JP3797182B2 - Wired and wireless integrated termination device and wired and wireless integrated network - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is used in a wireless communication system using a base station connected to a wireless terminal station via a wireless line and a receiving station connected to the base station via a wired line. The present invention relates to an access method and a user authentication method that combine a nomadic communication system using mobile communication and wireless such as a wireless LAN, a mobile phone system, PHS (Personal Handy Phone Systems), and a wired communication method for connecting these to the network. The present invention relates to the configuration of a wired / wireless integrated termination device used in the above-mentioned.
[0002]
[Prior art]
In conventional wireless communication systems, mainly a cellular phone system or PHS, a user directly connects to a base station installed by a telecommunications carrier and pays a fee to enjoy the network service of the carrier, and a wireless As in a LAN system, there is a method in which a user himself / herself constructs a LAN system for a specific user and connects to a network service of a communication carrier using an access means such as a wired connection as necessary.
[0003]
In mobile phone systems and PHS, it is possible to provide services in a wide area by installing a large number of base stations, but the communication business required for negotiations and procedures to secure the equipment cost and installation location of base stations The burden on the person is great.
[0004]
In addition, a wireless LAN system or the like can be freely constructed using a commercially available device generally in accordance with the conditions desired by the user, and there is no communication fee between users connected to the system. It is limited to areas and buildings, and network connection to the Internet etc. needs to be done separately. In addition, since it is generally not assumed in advance that the communication area of a wireless LAN overlaps with that of other wireless LANs, a conflict occurs when a plurality of areas overlap, and the use efficiency of the system is greatly degraded. There is a problem.
[0005]
On the other hand, with respect to the wired access method, there are an analog modem access using a conventional telephone line, a digital access such as ISDN and ADSL, a cable modem access using CATV coaxial, an access method using an optical fiber, and the like. It is done.
[0006]
In the conventional system using a telephone line, since the existing line equipment can be used as it is, the initial introduction cost can be kept low. However, the transmission speed and the transmission distance are limited in line performance, and at present, about several tens of Mbps. Is the limit of speedup.
[0007]
The access method using optical fibers and coaxial cables can communicate at a much higher speed and capacity than telephone lines. However, the construction costs for installing optical fibers and coaxial cables in each home or office The initial investment amount such as the cost of the communication device is very high, and it is difficult to disseminate the general user except for a company that performs large-capacity communication because the fee burden is large. In addition, at present, the speed at which transmission is possible using optical fiber is extremely high compared to the interface speed and processing speed of computer terminals, the transmission capacity required for applications, and so on. However, the potential communication capacity of this optical fiber cannot be used up effectively, and the wastefulness is also a barrier to popularization.
[0008]
The wireless access method is cheaper and more mobile than the optical communication method in that it does not require initial investment such as track laying work and in-house wiring work between the accommodation station where the capital investment is the largest and the user's house. Although there is an advantage that an access means can be provided, communication can be intercepted due to the nature of wireless, and since one-to-one connection such as wired connection is not possible, consideration and measures for security and user authentication are necessary. There is a problem. In terms of transmission speed, the optical communication method is overwhelmingly advantageous.
[0009]
[Problems to be solved by the invention]
As described above, the conventional access method has advantages and disadvantages depending on the means. For the wireless access method, when the operator installs the base station, the provision area is wide, but the initial investment of the base station equipment is large. When the user himself / herself builds a system, there is a problem that a system providing area is limited while a user-friendly system can be made inexpensive.
[0010]
In addition, the access method based on optical communication is capable of extremely high-speed communication, but has a problem that the initial investment for laying the optical fiber between the accommodation station and the user's house is large and the communication fee is high.
[0011]
The present invention has been carried out against such a background. By using the wired and wireless integrated termination device of the present invention, the wireless access method and a high-speed wired access method such as optical fiber communication are merged. An access system with a reduced initial investment burden is realized, and an object is to economically provide both a wireless communication service with high user convenience and a high-speed optical communication service.
[0012]
Further, the present invention provides an appropriate user authentication means for ensuring security when connecting to a specific network by using the wired wireless integrated termination device of the present invention in such a wired wireless integrated access system. It is intended to be able to provide.
[0013]
[Means for Solving the Problems]
The present invention relates to a wired / wireless integrated access system comprising a carrier's accommodation station, a base station connected to the accommodation station via a communication line, and a wireless terminal connected to the base station by wireless communication means. The present invention relates to a method for configuring a wireless integrated termination device,
The feature of the wired and wireless integrated termination device of the present invention is that
Wired / wireless that demultiplexes a communication line termination unit that terminates a wired communication line that communicates with the accommodation station, and a line that is used for wired communication and a line that is used for wireless communication. A line demultiplexing unit, a line used for the wired communication is terminated, converted into a user interface, and provided to a user of the base station. A wired line terminating unit and a user interface terminating unit, and a line used for the wireless communication are provided. Terminate and modulate or demodulate according to the signal system used for wireless transmission, send the signal from the wireless line termination unit and wireless signal modulation / demodulation unit, and the radio signal modulation / demodulation unit as radio waves via the antenna, A radio signal transmission / reception unit that receives radio waves and sends the radio signal to the radio signal modulation / demodulation unit;
A part of the bandwidth of the communication line with the accommodation station is used for wired communication between the accommodation station and the user of the base station, and the remaining bandwidth is wireless communication between the plurality of wireless terminals and the accommodation station. It is used where both can communicate at the same time.
[0014]
Further, in addition to the above, the wired / wireless line multiplexer / demultiplexer according to a service class set in advance between the wired access line and the wireless access line shared by a plurality of wireless line users. Wired / with a function to control communication quality such as transmission capacity and delay, and a priority control function to preferentially connect either line when the traffic volume exceeds the capacity of the communication line A wireless line bandwidth control unit is added.
[0015]
In addition to the above, between the wireless line termination unit and the wired / wireless line demultiplexing unit, for each communication line with each wireless terminal, whether it is a pre-registered wireless user or wireless terminal device, And a wireless user / terminal authentication unit having an authentication function for permitting or denying communication with the accommodating station according to the result, and a wireless user / terminal storing authentication data such as an authentication ID and password And an authentication database.
[0016]
By using the wired / wireless integrated termination device of the present invention, the wired / wireless integrated access system as described above can be constructed. As a result, a user who uses a high-speed optical fiber communication line as a wired line can In exchange for using a user's home or office as a base station, the bandwidth of the optical fiber communication line can be shared with a plurality of wireless access users connected to this base station. By making the portion of the wireless access user a burden, the communication fee can be reduced compared to the case of using only a wired communication line, and it can be provided at a low fee corresponding to the actual amount of traffic used.
[0017]
On the other hand, for wireless access users, mobile access is possible without burdening the user with a large initial investment such as a base station facility dedicated to the wireless service provider, depending on the user's needs and local circumstances. By selecting a base station radio system, you can receive a low-cost closed access service using an inexpensive device such as a wireless LAN or a wide area access service such as a mobile phone or PHS in a form that meets your needs. I can do it.
[0018]
For communication carriers, optical fiber communication lines can be provided at a lower cost than before, so that it can be expected to promote the spread to general home users. Moreover, it is possible to effectively utilize the investment in the line facilities, and to effectively use a large-capacity optical fiber communication line by a plurality of users, thereby improving the bandwidth utilization efficiency of the network. In addition, by using the user's home as a base station, it is possible to reduce the costs associated with the installation of the base station and the trouble of negotiating with the land owner, and the system can be easily expanded and the service area can be expanded. In addition, for example, by providing a charging function that reduces the communication fee according to the number of registered wireless users and the frequency of use, an effect of promoting the development of new users is expected.
[0019]
In addition, by using the wired wireless integrated termination device of the present invention, priority control and bandwidth control according to each set service class can be performed between the wired access line and the wireless access line shared by a plurality of users. By doing this, for example, priority is given to the amount of traffic of users using the wired access line, and the wireless access line is limited to the minimum guaranteed capacity, but when the user using the wired access line is not communicating, wireless access It is possible to set a service class such as allocating the maximum bandwidth that can be used on the line, and it is possible to provide a flexible service in accordance with the usage form of the user.
[0020]
Also, by using the authentication function, it is possible to provide services that prevent other people from illegally intervening in the use of the system between specific wireless user groups, It is also possible to provide a service that connects to the network of another carrier.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
In the following embodiments, a case where the transmission line is an optical fiber transmission line will be described. However, the present invention is not limited to this, and the transmission path can be a general wired transmission path.
[0022]
An example of implementation of the optical wireless integrated termination device of the present invention will be described with reference to FIG. FIG. 1 is a diagram showing an internal functional configuration of the optical wireless integrated termination device of the present invention.
[0023]
The optical and wireless integrated termination device of the present invention shown in FIG. 1 is used in a user's home connected to a carrier's accommodation station by an optical fiber communication line, and terminates the optical fiber communication line to provide a user in the home. It has both the function of providing a communication line via a wired interface and the function of a wireless base station that transmits and receives signals from a plurality of wireless terminals and relays them to a receiving station.
[0024]
1 is connected to the optical fiber transmission line indicated by 1-2 in FIG. 1 for connecting the accommodating station and the user's home. The optical wireless integrated termination device 1-1 is connected to the optical line termination unit 1-3 shown in FIG. 1 and the optical line termination unit 1-3 for terminating the optical signal from the optical fiber transmission line 1-2. Wired as shown in 1-4 in the figure having a function of separating and multiplexing a part of the band used for communication with the accommodation station as a wireless access line and the remaining band as a wired access line / Wireless line multiplexer / demultiplexer and wired / wireless line multiplexer / demultiplexer 1-4 are connected to the wireless access line terminating unit 1-7 in FIG. Connected to the radio signal modulation / demodulation unit 1-8 in the figure and the radio signal modulation / demodulation unit 1-8 for conversion between the radio access line signal and the signal system suitable for radio transmission. Amplifies the electric signal to a predetermined power and sends it to the wireless antenna indicated by 1-10 in the figure Connected to the wireless signal transmitter / receiver 1-9 and the wired / wireless line multiplexer / demultiplexer 1-4 having the function of amplifying the radio wave received by the wireless antenna 1-10 and extracting it as an electrical signal. A wired line termination unit indicated by 1-5 in the figure for terminating the wired access line, and a wired access line signal connected to the wired line termination unit 1-5 and a user interface indicated by 1-11 in the figure. It consists of a user interface termination unit 1-6 in the figure that performs conversion.
[0025]
The optical line termination unit 1-3 in FIG. 1 terminates the optical communication line performed via the optical fiber transmission line 1-2 between the accommodating station and the optical wireless integrated termination device 1-1.
[0026]
The optical signal transmitted from the accommodation station is photoelectrically converted and amplified by the optical line terminating unit 1-3 using a light receiving element such as a photodiode, and used as a received signal. On the other hand, the upstream signal transmitted from the optical wireless integrated terminal device 1-1 to the accommodation station is amplified to a predetermined intensity, converted into electric light using a light emitting element such as a laser diode, and sent to the optical fiber transmission line. .
[0027]
The optical line termination unit 1-3 has a termination function according to the optical transmission method and frame configuration to be used. For example, when digital baseband transmission is performed, transmission line clock extraction, transmission frame synchronization, transmission error detection, Maintenance, monitoring and control of error correction, transmission line monitoring function and alarm transfer function by termination of overhead part of transmission frame, etc. are performed.
[0028]
The wired / wireless line multiplexer / demultiplexer 1-4 in FIG. 1 uses a part of the band designated in advance in the downlink data signal from the accommodation station transferred from the optical line termination unit 1-3 as a wireless access line. And is transferred to the wireless line terminator 1-7, and the remaining band is taken out as a wired access line and transferred to the wired line terminator 1-5. On the other hand, in the reverse direction, the radio access line transferred from the wireless line terminator 1-7 and the wired access line transferred from the wired line terminator 1-5 are multiplexed to obtain an optical line terminator. Transfer to 1-3.
[0029]
As a method of demultiplexing the wireless access line and the wired access line, a transmission method or a method according to the frame configuration determined in advance with the accommodating station is used. For example, when a time multiplexing method is used, The data can be demultiplexed by writing or reading each data in a time slot fixedly allocated in advance for each of the wired and wireless access lines. For example, when the packet transmission method is used, demultiplexing of both is possible by writing an index for identifying either wired or wireless access line data in the header portion of the packet. .
[0030]
1 terminates a wired access line that is transmitted to and received from the wired / wireless line multiplexer / demultiplexer 1-4, and an in-device interface with the user interface terminator 1-6. Has a function to convert to a method. If the user interface terminator 1-6 is configured to be removable from the optical / wireless integrated termination device 1-1 via this in-device interface, the user interface can be changed when the user interface type to be provided to the user is to be changed. The user interface can be changed without changing the main body of the optical wireless integrated terminal device 1-1 by simply replacing the terminal unit 1-6 with one corresponding to the user interface to be changed. In addition, an inexpensive commercially available interface card can be used as the user interface termination unit 1-6 by using, for example, a PCI bus interface or a PCMCIA interface that is generally used for a personal computer or the like as the in-device interface.
[0031]
The user interface terminator 1-6 in FIG. 1 has a function of converting between the in-device interface and the user interface provided to the user. By preparing several types in the user interface termination unit 1-6, it is possible to select and use a user interface suitable for the user's usage mode. Examples of the user interface include an Ethernet interface generally used for data communication, an ATM interface, an IEEE 1394 interface, a USB interface, an ISDN U / T point interface, a conventional telephone, an interface such as a FAX, and the like. .
[0032]
1 terminates a wireless access line that is transmitted to and received from the wired / wireless line demultiplexing unit 1-4, and is connected to the wireless signal modulation / demodulation unit 1-8. Has the function to convert to interface method. Since the optical / wireless integrated termination apparatus 1-1 performs communication with a plurality of wireless terminals, a plurality of wireless channels for connecting each wireless terminal and a receiving station are multiplexed on the wireless access line. The wireless line termination unit 1-7 separates and identifies the plurality of wireless channels, and exchanges signals with the wireless signal modulation / demodulation unit 1-8.
[0033]
The radio signal modulation / demodulation unit 1-8 in FIG. 1 modulates the signal, which is transferred from the radio line termination unit 1-7, identified for each radio channel unit with each radio terminal, for each channel and uses it for radio transmission. Is converted to a signal system to be transferred to the wireless signal transmitting / receiving unit 1-9. Conversely, the radio signal transferred from the radio signal transmission / reception unit 1-9 is demodulated for each radio channel and transferred to the radio line termination unit 1-7.
[0034]
There are various wireless transmission methods such as PDC (Personal Digital Cellular) method used in mobile phones, DS-CDMA (Direct Spread-Code Division Multiple Access) method, IEEE802.11 method used in wireless LAN, Bluetooth, IrDA, etc. There are systems, and these use multiple techniques such as CDMA (Code Division Multiple Access), FDMA (Frequency Division Multiple Access), and TDMA (Time Division Multiple Access).
[0035]
The radio signal modulation / demodulation unit 1-8 has a function for modulating / demodulating signals of each radio channel, a function for demultiplexing a plurality of channels, a frequency conversion function to a radio frequency band to be used, and a WEP (Wired Equivalent Privacy) if necessary. ) Etc., and a function of encrypting / decrypting each wireless channel by an encryption method in a wireless layer, and performs signal conversion according to the wireless method to be used.
[0036]
1 amplifies the electric signal from the radio signal modulation / demodulation unit 1-8 to a predetermined power and sends it to a radio antenna 1-10 indicated by 1-10 in FIG. It has a function to transmit and a frequency filter function to prevent unnecessary radiation. In addition, the wireless antenna 1-10 has a function of amplifying a signal within a required frequency band of the radio wave received and extracting it as an electrical signal. Further, when a diversity scheme using a plurality of radio antennas 1-10 is employed, the radio signal transmission / reception unit 1-9 has a diversity function for selecting a radio antenna in an optimal reception state.
[0037]
By having the above functions in each component, the optical wireless integrated termination device 1-1 can connect the optical fiber communication line with the accommodation station from the wired access at the user's home where the device is located and from the user's home. It can be used simultaneously for wireless access with a plurality of wireless terminals within the reach of radio waves.
[0038]
Next, another example of the implementation of the optical wireless integrated termination device of the present invention will be described with reference to FIG. FIG. 2 is a diagram showing an internal functional configuration of the optical wireless integrated terminal device of the present invention.
[0039]
The optical / wireless integrated termination device of the present invention shown in FIG. 2 in FIG. 2 is connected to the wired / wireless line demultiplexing unit 1-4 of the optical / wireless integrated termination device 1-1 of FIG. The wired / wireless line bandwidth control unit shown in 2-5 is added, and the functions and operations of other functional units are the same as those in FIG.
[0040]
The wired / wireless line bandwidth control unit 2-5 has a function of performing bandwidth control and priority control between the wired access line and the wireless access line according to the setting of the user or the communication carrier.
[0041]
In the case of FIG. 1, the bandwidths of the wired access line and the wireless access line are fixedly allocated in advance, but the wired / wireless line bandwidth control unit 2-5 assigns these bandwidths according to the usage status. It can be dynamically allocated, and more efficient bandwidth use is possible. In addition, by providing a priority control function, when traffic exceeds the capacity of the optical fiber communication line, priority processing to discard data with low priority is performed, or data with high real-time properties is transferred with priority, It is possible to perform priority processing for suppressing the delay amount.
[0042]
The bandwidth control function and the priority control function, for example, set several service classes for wired access lines and wireless access lines, and provide buffer memories for storing data for each service class. This can be realized by changing the order of reading data and the amount of data read at a time according to the service class.
[0043]
As described above, by using the wired / wireless line bandwidth control unit 2-5, the utilization efficiency of the optical fiber communication line is improved, and a flexible service according to the usage form of the user can be provided.
[0044]
Another example of the implementation of the optical wireless integrated terminal device of the present invention will be described with reference to FIG. FIG. 3 is a diagram showing an internal functional configuration of the optical wireless integrated terminal device of the present invention.
[0045]
The optical / wireless integrated termination device 3-1 of the present invention shown in FIG. 3 in FIG. 3 includes the wired / wireless line demultiplexing unit 1-4 and the wireless circuit termination of the optical / wireless integrated termination device 1-1 of FIG. A configuration in which a wireless user / terminal authentication unit indicated by 3-7 in the figure and a wireless user / terminal authentication database indicated by 3-8 in the figure attached thereto are added between the unit 1-7 and other functions. The functions and operations of the units are the same as those in FIG.
[0046]
The wireless user / terminal authentication unit 3-7 performs terminal authentication or user authentication for each wireless channel transferred from the wireless line termination unit 3-9, and permits connection of the wireless channel according to the authentication result. It has a function to decide whether to refuse or not. Only the wireless channel whose connection is permitted by the authentication can communicate with the accommodation station via the wired / wireless line multiplexer / demultiplexer 3-4.
[0047]
The user ID and password used for terminal authentication or user authentication are stored in the wireless user / terminal authentication database 3-8, and the wireless user / terminal authentication unit 3-7 performs authentication with reference to this database. The wireless user / terminal authentication database 3-8 is managed and updated either by a user using a wired access line, or by a communication carrier through an operation line.
[0048]
In this way, by using the wireless user / terminal authentication unit 3-7 and the wireless user / terminal authentication database 3-8, only the wireless terminals and wireless users registered in advance are permitted to connect to the upper network, An access system with higher security can be realized because it is possible to avoid an unauthorized intrusion of others into the network.
[0049]
Next, an optical wireless integrated access system using the optical wireless integrated termination device of the present invention will be described with reference to FIG.
[0050]
The optical and wireless integrated access system using the integrated optical and wireless terminal device of the present invention shown in FIG. 4 includes a base station 4-1 and a receiving station that accommodates a plurality of base stations through an optical fiber transmission line 4-3. 4-2. The base station 4-1 includes an optical / wireless integrated termination device 4-4 that terminates the optical fiber transmission line 4-3. The optical / wireless integrated termination device 4-4 has a transmission band of the optical fiber transmission line 4-3. It has a function of providing a part of it as a wired access line for wired communication in the base station and a function of using the remaining transmission band as a wireless access line for wireless communication with a plurality of wireless terminals 4-11. 4-2 includes a transmission device 4-7 for terminating the optical fiber transmission line 4-3 and an authentication function 4-8.
[0051]
The wireless terminal 4-11 may be a wireless station that is fixedly placed at the user's home or a portable mobile terminal, but is wirelessly connected to a base station 4-1 of a telecommunications carrier registered in advance as a user. As this wireless transmission system, there are various systems such as a mobile phone system, PHS, a wireless LAN based on the IEEE 802.11 standard, the Bluetooth system, etc., and can be selected according to the nature of the access service to be provided.
[0052]
The base station 4-1 is installed at a user's home or business office of a user who uses an optical fiber communication service provided by a communication carrier. In the base station 4-1, this optical fiber communication line is terminated by the optical wireless integrated termination device 4-4, and a user in the base station accesses a part of the band of the optical fiber communication line through the user interface. Use as a line. On the other hand, the optical wireless integrated terminal device 4-4 can transmit and receive the remaining band wirelessly via the wireless antenna 4-6, and can be used for wireless transmission with the wireless terminal 4-11.
[0053]
The optical wireless integrated terminal device 4-4 can be provided with a function of setting a service class by setting priority and transmission band for each of the wired access and the wireless access as necessary. As a result, for example, wired access is given the highest priority, and the wireless access is set so that the surplus bandwidth can be used only when the wired access user of the base station 4-1 is not using the bandwidth, or the wireless terminal 4-11 By guaranteeing the minimum bandwidth used for services such as voice communication and telephone, and by preferentially transferring these to other data packets, maintaining a certain communication quality against delay and continuity, A service class can be set according to user needs.
[0054]
The accommodation station 4-2 is installed in a station or the like of a provider that provides a service using the system of the present invention, terminates the optical fiber communication line by the transmission device 4-7, and other wireless base stations or accommodations. Connect to the station. The transmission device 4-7 is connected to the transfer network 4-9 owned by this operator, or connected to another operator network 4-10 or the Internet 4-10 via an access point opened to another operator. Can be done. When a mobile phone system or PHS is used as the wireless method, the location information of the mobile terminal or the user is stored in the accommodating station 4-2 or the carrier's transfer network 4-9 as in the conventional mobile network. A server or database for registering and retrieving information may be set up.
[0055]
Hereinafter, with reference to FIGS. 5 to 7, a user authentication method using the optical wireless integrated termination device of the present invention will be described. 5 to 7 show, as examples, the functional configuration and procedure outline of the user authentication method.
[0056]
FIG. 5 shows an example of the user authentication procedure using the optical wireless integrated terminal device of the present invention. In this embodiment, it is confirmed that a user using the wireless user terminal 5-1 belongs to a specific user group registered in advance by the connection authentication function placed in the base station 5-2 or the accommodating station 5-4. The wireless user terminal 5-1 and a specific network
This is an authentication method that enables communication with the carrier transfer network 5-7.
[0057]
In the user authentication method shown in the procedure (a) of FIG. 5, the wireless user terminal 5-1 can wirelessly communicate with the base station 5-3 using, for example, a protocol defined in IEEE 802.11. However, at the beginning of connection, communication with the accommodation station 5-4 and the network carrier transfer network 5-7 at the higher level is not allowed. At the time of starting communication, the wireless user / terminal authentication unit in the wireless user terminal 5-1 and the optical wireless integrated terminal device 5-3 in the base station performs user authentication using a connection ID, a password, etc. When it is confirmed that the user is a user registered in the base station 5-2 in advance, with the accommodation station 5-4, its upper network carrier transfer network 5-7, or an Internet network connected thereto. Communication is possible.
[0058]
The user authentication method shown in the procedure (b) of FIG. 5 uses the optical wireless integrated terminal device 5-3 as a connection reception function, and uses the in-house station authentication function and the database server 5-6 as an authentication database. It is. In this case, the connection reception function connects the wireless user terminal 5-1 and the in-station authentication function 5-6 in the first authentication stage, and in the next stage, the in-station authentication function 5-6 executes the database server. User authentication is performed based on the authentication information 5-6, and the result is notified to the optical wireless integrated terminal device 5-3. Based on the notification result, the optical wireless integrated termination device 5-3 determines whether or not to connect the user to the network carrier transfer network 5-7. If the authentication parameters do not match and the connection is not permitted, the optical wireless integrated termination device 5-3 rejects the connection from this user, and communicates with the accommodating station 5-4 or a higher-order network. Therefore, an authentication function equivalent to the procedure (a) can be realized.
[0059]
With the authentication function of procedure (a) and procedure (b) in FIG. 5, for example, a base station 5-2 is provided in a site of a company or the like, and high-speed wired communication is performed in the base station and at the same time belongs to this company. An access right can be given to the user to enable access by the wireless terminal 5-1. In this case, it is possible to move in a way that is easy to use, such as a wireless LAN, and the user can access it, and a highly secure LAN (Local Area Network) that is closed within the company can be established by user group authentication, and wired communication Effective use of bandwidth is possible.
[0060]
Next, another example of implementation of the user authentication procedure using the optical wireless integrated terminal device of the present invention will be described with reference to FIG. In this embodiment, it is confirmed that the user using the wireless user terminal 6-1 belongs to a specific user group registered in advance by the connection authentication function placed in the base station 6-2 or the accommodating station 6-4. At that time, communication between the wireless user terminal 6-1 and the accommodating station 6-4 becomes possible, and in addition to this, in the accommodating station 6-4, the user communicates with the carrier network 6-7, or It authenticates whether it is a user who has contracted in advance with another operator network or Internet connection service provider network 6-8, and connects to the upper network 6-7, 6-8 only when it is confirmed This authentication method enables communication.
[0061]
An embodiment of the user authentication method shown in the procedure (a) of FIG. 6 will be described in more detail. The user wireless terminal 6-1 wirelessly communicates with the base station 6-2, and as a result of performing user authentication with the optical wireless integrated terminal device 6-3, the user wireless terminal 6-1 confirms with a user group member registered in advance. At that time, communication with the accommodation station 6-4 becomes possible. After this procedure is completed, the wireless user terminal 6-1 transmits the information about the upper network that the user desires to connect to the in-station authentication function and the database server 6-6 placed in the accommodation station 6-4, and the in-station authentication function. 6-5 performs the authentication. As the type of the upper network, in addition to the transfer network 6-7 of the communication carrier providing this connection service, the communication network of the other carrier, the Internet network 6-8, etc. are interconnected via an access point. There is a case. The authentication function 6-6 has a database of registered user information regarding the upper networks 6-7 and 6-8, and based on this, whether or not the wireless user terminal 6-1 is a user / terminal contracted with the upper network in advance. Authenticate. When the authentication is confirmed, the user is allowed to connect to the upper network.
[0062]
The user authentication method shown in the procedure (b) of FIG. 6 uses the optical wireless integrated terminal device 6-3 as a connection reception function, and uses the in-house station authentication function and the database server 6-6 as an authentication database. It is. In this case, the optical wireless integrated terminal device 6-3 connects between the wireless user terminal 6-1 and the in-house station authentication function 6-6 in the first authentication stage, and in the next stage the in-house station authentication function light and The database server 6-6 authenticates the user group whether or not the user is registered in the base station 6-2 in advance and is permitted to connect, and permits connection with specific upper networks 6-7 and 6-8 by a prior contract. Both of the connection authentications as to whether or not the user has been made are performed, and the result is notified to the optical wireless integrated terminal device 6-3. Based on the notification result, the optical wireless integrated terminal device 6-3 permits or rejects the communication with the accommodating station 6-4 of the wireless user terminal 6-1 and its upper network, and is equivalent to the procedure (a). The authentication function can be realized.
[0063]
With the authentication function of procedure (a) and procedure (b) in FIG. 6, for example, a general home user's house is set as a base station 6-2, and wireless access using the optical wireless integrated termination device of the present invention to a specific user in the neighborhood Since the access right of the wireless user can be easily set / released by the user of the base station 6-2, a quick service can be started and the wireless user can easily use it. In addition, since it is possible to connect to a higher-level network such as an Internet connection provider according to the service content and fee requested by the user, a flexible and high added value connection service can be provided.
[0064]
Next, another example of the user authentication procedure using the optical wireless integrated terminal device of the present invention will be described with reference to FIG. In this embodiment, the user using the wireless user terminal 7-1 can connect to the accommodation station 7-4 from an arbitrary base station 7-2, and the optical wireless integrated termination device 7 placed in the accommodation station 7-2. -3 is an authentication method that enables connection and communication with a pre-contracted carrier network 7-7 or another carrier network or Internet connection service provider network 7-8. .
[0065]
The embodiment of the user authentication method shown in FIG. 7 will be described in more detail. The wireless user terminal 7-1 performs wireless communication with the base station 7-2 and connects to the authentication function 7-6 in the accommodating station 7-4 via a wired line. Next, in the accommodation station authentication function and database server 7-6, connection authentication is performed to determine whether or not the user of the wireless user terminal 7-1 is a user who has contracted and registered in advance with respect to a specific host network that the user desires to connect to. When the authentication is permitted, the wireless terminal 7-1 is connected to the upper network and can communicate.
[0066]
In the user authentication method shown in FIG. 7, any terminal can be connected to the accommodating station 4-4 as long as it is a wireless user terminal 7-1 adapted to the wireless communication method provided by the base station 7-2. Yes, it is possible to communicate between wireless terminals.
[0067]
With the authentication function shown in FIG. 7, for example, a station, a park, a highway service area, a public facility such as a public telephone is used as a base station 7-2, and the accommodation stations 7-4 accommodating these are connected by a communication network. By providing a universal wireless access service that is not limited to any area, and by accessing servers placed in these facilities, for example, timetables and operation information of trains at stations, traffic congestion information on roads, etc. Various useful information can be used by the user, and services with high convenience and publicity can be provided.
[0068]
5 to 7 can be provided with a function for charging according to a contract form such as a service class, an actual data communication amount, and the like in each of the in-house station authentication functions and the database server. With this billing function, it is possible to charge for specific user groups that have been set in advance and the types of higher-level networks with which the user has contracted, under detailed conditions, and a wide range of service provision forms and fee settings are possible .
[0069]
Next, an example of implementation of an optical wireless integrated access system using the optical wireless integrated termination device of the present invention will be described with reference to FIG. 8 uses the wireless relay station indicated by reference numeral 8-13 in the figure, so that in addition to the service providing function realized by the system configuration of FIG. 4 and the user authentication method of FIGS. The number of users that can be accommodated in the base station can be increased.
[0070]
In FIG. 8, the wireless user terminal 8-11 does not directly perform wireless communication with the base station 8-1, but communicates with the base station 8-1 through the wireless relay station 8-13. The radio relay station 8-13 has a function of once terminating a radio channel with the base station 8-1 and demultiplexing a plurality of channels multiplexed in the channel, thereby providing a plurality of radio user terminals 8-11. And the base station 8-1 can be relayed. The wireless communication system and frequency band between the wireless user terminal 8-11 and the wireless relay station 8-13 are the wireless communication system and frequency band between the wireless relay station 8-13 and the base station 8-1. As long as these lines do not interfere with each other, the same method may be used, or a different method may be used. When the same method is used for both, for example, a line between the wireless user terminal 8-11 and the wireless relay station 8-13, a line between the wireless relay station 8-13 and the base station 8-1, Can be transmitted using different carrier frequencies or separated using different spreading codes to prevent mutual interference. Further, interference between the radio relay stations 8-13 can be avoided by the same method.
[0071]
In general, the frequency band of radio waves that can be used for wireless communication is restricted by laws and regulations, and there are limits on the wireless system, so there is an upper limit on the number of wireless lines that can be communicated in the same area. However, by using the optical wireless integrated terminal device of the present invention as described above and configuring a system using the radio relay station 8-13, the number of radio channels that can be accommodated by one base station can be increased. In addition, since the wireless transmission distance from the base station can be extended, the area where service can be provided from one base station can be expanded.
[0072]
【The invention's effect】
As described above, according to the present invention, a wireless communication service with high user convenience can be economically provided by combining it with a high-speed wired access method such as optical fiber communication, and by appropriate user authentication means, In addition to ensuring security when connecting to a specific network, it is possible to realize a necessary billing function. In the wired access system, the surplus bandwidth is used for wireless access, so that the substantial initial investment can be reduced and the communication fee can be reduced in accordance with the actual situation of using the communication bandwidth.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an optical wireless integrated termination device according to an embodiment of the present invention.
FIG. 2 is a configuration diagram of an optical wireless integrated termination device having a bandwidth control function according to an embodiment of the present invention.
FIG. 3 is a configuration diagram of an optical / radio integrated terminal device having a wireless terminal / user authentication function according to an embodiment of the present invention;
FIG. 4 is a configuration diagram showing an embodiment of an optical wireless integrated communication system using the optical wireless integrated termination device of the present invention.
FIG. 5 is a diagram for explaining an embodiment of the authentication procedure of the optical wireless integrated communication system using the optical wireless integrated termination device of the present invention.
FIG. 6 is a diagram for explaining an embodiment of the authentication procedure of the optical wireless integrated communication system using the optical wireless integrated termination device of the present invention.
FIG. 7 is a diagram for explaining an embodiment of the authentication procedure of the optical wireless integrated communication system using the optical wireless integrated termination device of the present invention.
FIG. 8 is a block diagram showing an embodiment using a wireless relay station of an optical wireless integrated communication system using the optical wireless integrated termination device of the present invention.
[Explanation of symbols]
1-1, 2-1, 3-1, 4-4, 5-3, 6-3, 7-3, 8-4
1-2, 2-2, 3-2, 4-3, 8-3 Optical fiber transmission line
1-3, 2-3, 3-3 Optical line termination
1-4, 2-4, 3-4 Wired / wireless line demultiplexer
1-5, 2-6, 3-5 Wired line termination
1-6, 2-7, 3-6 User interface termination
1-7, 2-8, 3-9 Radio circuit termination
1-8, 2-9, 3-10 Wireless signal modulator / demodulator
1-9, 2-10, 3-11 Wireless signal transceiver
1-10, 2-11, 3-12, 4-6, 8-6 Wireless antenna
1-11, 2-12, 3-13 User interface
1-12, 2-13, 3-14, 4-5, 8-5 User terminal
2-5 Wired / wireless line bandwidth controller
3-7 Wireless User / Terminal Authentication Unit
3-8 Wireless user / terminal authentication database
4-1, 5-2, 6-2, 7-2, 8-1 Base station
4-2, 5-4, 6-4, 7-4, 8-2
4-7, 5-5, 6-5, 7-5, 8-7 Transmission equipment
4-8, 5-6, 6-6, 7-6, 8-8 Authentication function in the containment station and database server
4-9, 5-7, 6-7, 7-7, 8-9 Carrier transfer network
4-10, 6-8, 7-8, 8-10 Separate operator network / Internet network
4-11, 5-1, 6-1, 7-1, 8-11 Wireless user terminal
4-12, 8-12 Wireless access area
8-13 Wireless relay station

Claims (5)

A communication line termination unit for connecting to a wired transmission line and terminating a communication line performed via the wired transmission line;
Wired / wireless line having a function of transferring data to and from the communication line terminator and demultiplexing a part of the communication band of the communication line as a wired access line and the remaining part as a wireless access line A demultiplexing unit;
A wired line termination unit that is connected to the wired / wireless line demultiplexing unit, terminates the wired access line, and performs conversion with a wired device interface;
A user interface terminator connected to the wired line terminator and converting between the wired device interface and a user interface;
A wireless line termination unit that connects to the wired / wireless line demultiplexing unit, terminates the wireless access line, and converts the wireless access interface;
A wireless signal modulator / demodulator connected to the wireless line termination unit for converting between the wireless in-device interface and a wireless transmission signal;
Connected to the wireless signal modulation / demodulation unit, sends the radio transmission signal as a radio wave via a radio antenna, and transfers the radio signal received by the radio antenna to the radio signal modulation / demodulation unit as the radio transmission signal, A wireless signal transmitting and receiving unit;
A wired / wireless integrated termination device comprising: In the wired / wireless line demultiplexing unit, at least one type of service class can be set for each of the wired access line and the wireless access line, and desired transmission bandwidth control and priority transfer control can be performed for each service class. A wired / wireless line bandwidth controller is added.
The wired / wireless integrated termination device according to claim 1. Between the wired / wireless line multiplexer / demultiplexer and the wireless line termination unit, each of a plurality of wireless users or wireless terminals using a wireless access line is checked against previously registered authentication data and according to the result. The wired / wireless integrated termination apparatus according to claim 1, further comprising a wireless user / terminal authentication unit that can set whether or not line connection is possible. The wired and wireless integrated termination device according to claim 1, wherein the wired transmission path is an optical fiber transmission path, the communication line is an optical communication line, and the communication line termination unit is an optical communication line termination unit. A base station connected to a communication network via a wired transmission path;
Having at least one wireless terminal connected to the base station via wireless;
The base station has a wired / wireless integrated termination device that terminates the transmission line and the wireless terminal, and at least one base station terminal coupled to the termination device by wired means,
The wired and wireless integrated termination device is connected to a wired transmission path, and a communication line termination unit that terminates a communication line performed through the wired transmission path;
Wired / wireless line having a function of transferring data to and from the communication line terminator and demultiplexing a part of the communication band of the communication line as a wired access line and the remaining part as a wireless access line A demultiplexing unit;
A wired line termination unit that is connected to the wired / wireless line demultiplexing unit, terminates the wired access line, and performs conversion with a wired device interface;
A user interface terminator connected to the wired line terminator and converting between the wired device interface and a user interface;
A wireless line termination unit that connects to the wired / wireless line demultiplexing unit, terminates the wireless access line, and converts the wireless access interface;
A wireless signal modulator / demodulator connected to the wireless line termination unit for converting between the wireless in-device interface and a wireless transmission signal;
Connected to the wireless signal modulation / demodulation unit, sends the radio transmission signal as a radio wave via a radio antenna, and transfers the radio signal received by the radio antenna to the radio signal modulation / demodulation unit as the radio transmission signal, A wireless signal transmitting and receiving unit;
A wired and wireless integrated network characterized by comprising:

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