JP3971211B2 - Wireless access system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a radio access system, and in particular, in a public service using radio, it is possible to easily manage a subscriber apparatus economically without installing a dedicated line for network management in a subscriber's house. The present invention relates to a radio access system.
[0002]
[Prior art]
Conventionally, in order to use an Internet service before the wireless access service, as shown in FIG. 10, the subscriber dials up to the service provider's network access point using a modem or the like, or uses ADSL (Asymmetric Digital Subscriber). Line: Asymmetric digital subscriber transmission system) Always connected by modem.
[0003]
Then, the service provider installs a router at the network access point to connect the Internet network and the subscriber.
[0004]
In addition, the service provider remotely manages a router installed at the access point using a simple network management protocol called SNMP (Simple Network Management Protocol) in order to provide a stable service. In this system, the subscriber's home equipment is not subject to network management.
[0005]
Incidentally, in recent years, wireless access services as shown in FIG. 11 are being provided.
[0006]
As shown in FIG. 11, in this wireless access system, a dedicated termination device (subscriber device) is installed at the subscriber's home.
[0007]
Such a wireless access system adopts a configuration in which a base station and a subscriber station are connected wirelessly, and therefore it is necessary to perform network management including a terminating device in order to supply a stable service. .
[0008]
However, in the conventional wireless access system, in the enterprise network that is a private network, a dedicated line for network management is installed to remotely manage the equipment at the subscriber's home, and for the management communication at the subscriber's home. It is possible to manage the network by adopting a method to install a dedicated modem, but in the case of public service, it is very difficult to install a dedicated line for network management at the subscriber's house, and It is uneconomical in cost.
[0009]
[Problems to be solved by the invention]
As described above, in a conventional wireless access system, in a company network that is a private network, a method of installing a dedicated line for network management is adopted in order to remotely manage a subscriber's home device. In the case of a service, it is very difficult to install a dedicated line for network management at a subscriber's home, and there is a disadvantage that it is uneconomical in terms of cost.
[0010]
Therefore, in view of the above situation, the present invention can easily manage subscriber devices economically without installing a dedicated line for network management in a subscriber's house in a public service using radio. The object is to provide a wireless access system.
[0011]
[Means for Solving the Problems]
  To achieve the above objective,BookThe invention includes a radio base station connected to the Internet network and a radio station installed in a subscriber station and connected to the radio base station via a radio line., Having outdoor equipment and indoor equipmentA subscriber wireless device and a subscriber terminal connected to the subscriber wireless device, wherein the subscriber terminal is connected to the Internet network by wireless communication via the subscriber wireless device and the wireless base station A wireless access system that is connected to the Internet network, andIndoor equipmentThe management information is transmitted and received between the indoor device and the network management device via the subscriber radio device and the radio base station, and the subscriber terminal information is transmitted to the subscriber radio device and the radio base. Communication means for transmitting and receiving between the subscriber terminal and the Internet network via a stationAnd the communication means transmits a first communication path for transmitting the management information and a second communication for transmitting the subscriber terminal information through a communication path between the radio base station and the subscriber radio apparatus. Separation means for virtually separating roads, wherein the separation means is provided in the radio base station and has identification information corresponding to the management information and the subscriber terminal information in the same information field, respectively. A wireless base station side communication means for transmitting a wireless frame having the management information and the subscriber terminal information mounted in a predetermined information field from the wireless base station to the subscriber wireless device, and the subscriber wireless Provided in the apparatus, identification information corresponding to each of the management information and the subscriber terminal information is given in the same information field, and the management information and the subscriber terminal information are set in a predetermined information field. And a subscriber radio apparatus side communication means for transmitting a radio frame mounted on the subscriber radio apparatus from the subscriber radio apparatus to the radio base station, and based on the identification information given in the same information field, the management information and The first communication channel and the second communication channel are separated by recognizing the subscriber terminal information by the radio base station and the subscriber radio device.It is characterized by that.
[0012]
  Also,The present invention relates to a radio base station connected to the Internet network, a subscriber radio apparatus installed in a subscriber station and connected to the radio base station via a radio line, and having an outdoor unit and an indoor unit, and the subscriber radio unit A wireless access system connected to the Internet network by wireless communication via the subscriber wireless device and the wireless base station, wherein the subscriber terminal is connected to the Internet via the wireless base station. A network management device connected to a network, and the indoor device management information are transmitted and received between the indoor device and the network management device via the subscriber wireless device and the wireless base station, and the subscriber Communication means for transmitting and receiving terminal information between the subscriber terminal and the Internet network via the subscriber wireless device and the wireless base station. The communication means includes a first communication path for transmitting the management information and a second communication path for transmitting the subscriber terminal information over a communication path between the radio base station and the subscriber radio apparatus. Separating means for virtually separating is provided, and the separating means is provided in the radio base station, and the management information and the subscriber terminal information are mounted in the first information field and the second information field, respectively. A radio base station side communication means for transmitting the radio frame transmitted from the radio base station to the subscriber radio device; the subscriber radio device; and the management information in a first information field and a second information field. And a subscriber radio apparatus side communication means for transmitting a radio frame carrying the subscriber terminal information from the subscriber radio apparatus to the radio base station, the first information The information installed in the field is used as the management information, and the information installed in the second information field is recognized as the subscriber terminal information by the radio base station and the subscriber radio apparatus. The communication path is separated from the second communication path.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[0014]
FIG. 1 is a diagram showing a configuration example of a radio access system when the present invention is applied.
[0015]
  As shown in FIG. 1, the wireless access system 100 has a carrier such as a telephone line.InsteadIn this system, a wireless line is provided, and a high-speed Internet access is provided to the subscriber as compared with a conventional method using a telephone line modem.
[0016]
  As shown in Fig. 1, on the carrier side, the telephone linereplaceWireless base station to provide communication lines wirelessly1Is installed.
[0017]
  On the subscriber station 2 side, an indoor unit (IDU) 21 for wireless access, an outdoor unit 22, an antenna 23, and the like correspond to conventional telephone line modems.Subscriber radio equipment comprisingIs installed. Thus, the subscriber uses his / her subscriber terminal (PC, etc.) 24 through the indoor unit (IDU) 21, the outdoor unit (ODU) 22, the antenna 23, the radio base station 1, the telephone exchange 3, and the router 4. Internet communication can be performed.
[0018]
In this wireless access system 100, a network management apparatus (NMS) 7 is connected via a router 4 and a management network 6.
[0019]
  The network management device (NMS) 7 manages a network using a simple network management protocol called SNMP (Simple Network Management Protocol) standardized by IAB (Internet Architecture Board) and management information called MIB (Management Information Base). It is a management device. Specifically, the SNMP agent function A included in the own device 7, the radio base station 1 and the subscriberStation 2Management is performed by exchanging predetermined management information with the SNMP client function B. In the present invention, the network management device 7 manages the subscriber station devices (indoor device 21 and outdoor device 22) through a wireless line without installing a dedicated line for network management of the subscriber station 2. I do.
[0020]
  Thereafter, in the network management device 7 described above, the subscriberStationA configuration for managing subscriber devices (indoor devices and outdoor devices) through a wireless line without installing a dedicated line for network management will be specifically described.
[0021]
First, the first embodiment will be described with reference to FIGS.
[0022]
FIG. 2 is a diagram showing functional block configurations of the radio base station apparatus 1 and the subscriber station apparatuses (indoor apparatus 21 and outdoor apparatus 22) shown in FIG. 1, and in this case, the main blocks according to the present invention are shown. Only the components are shown, and the other components are omitted.
[0023]
As shown in FIG. 2, the base station and subscriber station devices include a CPU 101, a memory 102, an SNMP management unit (Management Entity) 103, a LAN switch unit 104, a frame generation unit 105, and a modem unit 106. And an RF unit 107 and an antenna 108.
[0024]
Here, the CPU 101 is a control unit that comprehensively controls the entire base station and subscriber station apparatus.
[0025]
The memory 102 is a storage unit that stores data such as various control programs used in the apparatus and work information.
[0026]
The SNMP management unit 103 includes an SNMP client function B, and performs management information transfer processing with the SNMP agent function A included in the network management apparatus (NMS) 7 shown in FIG.
[0027]
The LAN switch unit 104 receives a management information frame (hereinafter referred to as a management frame) from the SNMP management unit 103 in the direction of transmitting a radio signal (1): Output. Further, a subscriber information frame (hereinafter referred to as a subscriber frame) is input from the subscriber terminal 24 side or the Internet 5 side via the user interface, and is output to the subsequent frame generation unit 105. Also, {circle over (2)}: in the direction of receiving the radio signal, the DA for the subscriber frame and the management frame stored in the WM-PDU field (1629 bits) of the radio frame (see FIG. 3) input from the frame generation unit 105. The information stored in (Destination Address) (destination address) (see FIG. 4) is read, and the frame is output to the subscriber terminal 24, the Internet 5 side or the SNMP management unit 103 side.
[0028]
The frame generation unit 105: (1): In the direction of transmitting a radio signal, the management frame and the subscriber frame input from the LAN switch unit 104 are placed on the WM-PDU field (1629 bits) and are described later in FIG. A radio frame as shown is generated and output to the downstream modulation / demodulation unit 106. {Circle over (2)} In the direction of receiving a radio signal, for the subscriber and management (WM-PDU) stored in the WM-PDU field of the radio frame input via the antenna 108, the RF unit 107, and the modem unit 106. ) Take out the frame and output it to the LAN switch unit 104 in the subsequent stage.
[0029]
Modulator / demodulator 106: (1): In the direction of transmitting a radio signal, radio frame data input from frame generator 105 is subjected to a predetermined modulation process in accordance with a predetermined radio communication system, and the radio signal subjected to the modulation process is post-staged. Is output to the RF unit 107. (2): In the direction of receiving a radio signal, a radio signal received via the antenna 108 and the RF unit 107 is input, subjected to a predetermined demodulation process according to a predetermined radio communication method, and radio frame data is reproduced. This is output to the subsequent frame generation unit 105.
[0030]
The RF unit 107 is a radio signal transmitting / receiving unit, and {circle over (1)} performs a process of transmitting the radio signal input from the modem unit 106 via the antenna 108 in the direction of transmitting the radio signal. In addition, (2): in the direction of receiving a radio signal, a process of receiving a radio signal via the antenna 108 is performed.
[0031]
The antenna 108 transmits a radio signal from the RF unit 107 as a radio wave in the direction (1): a radio signal is transmitted, and (2): receives a radio wave in the direction to receive a radio signal. The radio signal is input to the RF unit 107.
[0032]
3 is a diagram showing a format configuration of radio frames used in the devices of the radio base station 1 and the subscriber station 2 shown in FIG. 2, and FIG. 4 is a diagram showing the radio base station shown in FIG. 1 is a diagram illustrating a format configuration of a MAC (Media Access Control) frame with a Qtag (tag) used in apparatuses 1 and 2 of a subscriber station 2. FIG.
[0033]
As shown in FIG. 3, in the wireless base station 1 and the subscriber station 2 shown in FIG. 2, the management MAC frame and the subscriber MAC frame are converted into a wireless frame WM (wireless modem) -PDU (protocol data unit). Communication is performed on the field (1629 bits).
[0034]
As shown in FIG. 4, in the wireless base station 1 and the two subscriber stations shown in FIG. 2, management data and subscriber data are placed in the DATA & PAD field (46 to 1500 bytes) of the MAC frame. Further, when transmitting the management frame in the VLAN identifier (ID) field (12 bits) of the Qtag Prefix field (4 bytes), the identifier of the management network assigned in advance is set, and on the other hand, the subscriber frame Is transmitted by setting a subscriber network identifier assigned in advance. Note that the LAN switch unit 104 actually manages the VLAN ID by assigning individual identifiers to the management frame and the subscriber frame.
[0035]
In this way, by physically assigning different identifiers for management and subscribers to the VLAN identifier field (12 bits) in the Qtag field of the MAC frame, one physical network is separated into two networks (segments). can do. This state is shown in FIG.
[0036]
In other words, in FIG. 5, the management network and the subscriber network are managed by using a virtual LAN (VLAN) which is one of the functions of the LAN switch unit for the management frame used by the management network and the subscriber frame used by the subscriber. Are virtually separated into two networks.
[0037]
Next, referring to the configuration shown in FIG. 3, the operation (1) when data is transmitted from the subscriber station 2 to the radio base station 2, and the operation when the radio base station 1 receives the data. (2) will be described.
[0038]
First, the operation (1) will be described.
In the apparatus of the subscriber station 2, a management frame input from the SNMP management unit 103 to the LAN switch unit 104 or a subscriber frame input from the subscriber terminal 24 to the LAN switch unit 104 via the user interface is a frame. It is sent to the generation unit 105.
[0039]
Then, the frame generation unit 105 generates a radio frame by placing the management frame or subscriber frame input from the LAN switch unit 104 in the WM-PDU (1629 bit) field of the radio frame shown in FIG. Then, the data is output to the subsequent modem unit 106.
[0040]
Next, the modem unit 106 performs predetermined modulation processing on the radio frame, and the RF unit 107 transmits the modulated radio signal via the antenna 108.
[0041]
Since the data stored in the WM-PDU (1629 bit) field of the wireless frame in FIG. 3 described above is periodically generated, if the data cannot be stored in the 1629 bit storage location, the frame is divided and transmitted. .
[0042]
Next, operation (2) will be described.
[0043]
In the apparatus of the radio base station 1, the radio signal received via the antenna 108 and the RF unit 107 is subjected to predetermined demodulation processing by the modem unit 106, and the radio frame of FIG. 3 is reproduced and input to the frame generation unit 105.
[0044]
Then, the frame generation unit 105 extracts the MAC frame (subscriber frame or management frame) stored in the WM-PDU (1629 bit) field of the wireless frame shown in FIG. 3 and outputs it to the LAN switch unit 104.
[0045]
Thereafter, the LAN switch unit 105 reads the destination information stored in the DA (destination address) of the MAC frame shown in FIG. 4 and outputs the frame to the subscriber terminal 24 or the SNMP management unit 103.
[0046]
Specifically, here, if the DA (destination address) indicates a device such as the subscriber terminal 24 or a server on the Internet side, the MAC frame, that is, the subscriber frame is applied via the user interface. To the subscriber terminal 24 or the server. On the other hand, if the DA (destination address) indicates a network management device (NMS), a MAC frame, that is, a management frame is transmitted to the SNMP management unit 103.
[0047]
Then, the management frame is transmitted to the network management apparatus (NMS) 7 shown in FIG. 1 based on the control of the SNMP management unit 1030. As a result, the network management device (NMS) 7 can acquire management information of the devices (indoor device 21 and outdoor device 22) of the subscriber station 2 through the wireless line.
[0048]
According to this configuration, in a public service using radio, the subscriber device can be easily managed without installing a dedicated line for network management at the subscriber's home, and the VLAN identifier (ID) of the VLAN can be used. By assigning different identifiers for management and subscribers, it is possible to prevent the contents of management data on the network administrator side from being seen by users and the like.
[0049]
Next, a second embodiment will be described with reference to FIGS.
[0050]
FIG. 6 is a diagram showing a modification of the functional block configuration of the device of the radio base station 1 and the device of the subscriber station 2 (indoor device 21 and outdoor device 22) shown in FIG. Also in this case, only the main components according to the present invention are shown, and the other components are omitted.
[0051]
As shown in FIG. 6, the devices of the radio base station 1 and the subscriber station 2 include a CPU 1010, a memory 1020, an SNMP management unit 1030, a LAN switch unit 1040, a frame generation unit 1050, and a modem unit 1060. The RF unit 1070 and the antenna 1080 are provided.
[0052]
Here, the CPU 1010 is a control unit that comprehensively controls the entire apparatus of the radio base station 1 and the subscriber station 2.
[0053]
The memory 1020 is a storage unit that stores data such as various control programs used in the apparatus and work information.
[0054]
An SNMP management (Management Entity) unit 1030 includes an SNMP client function B, and performs management information transfer processing with the SNMP agent function A included in the network management apparatus (NMS) 7 illustrated in FIG.
[0055]
The LAN switch unit 1040: (1): In the direction of transmitting a radio signal, the subscriber frame is input from the subscriber terminal 24 side or the Internet 5 side via the user interface, and is output to the subsequent frame generation unit 1050. . (2): In the direction of receiving a radio signal, the DA (destination address) of the subscriber frame stored in the WM-PDU field (1544 bits) of the radio frame (see FIG. 7) input from the frame generation unit 105 ) (See FIG. 8), the destination information stored is read and the frame is output to the subscriber terminal 24 or the Internet 5 side.
[0056]
The frame generation unit 1050 (1): in the direction of transmitting a radio signal, the subscriber frame input from the LAN switch unit 1040 is placed on the WM-PDU field (1544 bits) of the radio frame and is shown in FIG. Such a radio frame is generated and output to the downstream modem 1060. Also, the management frame input from the management unit 1030 is loaded on the DCC field (85 bits) of the radio frame to generate a radio frame as shown in FIG. 3 to be described later, and outputs the radio frame to the subsequent modem unit 1060. Also, (2): in the direction of receiving a radio signal, the subscriber frame stored in the WM-PDU field (1544 bits) of the radio frame input via the antenna 1080, the RF unit 1070, and the modem unit 1060 is taken out. And output to the LAN switch unit 1040 at the subsequent stage. Further, the management frame stored in the DCC field (85 bits) of the input radio frame is extracted and output to the SNMP management unit 1030 at the subsequent stage.
[0057]
Modulator / demodulator 1060: {circle around (1)}: In the direction of transmitting a radio signal, radio frame data input from frame generation unit 1050 is subjected to predetermined modulation processing in accordance with a predetermined radio communication method, and the radio signal is transmitted to an RF unit at a subsequent stage. Output. (2): In the direction of receiving a radio signal, a radio signal received via the antenna 1080 and the RF unit 1070 is input, and a predetermined demodulation process is performed according to a predetermined radio communication method to reproduce radio frame data. The data is output to the subsequent frame generation unit 1050.
[0058]
The RF unit 1070 is a radio signal transmission / reception unit. (1): In the direction in which the radio signal is transmitted, a process of transmitting the radio signal input from the modulation / demodulation unit 1060 via the antenna 108 is performed, and (2) : In the direction of receiving a radio signal, a process of receiving a radio signal via the antenna 1080 is performed.
[0059]
The antenna 1080 transmits (1) the radio signal from the RF unit 1070 as a radio wave in the direction of transmitting the radio signal, and (2): receives the radio wave in the direction of receiving the radio signal. The radio signal is input to the RF unit 1070.
[0060]
7 is a diagram showing a format configuration of radio frames used in the devices of the radio base station 1 and the subscriber station 2 shown in FIG. 6, and FIG. 8 is a diagram showing the radio base station shown in FIG. 1 is a diagram illustrating a format configuration of a MAC frame without a Qtag (tag) used in apparatuses 1 and 2 of a subscriber station 2. FIG.
[0061]
As shown in FIG. 7, in the apparatus of the radio base station 1 and the subscriber station 2 shown in FIG. 6, the subscriber MAC frame is placed in the WM-PDU field (1544 bits) of the radio frame, while the management MAC frame Is carried on the DCC (85 bits) of the radio frame.
[0062]
Further, as shown in FIG. 8, in the wireless base station 1 and subscriber station 2 devices shown in FIG. 6, management data and subscriber data are placed in the DATA & PAD field (46 to 1500 bytes) of the MAC frame. To communicate.
[0063]
In this way, the management frame used by the management network and the subscriber frame used by the subscriber are placed on different channels of the radio frame, that is, WM-PDU (1544 bits) and DCC (85 bits) in different fields and communicated. Thus, the management network and the subscriber network can be physically separated into two networks. This state is shown in FIG.
Next, referring to the configuration shown in FIG. 6 above, the operation (3) in the case of transmitting data from the subscriber station 2 side to the radio base station 1 side, and the case where the radio base station 1 side receives the data The operation (4) will be described.
[0064]
First, the operation (3) will be described.
[0065]
In the apparatus of the subscriber station 2, the subscriber frame input from the subscriber terminal 24 to the LAN switch unit 1040 via the user interface is transmitted to the frame generation unit 1050.
[0066]
Then, the frame generation unit 1050 generates a radio frame by placing the subscriber frame input from the LAN switch unit 1040 on the WM-PDU (1544 bit) field of the radio frame shown in FIG. Then, the data is output to the subsequent modem unit 1060.
[0067]
Next, the modem unit 1060 performs predetermined modulation processing on the input radio frame, and the RF unit 1070 transmits the modulated radio signal via the antenna 1080.
[0068]
In the subscriber station 2 apparatus, when the management frame is sent from the SNMP management unit 1030 to the frame generation unit 1050, the frame generation unit 1050 inputs the DCC (85 bit) field of the radio frame shown in FIG. A radio frame is generated with a management frame.
[0069]
Since the data stored in the WM-PDU (1544 bit) field and DCC (85 bit) of the radio frame in FIG. 7 described above is periodically generated, the frame is divided and transmitted when it cannot fit.
[0070]
Next, operation (4) will be described.
[0071]
In the apparatus of the radio base station 1, the radio signal received via the antenna 1080 and the RF unit 1070 is subjected to predetermined demodulation processing by the modem unit 1060, and the radio frame of FIG. 7 is reproduced and input to the frame generation unit 1050. .
[0072]
Then, the frame generation unit 1050 takes out the frame stored in the WM-PDU (1544 bit) field of the radio frame shown in FIG. 7, that is, the subscriber frame, outputs it to the LAN switch unit 1050, and at the same time DCC of the radio frame The frame stored in the (85 bit) field, that is, the management frame is taken out and output to the SNMP management unit 1030.
[0073]
Thereafter, the LAN switch unit 1040 reads the destination information stored in the DA (destination address) of the MAC frame shown in FIG. 8, and based on the DA (destination address), the subscriber frame is sent via the user interface. To the corresponding subscriber terminal 24 and the server on the Internet side.
[0074]
Then, the management frame is transmitted to the network management apparatus (NMS) 7 shown in FIG. 1 based on the control of the SNMP management unit 1030. As a result, the network management device (NMS) 7 can acquire management information of the devices (indoor device 21 and outdoor device 22) of the subscriber station 2 through the wireless line.
[0075]
According to this configuration, in a public service using radio, it is possible to easily manage a subscriber device without installing a dedicated line for network management at the subscriber's home, and to use a management frame used by the management network. Management data on the network administrator side is obtained by placing the subscriber frame used by the subscriber on different channels of the radio frame, that is, WM-PDU (1544 bits) and DCC (85 bits) in different fields. Can be prevented from being seen by the user or the like.
[0076]
【The invention's effect】
  As explained above, the present inventionAccording to the radio access system, in public services using radio,The subscriber apparatus can be managed without installing a dedicated line for network management at the subscriber's home, and network management maintenance is possible. MaTheIt is possible to prevent the management content data on the network manager side from being seen by the user or the like.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration example of a wireless access system when the present invention is applied.
FIG. 2 is a diagram showing a functional block configuration of a radio base station apparatus and a subscriber station apparatus shown in FIG. 1;
3 is a diagram showing a format configuration of a radio frame used in the radio base station and subscriber station apparatus shown in FIG. 2. FIG.
4 is a diagram showing a format configuration of a MAC frame with a Qtag (tag) used in the radio base station and subscriber station apparatus shown in FIG. 2; FIG.
FIG. 5 illustrates a management network and a subscriber network virtualized using a virtual LAN (VLAN), which is one of the functions of the LAN switch unit, for management frames used by the management network and subscriber frames used by subscribers. The figure which shows a mode that it isolate | separated into two networks and was comprised.
6 is a diagram showing a modification of the functional block configuration of the radio base station apparatus and the subscriber station apparatus shown in FIG. 2;
7 is a diagram showing a format configuration of a radio frame used in the radio base station and subscriber station apparatus shown in FIG. 6;
8 is a diagram showing a format configuration of a MAC frame without a Qtag (tag) used in the radio base station and subscriber station apparatus shown in FIG. 6;
FIG. 9 shows a configuration in which a management frame used by a management network and a subscriber frame used by a subscriber are physically separated into two networks using separate channels of radio frames. The figure which shows a mode.
FIG. 10 is a diagram showing an outline of a conventional wired Internet service.
FIG. 11 is a diagram showing an outline of a conventional wireless access Internet service.
[Explanation of symbols]
100 wireless access system
1 radio base station
2 subscriber stations
21 Indoor unit (IDU)
22 Outdoor unit (ODU)
23 Antenna
24 Subscriber terminal (PC)
3 telephone exchange
4 routers
5 Internet
6 Network management device (NMS)
101, 1010 CPU
102, 1020 memory
103, 1030 Management Department
104, 1040 LAN switch part
105, 1050 frame generator
106, 1060 modulation / demodulation unit
107, 1070 RF section
108, 1080 Antenna
A SNMP agent function
B SNMP client function

Claims (7)

A wireless base station connected to the Internet network, a subscriber wireless device installed in a subscriber station and connected to the wireless base station via a wireless line, having an outdoor device and an indoor device, and connected to the subscriber wireless device A wireless access system for connecting to the Internet network by wireless communication via the subscriber wireless device and the wireless base station,
A network management device connected to the Internet network;
The indoor device management information is transmitted and received between the indoor device and the network management device via the subscriber wireless device and the wireless base station, and the subscriber terminal information is transmitted to the subscriber wireless device. Communication means for transmitting and receiving between the subscriber terminal and the Internet network via the wireless base station,
The communication means includes
A communication path between the radio base station and the subscriber radio apparatus is virtually separated into a first communication path for transmitting the management information and a second communication path for transmitting the subscriber terminal information. Comprising separation means,
The separating means includes
Provided in the radio base station, identification information corresponding to each of the management information and the subscriber terminal information is given in the same information field, and the management information and the subscriber terminal information are set as predetermined information. A radio base station side communication means for transmitting a radio frame mounted in a field from the radio base station to the subscriber radio device;
Provided in the subscriber radio apparatus, identification information corresponding to the management information and the subscriber terminal information is given in the same information field, and the management information and the subscriber terminal information A subscriber radio apparatus side communication means for transmitting a radio frame mounted in an information field from the subscriber radio apparatus to the radio base station, and
Recognizing the management information and the subscriber terminal information by the radio base station and the subscriber radio apparatus based on the identification information given in the same information field, the first communication path and the second A wireless access system characterized in that it is separated from the communication path. The radio frame is
MAC frame,
The predetermined information field is:
The radio access system according to claim 1, wherein the radio access system is a WM-PDU field in the MAC frame. A wireless base station connected to the Internet network, a subscriber wireless device installed in a subscriber station and connected to the wireless base station via a wireless line, having an outdoor device and an indoor device, and connected to the subscriber wireless device A wireless access system for connecting to the Internet network by wireless communication via the subscriber wireless device and the wireless base station,
A network management device connected to the Internet network;
The indoor device management information is transmitted and received between the indoor device and the network management device via the subscriber wireless device and the wireless base station, and the subscriber terminal information is transmitted to the subscriber wireless device. Communication means for transmitting and receiving between the subscriber terminal and the Internet network via the wireless base station,
The communication means includes
A communication path between the radio base station and the subscriber radio apparatus is virtually separated into a first communication path for transmitting the management information and a second communication path for transmitting the subscriber terminal information. Comprising separation means,
The separating means includes
A radio frame provided in the radio base station and carrying the management information and the subscriber terminal information in the first information field and the second information field, respectively, is transmitted from the radio base station to the subscriber radio apparatus. Wireless base station side communication means to
The subscriber is provided to the wireless device, the first information field and a second of said radio frame information field in which the management information and the information for the subscriber terminal equipped each subscriber radio instrumentation placed et the radio base station A subscriber wireless device side communication means for transmitting to
The radio base station and the subscriber radio apparatus recognize the information loaded in the first information field as the management information and the information loaded in the second information field as the subscriber terminal information. Accordingly, the wireless access system is characterized in that the first communication path and the second communication path are separated. The radio frame is
MAC frame,
The first information field is:
A WM-PDU field in the MAC frame;
The second information field is:
The radio access system according to claim 3, wherein the radio access system is a DCC field in the MAC frame. 4. The radio access system according to claim 1, further comprising management information communication means for transmitting / receiving management information of the radio base station between the radio base station and the network management device. The communication means and the management information communication means are:
6. The wireless access system according to claim 5, wherein the indoor device management information and the wireless base station management information are transmitted and received by an SNMP protocol. The network management device includes:
An SNMP agent that communicates with the SNMP client provided in the wireless base station and the subscriber wireless device by the SNMP protocol;
The radio base station and the subscriber radio device are:
The wireless access system according to claim 6, further comprising an SNMP client that communicates with the SNMP agent using the SNMP protocol.

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