deletion device 10 of the received power value C of the received test signal (S17).
[0048]
The automatic setting / deleting device 10 holds the received power value C notified from the new NE 303 (S18), and based on the received power value A, the transmitted power value B, and the received power value C, the terminal interface of the new NE 303. If the new NE 303 is a base station, the transmission power transmitted from the antenna of the base station is calculated (S19). Specifically, it is calculated as follows.
[0049]
(Calculation procedure 1)
First, the transmission loss between the new NE 303 and the automatic setting / deletion device 10 is calculated from the transmission power value B-the reception power value C.
[0050]
(Calculation procedure 2)
Since the received power value A can be regarded as interference power from another NE, assuming that CIR (Carrier-Interference power Ratio: signal power to interference power ratio) is D, the desired transmission power value E of the new NE 303 is given by the following equation (1). Is calculated by
[0051]
E = A × D + BC (1)
After completing the calculation of the desired transmission power value E of the new NE 303 according to the above equation (1), the automatic setting / deletion device 10 notifies the new NE 303 of the calculation result (S20), and sets the transmission power to the new NE 303. Let them do it.
[0052]
As described above, according to the present embodiment, the automatic setting / deleting device 10 adjusts the transmission power of the new NE 303 while considering the transmission loss between the new NE 303 and itself and the interference power that the new NE 303 receives. decide. As a result, the transmission power setting of the NE after the line setting, which has conventionally been manually performed, can be performed more accurately and automatically.
[0053]
Further, in the above embodiment, the automatic setting / deletion device 10 is built in the access router, but the present invention is not limited to this. For example, the automatic setting / deletion device 10 may be configured as a server and provided at an arbitrary node on a network.
[0054]
As described above, according to the present embodiment, by providing the automatic setting / deleting device 10 on the network, the line setting or the deletion of the line setting information for the new NE which has been performed by the conventional manual operation is performed. The work is automated and the cost of manual work can be reduced.
[0055]
In the above example, the network device setting control device according to claim 1 corresponds to the automatic setting / deleting device 10. The functions of the automatic setting / deleting device 10 are line setting means, searching means, auto configuration setting means, line setting address generating means, first line setting address notifying means, second line setting address notifying means, unique address notification request. Means, data deletion means, test signal transmission means, transmission loss estimation means, test signal transmission instructing means, interference power estimation means, and first to third transmission power setting means. Further, the address correspondence table 15 of the automatic setting / deletion device 10 corresponds to the address correspondence table, and the function of the address correspondence table 15 corresponds to the line setting address generation means. Further, the function of the NE corresponds to a unique address notifying unit, a connection state information notifying unit, a first receiving level measuring / notifying unit, and a second receiving level measuring / notifying unit.
[0056]
【The invention's effect】
As described above, according to the present invention, if the unique address notified from the NE connected to the network is not in the address correspondence table held in advance, the automatic setting / deleting device newly installs the NE. Is determined as NE. Then, a new line setting address is automatically generated and notified to the NE. As a result, it is possible to automatically complete the line setting of the new NE without performing the line setting operation that has been performed manually. In other words, plug-and-play for the newly installed NE becomes possible, and the management cost of the network device can be greatly reduced.
[0057]
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a network device management system according to an embodiment of the present invention.
FIG. 2 is a functional configuration diagram of the automatic setting / deletion device shown in FIG.
FIG. 3 is a functional configuration diagram of the NE shown in FIG. 1;
FIG. 4 is a sequence diagram in a case where the automatic setting / deleting device sets a line for a new NE.
FIG. 5 is a diagram illustrating an example of the structure of an address correspondence table.
FIG. 6 is a diagram illustrating an example of automatic line setting address assignment and bridge setting in the automatic setting / deletion device when the line interface function on the new NE side is an ATM transmission line interface.
FIG. 7 is a sequence diagram when a transmission power value is automatically set for a terminal interface function of a new NE.
[Explanation of symbols]
10 Automatic setting / deletion device 11 Line interface function 12 Network interface function 15 Address correspondence table 21 Terminal interface function 22 Line interface function 100 Wireless system A
101-103, 201-203, 301-303 Network equipment (NE)
200 Wireless system B
300 Wireless System C

Claims (15)

In a network device management system that sets conditions necessary for starting communication of network devices connected to the network,
A network device setting control device having line setting means for setting a line for the network device on the network,
The network device includes a unique address notifying unit that notifies the network device setting control device of an address unique to the network device,
Line setting means of the network device setting control device,
An address correspondence table for storing line setting information corresponding to the address unique to the network device,
Search means for searching whether the unique address notified from the network device is in the address correspondence table,
If the result of the search indicates that the unique address does not exist in the address correspondence table, an automatic configuration setting unit that transfers configuration setting information necessary for setting a line with the network device to the network device. A network device management system, characterized in that: The network device management system according to claim 1,
The address correspondence table holds topology information indicating a connection state of the network device to the network,
The automatic configuration setting means, based on the topology information, a line setting address generating means for determining a line setting address,
A network device management system, comprising: first line setting address notifying means for notifying the determined line setting address to the network device newly connected to the network as the configuration setting information. The network device management system according to claim 1,
The address correspondence table includes a line setting address storage unit that holds topology information indicating a connection state of the network device to the network, and obtains and stores an assignable line setting address based on the topology information,
The auto configuration setting means determines a line setting address that can be assigned from the line setting address storage means, and notifies the determined line setting address to the network device newly connected to the network as the configuration setting information. Network device management system, comprising: a second line setting address notifying means. The network device management system according to any one of claims 1 to 3,
A network device management system comprising: an authentication unit configured to authenticate a network device before notifying a network device newly connected to a network of a line setting address. . The network device management system according to any one of claims 1 to 4,
The network device includes a connection state information notification unit that notifies the network device setting control device of connection information indicating a connection / disconnection state with the network,
The network device setting control device, when receiving the information indicating the connection state from the network device, a unique address notification request unit that requests the network device to notify a unique address,
A network device management system, comprising: data deletion means for deleting line setting information corresponding to the network device from the address correspondence table when receiving information indicating a non-connection state from the network device. 4. The network device management system according to claim 2, wherein
The network device setting control device, after notifying the line setting address for the newly connected network device by the first line setting address notifying unit or the second line setting address notifying unit, Test signal transmitting means for transmitting a test signal,
The network device includes a first reception level measurement / notification unit that measures a reception signal level of the test signal and notifies the network device setting control device, and the network device setting control device detects the reception signal level based on the reception signal level. Transmission loss estimating means for estimating a transmission loss of a transmission path from the network device setting control device to the network device based on the
A first transmission power setting unit configured to set transmission power of the network device in consideration of the transmission loss. The network device management system according to claim 6,
The network device setting control device includes a test signal transmission instructing unit that transmits a test signal from another network device already connected to the network to a newly connected network device,
The network device includes a second reception level measurement / notification unit that measures the reception signal level of the test signal and notifies the network device setting control device of the test signal,
The network device setting control device, based on the received signal level, interference power estimating means for estimating interference power from the other network device,
A second transmission power setting unit that sets transmission power of the network device in consideration of the interference power,
A third transmission power setting unit configured to set transmission power of the network device in consideration of the transmission loss and the interference power. In a network device management method in a network device management system for setting conditions necessary for starting communication of network devices connected to a network,
A network device setting control device that performs line setting for the network device on the network,
The network device notifies the network device setting control device of an address unique to the network device,
The network device setting control device,
Line setting information corresponding to the address unique to the network device is stored in an address correspondence table,
Search whether the unique address notified from the network device is in the address correspondence table,
As a result of the search, when the unique address is not found in the address correspondence table, configuration setting information necessary for line setting with the network device is transferred to the network device. Method. A network device setting control device for setting a line for a network device connected to a network,
An address correspondence table for storing line setting information corresponding to the address unique to the network device,
Search means for searching whether the unique address notified from the network device is in the address correspondence table,
If the result of the search indicates that the unique address does not exist in the address correspondence table, an automatic configuration setting unit that transfers configuration setting information necessary for setting a line with the network device to the network device. A network device setting control device, characterized in that: The network device setting control device according to claim 9, wherein
The address correspondence table holds topology information indicating a connection state of the network device to the network,
The automatic configuration setting means, based on the topology information, a line setting address generating means for determining a line setting address,
A first line setting address notifying unit for notifying the determined line setting address to the network device newly connected to the network as the configuration setting information. The network device setting control device according to claim 9, wherein:
The address correspondence table includes a line setting address storage unit that holds topology information indicating a connection state of the network device to the network, and obtains and stores an assignable line setting address based on the topology information,
The auto configuration setting means determines a line setting address that can be assigned from the line setting address storage means, and notifies the determined line setting address to the network device newly connected to the network as the configuration setting information. And a second line setting address notifying unit. The network device setting control device according to claim 9, wherein
Wherein the auto configuration setting means includes an authentication means for authenticating the network device before notifying a network setting address to a network device newly connected to the network. apparatus. The network device setting control device according to claim 9, wherein
Upon receiving information indicating the connection status from the network device, a unique address notification requesting unit for requesting a notification of a unique address to the network device,
A network device setting control device, comprising: data deletion means for deleting line setting information corresponding to the network device from the address correspondence table when receiving information indicating a non-connection state from the network device. The network device setting control device according to claim 9, wherein
After notifying the line setting address for the newly connected network device by the first line setting address notifying unit or the second line setting address notifying unit by the automatic setting unit, a test signal is sent to the network device. Test signal transmitting means for transmitting
Test signal transmission instructing means for transmitting a test signal from another network device already connected to the network to a newly connected network device;
When information on the received signal level of the signal transmitted by the test signal transmitting unit is received from the newly connected network device, based on the received signal level, from the network device setting control device to the network device. Transmission loss estimating means for estimating the transmission loss of the transmission path,
First transmission power setting means for setting the transmission power of the network device in consideration of the transmission loss,
When information of a received signal level of a signal from another network device transmitted by the test signal transmission instructing means is received from the newly connected network device, based on the received signal level, from another network device, Interference power estimating means for estimating the interference power of
A second transmission power setting unit that sets transmission power of the network device in consideration of the interference power,
A third transmission power setting unit configured to set transmission power of the network device in consideration of the transmission loss and the interference power. A network device connected to the network,
Unique address notification means for notifying the network device setting control device of an address unique to the network device,
Connection state information notifying means for notifying the network device setting control device of connection information indicating a connection / disconnection state with the network,
A first reception level measurement / notification unit that measures a reception signal level of a test signal transmitted from a network device setting control device that performs line setting for itself and notifies the network device setting control device of the test signal;
A second reception level measurement / notification unit that measures a reception signal level of a test signal transmitted from another network device already connected to the network and notifies the network device setting control device of the test signal. And network equipment.

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