JP4256109B2 - Information relay device, CATV system, and information communication system in building - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an information relay device for connecting an indoor terminal device and an external network via a CATV network, and a CATV system including the information relay device on the terminal side.
[0002]
[Prior art]
Conventionally, a downstream signal such as a video signal output from a CATV center and transmitted via an external (outdoor) transmission path is taken into a building (indoor), and a plurality of signals are transmitted via a transmission line wired indoors. 2. Description of the Related Art A so-called bidirectional CATV system is known that transmits a signal to a terminal device and transmits a signal output from the terminal device to a CATV center via an outdoor transmission line.
[0003]
In this type of CATV system, a subscriber terminal device such as a set-top box (hereinafter abbreviated as “STB”) can receive a television broadcast by receiving a downstream signal such as a video signal, and is also used for a television broadcast. Information such as program reservations can be transmitted from the subscriber side to the CATV center or connected to an external network such as the Internet using a non-frequency band. In particular, the Internet connection via the CATV network has been increasing in recent years because it can always realize a high-speed connection at a relatively low cost.
[0004]
By the way, in the bidirectional CATV system as described above, noise (especially a short wave band of 10 to 30 MHz) generated indoors where the subscriber is occupying the subscriber terminal (also referred to as a TV terminal) or the like. There is a problem in that it is superimposed on an indoor transmission line through the cable and flows out to the CATV center as inflow noise.
[0005]
The cable modem used on the terminal side when connecting to the Internet via the CATV network is ITU-T J.P. 112 Annex B (hereinafter referred to as Annex B system) defines a standard specification. For example, the specification is determined so that bidirectional data communication is performed using an uplink signal in a frequency band of 5 to 42 MHz. Therefore, it is necessary for the terminal side to be configured so that an upstream signal in this frequency band can be transmitted to the CATV center side, so that the above-mentioned infusion noise included in the upstream signal frequency band from the cable modem is also included with the upstream signal. It is sent to the CATV center side.
[0006]
Therefore, in order to prevent inflow noise from flowing out to the CATV center side, for example, as shown in FIG. 7, there is known a method of separating indoor wiring for television signals and for the Internet. FIG. 7 is an explanatory diagram showing a schematic configuration on the terminal side in a conventional CATV system.
[0007]
That is, in general, in a CATV system, a downstream signal from a CATV center is transmitted to a subscriber's house via an outdoor transmission line such as a coaxial cable, and is transmitted indoors via a protector 41. The output (wiring) from the protector 41 to the room is divided into two systems. One of them is drawn indoors from the wall near the protector 41 and transmitted to the television receiver 44 through a high-pass filter (hereinafter abbreviated as “HPF”) 42 and the STB 43. The coaxial cable 47 is routed along the outdoor wall to the vicinity of the room where the cable modem 45 and the personal computer (hereinafter referred to as “PC”) 46 are installed, without being drawn into the room immediately from the container 41, and then into the room. It is pulled in and connected to the personal computer 46 via the cable modem 45.
[0008]
In this way, the Internet wiring is separated from the TV signal wiring and the outdoor wiring is performed to the vicinity of the terminal device, so that the inflow noise generated indoors is superimposed on the Internet wiring and the coaxial cable 47 is connected. Outflow to the CATV center side through the network. Note that the inflow noise superimposed on the TV signal wiring is prevented from flowing out outdoors by the HPF 42 (cutoff frequency is, for example, 70 MHz).
[0009]
[Problems to be solved by the invention]
However, the method of dividing the wiring from the protector 41 into the indoor system as in the CATV system 40 of FIG. 7 can suppress the influence of inflow noise, but in addition to the wiring for the TV signal, the Internet Wiring (coaxial cable 47) must be routed outdoors on the wall, and a hole must be made in the wall near the room where the cable modem 45 is installed, leading to indoors. Cost increases. Moreover, the aesthetic appearance of the subscriber's house is also impaired by wiring along the wall outdoors.
[0010]
The present invention has been made in view of the above problems, and in a CATV system that can be connected from an indoor terminal device to an external network such as the Internet via a CATV network, inflow noise can be reduced without impairing the aesthetics of the subscriber's home. It aims at suppressing efficiently.
[0011]
[Means for Solving the Problems and Effects of the Invention]
The information relay apparatus according to claim 1, which has been made to solve the above problem, connects an indoor terminal apparatus and an external network (for example, the Internet) via a CATV network, and relays data transmitted and received between them. The wireless relay device and the cable modem are stored in a waterproof storage box and installed outdoors.
[0012]
  The wireless relay device relays data transmitted wirelessly from an indoor terminal device and transmits the data to an external network side (CATV network), and also transmits data transmitted from the external network via the CATV network wirelessly The cable modem is a well-known modem that is indispensable for connecting to the Internet (hereinafter referred to as “CATV Internet”) via a CATV network. Connected between the device and the CATV network.
The wireless relay device is an access point having a function of relaying data communication between a plurality of terminal devices installed indoors. An access point is a well-known device used when relaying data transmission / reception between terminal devices in a wireless LAN.
[0013]
Thereby, the data transmitted from the external network is input to the information relay device installed outdoors, and is wirelessly output from the wireless relay device via the cable modem. In addition, a signal transmitted wirelessly from an indoor terminal device is first received by a wireless relay device in an outdoor information relay device, and transmitted to a CATV network (external network side) via a cable modem. That is, an information relay device is installed outdoors, and data transmission / reception between the information relay device and an indoor terminal device is performed wirelessly.
[0014]
Therefore, according to the information relay device of the present invention, since it is not necessary to directly connect the indoor terminal device and the outdoor information relay device with a cable, the facility work can be easily performed without impairing the beauty of the subscriber's house. Can be. Moreover, since data transmission from the terminal device to the information relay device is performed wirelessly and transmitted to the external network side via a cable modem outdoors (inside the information relay device), there is a special measure for preventing inflow noise. Without providing facilities, the outflow of inflow noise generated in the subscriber premises to the CATV network can be easily and significantly reduced.
[0015]
In addition, since the information relay apparatus and the indoor are not connected by wire, unauthorized viewing of TV broadcasts (hidden TV viewing) can be prevented. That is, in the CATV system, a subscriber can make a contract that enables both TV broadcast reception and Internet connection, and can generally make a contract only for the Internet connection. In order to connect to the Internet, a cable from the CATV center was drawn indoors and connected to a terminal device such as a cable modem. However, even if the contract is only for the CATV Internet, the downlink signal from the outside includes the TV broadcast signal from the CATV center, so that the subscriber can receive the TV broadcast signal to a device capable of receiving the TV broadcast. By taking in, there is a possibility that the TV broadcast can be illegally viewed. Therefore, if the data transmission / reception between the outdoor information relay device and the indoor terminal device is performed wirelessly as in the present invention, such hidden TV viewing can be prevented.
[0016]
  Furthermore, since there is no need to connect the information relay device and the indoor via a cable, for example, a resident in a house where a TV broadcast home joint reception system has already been constructed does not need to receive a TV broadcast by CATV. However, if you want to avoid contracting the cable into the house but want to make a contract only for the CATV Internet, or pulling in the cable according to the housing conditions (for example, if you cannot get the cable pull-in consent from the housing manager in the apartment house) Although it is not possible to respond to various requests such as being in the CATV service area and wanting to receive only the CATV Internet service, the residents in the CATV service area can enjoy at least data communication services such as the Internet. Become.
In addition, of course, connection to an external network using an information relay device can be performed by a terminal device installed indoors, but in recent years, a general home has a plurality of terminal devices. There is an increasing demand for connecting each terminal device to an external network. In this case, there is an increasing demand not only for data transmission / reception between individual terminal devices and external networks, but also for so-called LAN construction that enables data transmission / reception among a plurality of terminal devices. In particular, wireless LAN that can transmit and receive data between terminal devices wirelessly has been attracting attention.
In contrast, in the present invention, since the information relay device is an access point, the subscriber can connect to an external network wirelessly from a plurality of indoor terminal devices, and can also transmit and receive data between the plurality of terminal devices ( In other words, a wireless LAN via an access point is constructed), and it is possible to provide a user-friendly system service to the subscriber.
[0017]
Here, as the antenna provided in the wireless relay device, any type of antenna can be used regardless of omnidirectionality and directivity as long as good wireless transmission can be performed with an indoor terminal device. As described in Item 2, a directional antenna is more preferable. For example, if a directional antenna is used so that it is radiated with high power toward the indoor direction, the radiation efficiency from the antenna can be increased and the communicable distance can be increased, which makes it more efficient. Data transmission / reception becomes possible. Moreover, if an omnidirectional antenna is used, radio waves are radiated within a specified range even outdoors, which may cause some interference with outdoor electronic devices, but use a directional antenna. Thus, radiation in directions other than indoors can be reduced, and the influence on the outside can be suppressed.
[0018]
Further, in the information relay device of the present invention, if the wireless relay device and the cable modem are integrated as described in claim 3, the amount of wiring inside the information relay device and the size of the device housing can be reduced. Since it becomes possible, it is more preferable. Furthermore, as described in claim 4, the waterproof storage box is configured such that a signal transmission device (for example, a protector) connectable on a transmission path for transmitting the data in the CATV network is accommodated. In this way, it is particularly effective when it is difficult to secure a place where the information relay device and other signal transmission devices are individually installed individually, and various types of devices installed on an outdoor CATV transmission path are also available. The cost of the entire signal transmission device can also be reduced.
[0021]
  AndAndAs a connection from a plurality of terminal devices to an external network, for example, a connection to the Internet is conceivable. However, when a general subscriber connects to the Internet, it is usually an Internet service provider (hereinafter referred to as “ISP (Internet Service Provider)”). Since only one IP address (global address) is assigned from the terminal device, when one of the plurality of terminal devices acquires the IP address and connects to the Internet, the other terminal device returns the IP address. Until you can not connect to the Internet. That is, a plurality of terminal devices cannot be connected to the Internet at the same time.
[0022]
  So, for example, claims5As described in1 to 4In the described information relay device, the external network is the Internet, and the access point assigns one global IP address assigned from the Internet side to each terminal device so that a plurality of terminal devices can simultaneously connect to the Internet. An IP address translation function (so-called general function of a router) such as NAT (Network Address Translation) or IP masquerading for translation into a private IP address may be provided.
[0023]
NAT is an IP address (designated as a source host and destination host in a TCP / IP environment) defined by RFC1631 (one of various standards and specifications compiled by IETF, a standardization body for Internet-related technologies). And the address stored in the header portion of the IP packet). More specifically, for example, an IP address (private address) that can be used only in a closed network such as an indoor LAN and an IP address (global address) assigned by a public institution so as not to be duplicated for each user on the Internet. It is a function to convert. The IP masquerade is a function for converting an address as in the case of NAT, and converts a TCP / UDP port number in addition to an IP address.
[0024]
  Therefore, the claims5According to the described information relay device, since a plurality of indoor terminal devices can be simultaneously connected to the Internet, the subscriber side can appropriately install a plurality of terminal devices as necessary.
  Here, in addition to data transmission / reception with external networks such as the CATV Internet as described above, various services via the CATV network include cable transmission of TV broadcast, which is the original purpose of CATV. The TV broadcast signal and the data signal from the external network are transmitted through the same transmission path (for example, a coaxial cable). Therefore, the information relay device of the present invention is, for example, a claim6As described above, out of the down signals including data from the external network input through the CATV network, the data other than the data output from the CATV center installed between the external network and the CATV network. It is good to comprise as another downstream signal (TV broadcast signal etc.) as a thing provided with the downstream signal passage path | route for sending out to the transmission line wired indoors as it is.
[0025]
In this way, data transmission / reception to / from the external network is performed wirelessly with the indoor terminal device, and other downstream signals other than the data are left indoors via the downstream signal passing path as they are. Since it can be sent out on the transmission line, both CATV Internet connection and TV viewing services can be enjoyed comfortably.
[0026]
  In addition, when data transmission / reception is performed wirelessly with an indoor terminal device using the information relay device of the present invention, depending on the indoor structure, the distance between the information relay device and the terminal device, etc., good communication is possible without receiving radio waves. There is a possibility that it cannot be done.
  Therefore, the above claims6When it is configured to be able to send a TV broadcast signal or the like to an indoor transmission line as in the described invention (including a downlink signal passing path), for example,7As described above, the wireless relay device transmits the transmission signal wirelessly transmitted from the antenna to the downlink signal passing path and sends it to the indoor transmission line together with other downlink signals, and also transmits from the terminal device via the transmission line. It is preferable to provide a wired transmission means for inputting the upstream signal transmitted on the signal passing path to the wireless relay device.
[0027]
  As described above, the transmission signal including data transmitted / received to / from the external network is wirelessly transmitted via the antenna, and at the same time, the transmission signal is also transmitted indoors by wire, so that the transmission signal is appropriately transmitted indoors to the terminal device. (Wired directly or wirelessly), sharing wireless transmission from the outside and transmission from the indoor transmission line, it is possible to connect the terminal device to the external network at any place indoors .
  Next, the claim8The CATV system according to claim 1,7Any one of the information relay apparatuses described above is provided on the terminal side, and data communication can be performed between the indoor terminal apparatus and the external network via the information relay apparatus. By constructing a CATV system using the information relay device of the present invention, a CATV system capable of suppressing the inflow noise generated indoors from flowing out to the outside (CATV center side) is required for wiring work on the subscriber side. This can be achieved without reducing labor and costs and without damaging the aesthetics of the subscriber's home.
[0028]
  In addition, as described above, in the CATV system as described above, depending on the indoor structure, the position of the terminal device, and the like, there is a possibility that radio waves do not reach between the information relay device and the terminal device and good communication cannot be performed. is there. Therefore, the claim8The CATV system described is for example claimed9As described in7On the transmission line wired indoors, which is connected to the downlink signal passing path provided in the information relay apparatus, and is transmitted indoors via the transmission line superimposed on the downlink signal passing path. The transmission signal may be output wirelessly, and an antenna may be connected to receive the uplink signal output wirelessly from the terminal device and send it to the information relay device side via the transmission line.
[0029]
In other words, in addition to data transmission / reception between the terminal device and the outdoor information relay device for data transmitted / received to / from the external network, an antenna is also installed on the indoor transmission line, and the data is transmitted via the antenna. Thus, data can be transmitted and received between the terminal device and the outdoor information relay device.
[0030]
  Therefore, the claims9According to the described CATV system, even when the terminal device is installed at a position other than the range where transmission and reception by the antenna provided in the information relay device installed outdoors can be transmitted and received by the antenna installed indoors, It is possible to connect to an external network and transmit / receive data between terminal devices from any indoor location.
[0031]
By the way, not everyone can subscribe to the CATV service so far, and the fact is that it may not be possible depending on the residence or area of the person who wants to subscribe. However, by transmitting and receiving data via the information relay apparatus of the present invention, it is sufficiently assumed that even if a resident in an area where the CATV cable cannot be drawn (outside the CATV service area), only data communication is possible. That is, even if the cable is not retracted, only data communication is possible if the antenna can be installed in a range where radio waves from the information relay apparatus installed in the CATV area can reach.
[0032]
As an example, it is assumed that the radio wave from the information relay device reaches the end of the residence (for example, the tip of the veranda) but not the inside of the residence. In such a case, there is a need to receive only the data communication service. Is expected to occur.
[0033]
  Therefore, the claim10The in-building information communication system according to claim 1, wherein the terminal device provided in the building is installed outside the building.5It is configured to be able to perform data communication with an external network via any of the information relay devices described above, and receives data transmitted wirelessly from the information relay device and from the terminal device A relay antenna for wirelessly transmitting the data to the information relay device, a relay transmission line wired in the building and connected at one end to the relay antenna, and connected to the other end of the relay transmission line and relayed The data from the information relay device received by the antenna and transmitted on the relay transmission line is wirelessly transmitted to the terminal device, and the data transmitted from the terminal device is received wirelessly and transmitted to the relay transmission line. A terminal-side antenna.
[0034]
The terminal-side antenna can be installed at an arbitrary position within a range that can be connected to the relay antenna via the relay transmission line. According to the in-building information communication system configured as described above, even if there is a terminal device in a place where data cannot be directly transmitted to and received from the information relay device in the building, the terminal-side antenna is installed in the vicinity of the terminal device. By installing, data transmission / reception with the information relay device can be performed via the terminal-side antenna, the relay transmission line, and the relay antenna. Therefore, as long as a relay antenna can be installed in the communication area of the information relay apparatus, data communication can be performed even if the terminal apparatus is outside the CATV service area.
[0035]
On the other hand, an ordinary residence is equipped with an antenna that receives TV broadcast radio waves (such as UHF, VHF, BS, or CS broadcast radio waves), and transmits a reception signal from each antenna to each part (each room) in the residence. In most cases, a so-called home joint reception system or building joint reception system is constructed.
[0036]
  In such cases, for example, the claims11It is possible to construct an in-building information communication system as described. That is, the claim11The in-building information communication system includes a reception antenna that receives broadcast radio waves, and a plurality of terminals in the building receive broadcast reception signals from the reception antenna via transmission lines wired in the building. A terminal device configured to transmit to a terminal and provided in the building is installed outside the building.5It is configured to enable data communication with an external network via any of the information relay devices.
[0037]
And the relay antenna for receiving the data transmitted from the information relay device wirelessly and transmitting the data from the front end device wirelessly to the information relay device, wired in the building, and one end of the relay antenna The data is transmitted from the relay transmission line connected to the other end of the relay transmission line, mixed with the broadcast reception signal, and the data received from the information transmission device received by the relay antenna and transmitted on the relay transmission line. A branch mixing means for transmitting the data transmitted from the terminal device and transmitted on the transmission line to the terminal terminal, and branching and mixing means for branching out the data from the transmission line to the relay transmission line, and connected to at least one terminal terminal; The data from the information relay device transmitted on the transmission line is transmitted to the terminal device wirelessly, and the data transmitted from the terminal device is received wirelessly and sent to the transmission line. Comprises a because the terminal antenna, the.
[0038]
That is, by connecting the relay antenna and the transmission line for the broadcast reception signal via the relay transmission line and the branch mixing means, the transmission line from the branch mixing means to the terminal terminal side is connected to the broadcast reception signal and the data communication. It is shared with the other. As a result, it is possible to construct an in-building information communication system capable of data communication by effectively using the already constructed system for receiving broadcast radio waves.
[0039]
  However, the above claims10 or 11In such a system, there is a possibility that data communication cannot be performed satisfactorily due to, for example, the distance between the information relay device and the relay antenna or the transmission loss from the relay antenna to the terminal side antenna in the building.
  So, for example, claims12As claimed in10 or 11In the in-building information communication system described above, the data from the information relay device received by the relay antenna is amplified on the relay transmission line and transmitted to the terminal device side, and the data from the terminal device is amplified to the relay antenna. It is good to have the relay amplification means to send out. As a result, for example, even if the radio wave level from the information relay device received by the relay antenna is weak, the relay amplification means can amplify the received signal to a level sufficient for transmission to the terminal device. Therefore, data communication between the terminal device and the information relay device (and thus data communication between the terminal device and the external network) can be performed satisfactorily.
[0040]
  The relay amplification means is not only for amplifying a signal transmitted on the relay transmission line, but also for claim5As with the wireless relay device included in the information relay device described in (1), it is more preferable to configure the device as having an IP address conversion function.
[0041]
DETAILED DESCRIPTION OF THE INVENTION
[First Embodiment]
Preferred embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is an explanatory diagram showing a schematic configuration of the entire CATV system of the present embodiment.
[0042]
As shown in FIG. 1, the CATV system 10 of this embodiment transmits a downlink signal output from the CATV center 21 to the terminal side via the trunk line 22 and the branch lines 23 and 24 and transmits an uplink signal output from the terminal side. Can be transmitted to the CATV center 21 via the branch lines 23 and 24 and the trunk line 22.
[0043]
Although not shown, the CATV center 21 includes a headend device for sending various broadcasts such as terrestrial television broadcasts, satellite broadcasts, and data broadcasts from communication satellites to the trunk line 22 and for connecting to the Internet. Various devices (routers, servers, etc.) are also provided. Various data input from the Internet is input to the headend device via various devices in the CATV center 21, and is transmitted to the main line 22 as a downstream signal together with other signals (such as a television broadcast signal).
[0044]
Downlink signals (television broadcast signals and data signals) output from the CATV center 21 are transmitted on the trunk line 22 while being amplified by the trunk line amplifier TA and the trunk line branch amplifier TBA. Branch to line 23. The downstream signal branched by the main branch amplifier TBA is further amplified by the extension amplifier EA and then branched and output by the two branch lines 24.
[0045]
On the branch line 24, a branching unit (tap-off) 25 for branching the downstream signal to the subscriber's home side is installed, and the branch output from the branching unit 25 is sent to the information relay device via the protector 41. 11 is input. Of the downlink signals input to the information relay device 11, data from the Internet is radiated from the directional antenna 12 (for example, Yagi antenna or collinear antenna) in the 2.4 GHz band, and other downlink signals ( A television broadcast signal or the like) passes through the information relay device 11 as it is and is sent to the indoor transmission line 26. The directional antenna 12 is installed with its orientation adjusted so that the radiation gain in the indoor direction increases.
[0046]
The radio waves radiated from the directional antenna 12 are received by the interface cards 1a to 1c provided in each of a plurality of indoor terminal devices (in this embodiment, personal computers) PC1, PC2, and PC3. Other downstream signals are transmitted on the indoor transmission line 26 and input to the STB 43 via the power supply unit 27 and the television terminal 28. Further, in the present embodiment, in the information relay apparatus 11, the data can be transmitted and received through the interface card 1 d from the terminal apparatus PC 4 located outside the communicable area by the directional antenna 12 indoors. A 2.4 GHz band signal (transmission signal) transmitted as a radio wave from the directional antenna 12 is also transmitted to the indoor transmission line 26 as it is (details will be described later). It radiates | emits from the indoor antenna 29 connected to 28 by radio | wireless.
[0047]
Each of the interface cards 1a to 1d is configured when each of the terminal devices PC1 to PC4 establishes a wireless LAN and performs wireless data communication between the terminal devices or when the terminal devices PC1 to PC4 connect to the Internet. It is a known card having an antenna inside, which is used by being inserted into a predetermined slot of the terminal devices PC1 to PC4. Therefore, a wireless LAN is constructed indoors by the terminal devices PC1 to PC4 and the information relay device 11, and data transmitted and received between the terminal devices is relayed by the information relay device 11. The wireless LAN of the present embodiment is a specification (IEEE802.11b) recommended as a standard specification by IEEE, uses a 2.4 GHz band radio wave, and has a modulation method of DSSS (direct spread spectrum). This is a well-known wireless LAN in which data access control is CSMA / CA (Carrier Sense Multiple Access / Collision Avoidance).
[0048]
On the other hand, the Internet uplink signals (2.4 GHz band) output wirelessly from the indoor terminal devices PC1 to PC4 via the interface cards 1a to 1d are transmitted via the directional antenna 12 or the indoor antenna 29. It is taken into the relay device 11 and sent from here through the protector 41 to the tap-off 25 side. Then, it is transmitted while being amplified by the extension amplifier EA, the main branch amplifier TBA, and the main amplifier TA, and is output to the Internet via the CATV center 21.
[0049]
In addition to the directional antenna 12, the information relay apparatus 11 of the present embodiment also includes an omnidirectional standard antenna 30 (see FIG. 2A). Although the transmission / reception is possible, the communicable area by the standard antenna 30 is a range indicated by a solid line in FIG. 1 (the terminal device PC1 is in the area). With this alone, all the terminal devices PC1 to PC4 transmit and receive data. I can't do it. Therefore, by providing a directional antenna 12 (having a communicable area indicated by a one-dot chain line in the figure) and an indoor antenna 29 (having a communicable area indicated by a two-dot chain line in the figure), all terminals are provided. The devices PC1 to PC4 can similarly perform data communication.
[0050]
The power supply unit 27 is for supplying power for operation to the information relay apparatus 11 installed outdoors, and a commercial power supply of AC100V supplied indoors is DC 15V by an AC / DC converter 27a. And is supplied to the information relay device 11 via the coil L1 and the indoor transmission line 26. The coil L1 is used to prevent the high-frequency signal from the information relay device 11 or the terminal device PC4 from being input to the AC / DC converter 27a, and the capacitor C1 is transmitted on the indoor transmission line 26. Only the high frequency signal to be transmitted is allowed to pass, and the direct current 15V power generated by the AC / DC converter 27a is prevented from being supplied to the television terminal 28 side.
[0051]
As described above, in the CATV system 10 of the present embodiment, this information is transmitted from each terminal device PC1 to PC4 by wirelessly transmitting and receiving data between the indoor terminal devices PC1 to PC4 and the outdoor information relay device 11. It is possible to connect to the Internet via the relay device 11 and the CATV network. When receiving a TV broadcast signal from the CATV center 21 and viewing the TV broadcast, a TV receiver (TV) 44 for video / audio output may be connected to the TV terminal 28 via the STB 43. . Furthermore, since a wireless LAN is constructed indoors, data can be transmitted and received between the terminal apparatuses PC1 to PC4 via the information relay apparatus 11.
[0052]
Next, the information relay apparatus 11 installed on the terminal side (outdoor) in the CATV system 10 of the present embodiment will be described with reference to FIG. FIG. 2A is an explanatory diagram illustrating a schematic configuration of the information relay apparatus 11 according to the present embodiment, and FIG. 2B is a perspective view illustrating an appearance of the information relay apparatus 11. As shown in FIG. 2A, the information relay apparatus 11 is mainly configured by a data relay unit 31, an HPF 42, a signal / power source separation unit 32, and branching units 33 and 34.
[0053]
The data relay unit 31 is configured by integrating the access point 36 and the cable modem 45. The cable modem 45 is the same as that already described with reference to FIG. The description is omitted here.
The access point 36 is a well-known device used for relaying data transmission / reception between terminal devices in a wireless LAN. In the present embodiment, the access point 36 further includes an Ethernet port (“Ethernet” for connection to the Internet via a CATV network. "Is a registered trademark) and also has an IP address conversion function represented by NAT or IP masquerade. That is, an IP address (global address) included in an Internet data signal (downstream Internet data) transmitted to the terminal side via the CATV network and input via the branching unit 33 and the cable modem 45 is used only indoors. The cable modem 45 converts the private address included in the data signal for the Internet (uplink Internet data) input from the terminal devices PC1 to PC4 via the directional antenna 12 into a global address while converting the private address into a common private address. Output to.
[0054]
In addition, the access point 36 is provided with the omnidirectional standard antenna 30, but it is also provided with a detachable directional antenna 12. In the present embodiment, when the directional antenna 12 is not attached, the changeover switch 36a is switched to the standard antenna 30 side, and radio waves are transmitted and received through the standard antenna 30. When mounted, the changeover switch 36a is switched to the directional antenna 12 side, and radio waves are transmitted and received through the directional antenna 12.
[0055]
Further, the 2.4 GHz transmission signal output to either the standard antenna 30 or the directional antenna 12 at the access point 36 is also transmitted from the changeover switch 36a to the indoor transmission line 26 via the branching device 34, As described above, it is radiated as a radio wave from the indoor antenna 29 connected to the indoor TV terminal 28. Further, an uplink signal for the Internet output from the terminal device PC4 and received by the indoor antenna 29 is transmitted to the information relay device 11 via the indoor transmission line 26 and input to the access point 36 via the branching device 34. Is done.
[0056]
For this reason, after the downlink Internet data input via the CATV network is input to the data relay unit 31 via the branching unit 33, various processes such as interface conversion are first performed by the cable modem 45, and the access point 36 is then processed. Various data processing such as IP address conversion, modulation to a 2.4 GHz band transmission signal, and the like are performed at the access point 36, and the data is transmitted to the directional antenna 12 and the indoor transmission line 26 side.
[0057]
Further, the uplink Internet data output from each of the terminal devices PC1 to PC4 is received by the directional antenna 12 and taken into the access point 36 (or received by the indoor antenna 29 to receive the indoor transmission line 26 and the branching device 34. And is transmitted to the CATV center 21 side via the cable modem 45 and the branching device 33. In this embodiment, the frequency band of the uplink Internet data output from the cable modem 45 to the branching device 33 is 10 to 30 MHz.
[0058]
The signal / power source separation unit 32 is a kind of filter composed of a coil L2 and a capacitor C2, and prevents the DC 15V power generated by the indoor power source unit 27 from being supplied to the HPF 42 side. This is to prevent a downstream signal such as a television broadcast signal transmitted indoors by supplying only the DC 15V power source to the data relay unit 31 from flowing out to the data relay unit 31 side. Note that the cutoff frequency of the HPF 42 is 70 MHz in the present embodiment.
[0059]
The information relay apparatus 11 configured in this way is actually configured as shown in FIG. 2B, with the data relay unit 31, the branching devices 33 and 34, the HPF 42, the signal / power source separation unit 32, and Wirings connecting them are all formed on one substrate 17 (details are omitted), and the substrate 17 is stored in a waterproof storage box 16 for outdoor installation.
[0060]
The standard antenna 30 provided in the data relay unit 31 is also formed on the substrate 17 (not shown), and the directional antenna 12 is fixed to the side surface of the waterproof storage box 16. Since the rubber packing portion 16b is formed inside the door 16a of the waterproof storage box 16, if the door 16a is closed, the waterproof storage box 16 is not flooded from the outside.
[0061]
According to the CATV system 10 of the present embodiment described in detail above, the indoor terminal devices PC1 to PC4 and the outdoor information relay device 11 are not directly connected by a cable, and data is transmitted and received wirelessly. The facility construction can be facilitated without deteriorating the aesthetics of the subscriber's home, and the outflow of inflow noise generated in the subscriber's home to the CATV network can be easily and greatly reduced.
[0062]
In particular, if the user subscribes to the CATV Internet only without viewing the TV, it is only necessary to install the information relay device 11 outdoors without damaging the walls of the building. In addition, the outflow of inflow noise can be further greatly suppressed. Further, by not connecting the information relay device 11 and the indoors in a wired manner as described above, it is possible to prevent illegal viewing of TV broadcasts (hidden TV viewing).
[0063]
Of the downlink signals transmitted from the CATV center 21, signals other than downlink Internet data (such as television broadcast signals) are sent via the branching device 33, the HPF 42, the signal / power source separation unit 32, and the branching device 34. Since it is sent to the indoor transmission line 26 as it is, both CATV Internet connection and TV viewing services can be enjoyed comfortably.
[0064]
Furthermore, since the directional antenna 12 is attached to the information relay device 11 and installed so as to be radiated with high power toward the indoor direction, the radiation efficiency from the antenna can be further increased and the communicable distance can be increased. It can be made longer (in the present embodiment, the terminal devices PC1 to PC3 are within the receivable area), and more efficient data transmission / reception is possible. In addition, radiation in directions other than indoors can be reduced, and the influence on external electronic devices and the like can be suppressed.
[0065]
Furthermore, since various devices / wirings such as the access point 36 and the cable modem 45 constituting the information relay apparatus 11 are mounted on one substrate 17, these devices are individually stored in the waterproof storage box 16. Compared with the installation in the apparatus, the amount of wiring inside the information relay apparatus 11 can be reduced and the apparatus housing can be downsized.
[0066]
In this embodiment, by using an access point 36 with an IP address conversion function, a wireless LAN can be constructed via the access point 36 and a plurality of terminal devices can be connected to the Internet at the same time. Therefore, it is possible to provide a user-friendly system and service to subscribers.
[0067]
In addition to the directional antenna 12 of the information relay device 11, the indoor antenna 29 is also installed indoors. Therefore, even when the terminal device is installed at a position other than the range where the directional antenna 12 can transmit and receive data. Transmission / reception is possible, and it is possible to connect to an external network from any location indoors and to transmit / receive data between terminal devices.
[0068]
Here, the correspondence between the components of the present embodiment and the components of the present invention will be clarified. In the present embodiment, the wired transmission means of the present invention is configured by the branching device 34 and the transmission path from the branching device 34 to the access point 36, and the downlink signal input from the protector 41 side is transmitted inside the information relay device 11. A signal path transmitted indoors through the branching device 33, the HPF 42, the signal / power source separation unit 32, and the branching device 34 corresponds to the downstream signal passing route of the present invention.
[0069]
The embodiment of the present invention is not limited to the above-described embodiment, and it goes without saying that various forms can be adopted as long as it belongs to the technical scope of the present invention.
For example, in the above embodiment, the operation power supply of the information relay apparatus 11 is supplied from the indoor power supply unit 27. However, when the commercial AC 100V power supply can be taken outdoors, for example, as shown in FIG. A power supply unit 51 may be provided inside, and AC100V from the outside may be converted to DC15V and supplied to each unit of the data relay unit 31. Thus, when the outdoor AC 100V power supply can be taken in, the indoor power supply unit 27 becomes unnecessary, and the proportion of various devices constituting the CATV system 10 in the indoor space can be reduced. In consideration of the case where the AC100V power supply cannot be taken from the outside, the power supply unit 51 may be configured to pass the DC15V power supply directly to the data relay unit 31 side when DC15V is supplied indoors. .
[0070]
Further, the information relay device 50 shown in FIG. As described above, when various signal transmission devices such as a protector normally connected alone on the signal transmission line in the CATV system are built in the information relay device 50, it is difficult to secure a place to install individually. This is particularly effective, and the cost of the entire CATV system 10 can be reduced. The signal transmission device built in the information relay apparatus is not limited to the protector 41, and any device can be built therein.
[0071]
In the above embodiment, a case where a plurality of indoor terminal devices PC1 to PC4 exist without being wiredly connected to each other alone is provided. However, for example, an access point is provided indoors, and each of the terminal devices PC1 to PC4 is provided. Transmits / receives data to / from each other via this access point, and also transmits / receives data between this access point and the access point 36 of the outdoor information relay device 11 (so-called infrastructure mode wireless LAN). Also good. Even in this case, in addition to the same effects as the above-described embodiment, for example, if an indoor access point equipped with an Ethernet port is used, a wireless LAN and a wired LAN can coexist indoors. In addition, when the terminal device is installed in a range where radio waves of the wireless LAN do not reach, it is possible to further improve the convenience of the subscriber, such as being able to connect with a wired LAN.
[0072]
Furthermore, in the above-described embodiment, the access point 36 and the cable modem 45 are integrated to form the data relay unit 31, and various devices and wirings constituting the information relay device 11 are all mounted on the substrate 17. However, the present invention is not limited to this, and each device may be individually installed inside the waterproof storage box 16.
[0073]
Furthermore, various settings of the devices such as the access point 36 and the cable modem 45 included in the information relay device 11 of the present embodiment can be set by directly operating the devices, or can be set from an indoor terminal device. Alternatively, it may be set by a remote command from the CATV center 21.
[0074]
Further, although the standard antenna 30 is an omnidirectional antenna, a directional antenna may be used, and the indoor antenna 29 may be either an omnidirectional or directional antenna.
Furthermore, in the above embodiment, even when only one IP address is given, the access point 36 is configured to have an IP address conversion function in order to simultaneously connect to the Internet from a plurality of terminal devices. The IP address conversion function is not necessarily required when a plurality of addresses are assigned in accordance with the number of IP addresses. That is, whether or not to add various optional functions such as an IP address conversion function may be appropriately determined according to the contract contents of the CATV Internet contracted by the subscriber.
[0075]
Furthermore, in the above-described embodiment, only one of the two antennas (standard antenna 30 and directional antenna 12) provided in the information relay apparatus 11 is used by the changeover switch 36a. Only one of the standard antenna 30 and the directional antenna 12 may be mounted with only one mounting portion, or, for example, both antennas 12 and 30 may be used as a so-called diversity antenna. Also good.
[Second Embodiment]
FIG. 4 is an explanatory diagram showing a schematic configuration of a home collaborative reception system constructed on the terminal side in the CATV system of the present embodiment. Also in the present embodiment, the information relay device 11 and the entire information relay device 11 side from the information relay device 11 to the protector 41 side (from the CATV center 21 to the Internet), although not shown, are the same as the CATV system 10 of the first embodiment. It is exactly the same.
[0076]
However, a cable (corresponding to the transmission line 26 of the first embodiment) for wired transmission to the terminal side is not connected to the information relay apparatus 11 of the present embodiment, and data is exchanged with the house 70a. Built to communicate only.
As shown in FIG. 4, the home joint reception system 70 according to the present embodiment is constructed in a house 70a, and receives television reception antennas 71 and 72 that receive television broadcast radio waves of UHF and VHF, BS, and CS. A satellite receiving antenna 73 for receiving broadcast radio waves is provided, and received signals received by the antennas 71 to 73 are appropriately amplified by the booster 74 and then passed through the branching mixer 77 and the transmission line 101 to form the house 70a. It is transmitted to each part.
[0077]
A plurality of branching devices 78, 79, 80 are connected on the transmission line 101. Among these, the branch output from the branching device 78 is input to the television receiver 81 via the terminal terminal 78 a, and the branching from the branching device 79 is performed. The output is output to the television receiver 83 via the terminal terminal 79a and the STB 82. An indoor antenna (corresponding to the terminal-side antenna of the present invention) 84 is connected to the terminal terminal 80a connected to the branching device 80, and the branch output from the branching device 80 is transmitted wirelessly from the indoor antenna 84. Sent.
[0078]
On the side surface of the house 70a, a relay antenna 75 is installed at a position in the communicable area of the information relay apparatus 11 that is substantially opposite to the information relay apparatus 11, and branches through a relay transmission line 102 wired in the house 70a. It is connected to the mixer 77. In addition, a personal computer PC5 and PC6 are provided in the house 70a, and data can be transmitted and received externally via interface cards 1e and 1f provided in the personal computers PC5 and PC6, respectively.
[0079]
In the home collaborative reception system 70 configured as described above, radio waves (data for the Internet; hereinafter simply referred to as “data signals”) transmitted from the directional antenna 12 of the information relay apparatus 11 are first transmitted by the relay antenna 75. The data signal is received and input to the branching mixer 77 via the relay transmission line 102. By this branching / mixing unit 77, the data signal is mixed with reception signals of various television broadcasts, and both are transmitted on the transmission line 101 to the terminal side.
[0080]
Therefore, the data signal from the information relay device 11 is transmitted again wirelessly by the indoor antenna 84, and the data signal is taken into the personal computer PC5 by receiving this transmission radio wave by the interface card 1e.
On the other hand, a data signal generated by the personal computer PC5 and wirelessly transmitted from the interface card 1e is received by the indoor antenna 84, and passes through the terminal terminal 80a, the branching device 80, the transmission line 101, the branching mixer 77, and the relay transmission line 102. The signal is transmitted to the relay antenna 75 and transmitted again from here. By receiving the wirelessly transmitted radio wave at the information relay device 11, the data signal generated by the personal computer PC5 is transmitted to the Internet side via the protector 41 and the like. Since the personal computer PC6 exists in an area where communication with the external information relay device 11 is possible, data can be directly transmitted to and received from the information relay device 11 by the interface card 1f.
[0081]
As described above, according to the home joint reception system 70 of the present embodiment, the relay antenna 75 is installed in the communicable area of the information relay apparatus 11, and the relay antenna 75, the relay transmission line 102, the branching mixer 77, Via the transmission line 101, the branching device 80, the terminal terminal 80a and the indoor antenna 84, data transmission / reception (and connection from the personal computer PC5 to the Internet) between the personal computer PC5 and the information relay device 11 is possible.
[0082]
Therefore, for example, when the user is in the CATV service area but does not want to draw the CATV cable into the house, or when only a part of the house 70a is in the communicable area of the information relay device 11 as shown in FIG. In the case where it is desired to enjoy only the data communication service at any location within 70a, it is more effective to construct the home joint reception system 70 as in the present embodiment.
[0083]
In the present embodiment, the case where the data signal is superimposed on the transmission line 101 for transmitting the television broadcast signal and transmitted to the terminal side has been described as an example. As in the home information communication system 80, only the data signal may be transmitted alone.
[0084]
In the home information communication system 80 of FIG. 5, in the house 80a, the relay antenna 75 and the indoor antenna 84 are connected by the relay transmission lines 103a and 103b, and between the relay transmission lines 103a and 103b. An access point 76 (corresponding to the relay amplification means of the present invention) that functions as a repeater is provided. The access point 76 has the same configuration and function as the access point 36 of FIG. 2 (that is, the access point 36 built in the information relay apparatus 11). In particular, in this embodiment, the data signal received by the relay antenna 75 is used. Is amplified and transmitted to the relay transmission line 103b and the transmission line 104, and the data signal transmitted through the transmission lines 103b and 104 is amplified and transmitted to the relay antenna 75 side. In addition, since the access point 76 also has an IP address conversion function such as NAT or IP masquerade, the number of PCs that can be connected from the information relay apparatus 11 as viewed from the terminal side is substantially increased.
[0085]
Further, personal computers PC 7 and PC 8 are directly connected to the access point 76 via the transmission line 104. As a result, a so-called wireless LAN via the access point 76 is established between a personal computer such as the personal computer PC5 capable of transmitting and receiving data via the indoor antenna 84 and a personal computer directly connected to the transmission line 104 such as the personal computer PC7. Has been built.
[0086]
In the home joint reception system 70 of FIG. 4, it goes without saying that the access point 76 similar to that of FIG. 5 may be provided on the relay transmission line 102, so that the relay antenna is provided by providing the access point 76. Even when the radio wave transmission / reception state between the information relay device 11 and the information relay device 11 is not preferable (for example, when the reception level at the relay antenna 75 is weak), data signal transmission between the terminal side and the access point 76 is possible. By relaying, data communication in a wider range is possible, and the reliability of data communication is improved.
[Third Embodiment]
FIG. 6 is an explanatory diagram showing a schematic configuration of a building collaborative reception system constructed on the terminal side in the CATV system of the present embodiment. Also in the present embodiment, the information relay device 11 and the entire information relay device 11 side from the information relay device 11 to the protector 41 side (from the CATV center 21 to the Internet), although not shown, are the same as the CATV system 10 of the first embodiment. It is exactly the same.
[0087]
In the present embodiment, since the CATV network (not shown) including the CATV cable to which the information relay device 11 is connected is in a range facing the building 90a across the river, the CATV cable is pulled to the building 90a. Assume a situation where it is impossible. Although the cable cannot be pulled, since the relay antenna 75 can be installed in the communicable area of the information relay device 11, only data communication is possible via the relay antenna 75.
[0088]
In this embodiment as well, as in the second embodiment, the signals are received by the television receiving antennas 71 and 72 that receive the UHF and VHF television broadcast waves and the satellite reception antenna 73 that receives the BS and CS broadcast waves. The various television broadcast signals are appropriately amplified by the booster 74 and then transmitted to each room in the building 90 a via the branching mixer 77, the four distributor 92 and the transmission line 106. On the transmission line 106, two branching devices 93, 94, 95, 96 are connected to each room.
[0089]
For example, in the 101st floor of the first floor, as shown in the figure, a two-distributor 96 is connected to the end of the transmission line 106, to the indoor antenna 84 via the terminal terminal 96a, and to the branching mixer 97 via the terminal terminal 96b. Are distributed and output. One of the branch outputs of the branch mixer 97 (BS, CS broadcast signal) is input to the television receiver 83 via the STB 82, and the other (VHF, UHF broadcast signal) is directly input to the television receiver 83.
[0090]
Also in the building joint reception system 90 of the present embodiment configured as described above, the side of the building 90a is substantially opposite to the information relay device 11 and the information relay device, as in the home joint reception system 70 of the second embodiment. The relay antenna 75 is installed at a position just within 11 communicable areas, and is connected to the branching mixer 77 via the relay transmission lines 105a and 105b and the access point 91 wired in the building 90a. Further, the 101 room in the building 90a is equipped with a personal computer PC5, and data can be transmitted and received wirelessly via the interface card 1e. The access point 91 is exactly the same as the access point 76 in FIG.
[0091]
In the building joint reception system 90 configured as described above, a data signal transmitted from the directional antenna 12 of the information relay apparatus 11 is first received by the relay antenna 75, and the data signal is transmitted to the relay transmission line 105a, the access point 91, and the relay. The signal is input to the branching mixer 77 via the transmission line 105b. By this branching / mixing unit 77, the data signal is mixed with reception signals of various television broadcasts, and both are transmitted on the transmission line 106 to the terminal side.
[0092]
Then, this data signal is wirelessly transmitted again from the indoor antenna 84 in the room 101, and the data signal is taken into the personal computer PC5 by receiving this transmission radio wave by the interface card 1e.
According to the present embodiment, even though the cable is in the CATV service area but cannot be pulled in due to restrictions such as the location conditions of the building 90a (in this example, the presence of a river), the data Only communication can be enabled.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing a schematic configuration of an entire CATV system according to a first embodiment.
FIG. 2A is an explanatory diagram illustrating a schematic configuration of an information relay device according to the present embodiment, and FIG. 2B is a perspective view illustrating an appearance of the information relay device.
FIG. 3 is an explanatory diagram showing another embodiment of the information relay device.
FIG. 4 is an explanatory diagram showing a schematic configuration of a home joint reception system according to a second embodiment.
FIG. 5 is an explanatory diagram showing a schematic configuration of a home information communication system.
FIG. 6 is an explanatory diagram showing a schematic configuration of a building joint reception system according to a third embodiment.
FIG. 7 is an explanatory diagram showing a schematic configuration on a terminal side in a conventional CATV system.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1a-1f ... Interface card, 10, 40 ... CATV system, 11, 50 ... Information relay apparatus, 12 ... Directional antenna, 16 ... Waterproof storage box, 16a ... Door, 16b ... Rubber packing part, 17 ... Substrate, 21 ... CATV center, 22 ... trunk line, 23, 24 ... branch line, 25, 33, 34, 78, 79, 80, 93 ... branching unit, 26, 101, 104, 106 ... transmission line, 27 ... power supply unit, 27a ... AC / DC converter, 28 ... TV terminal, 29 ... indoor antenna, 30 ... standard antenna, 31 ... data relay unit, 32 ... signal / power source separation unit, 36, 76, 91 ... access point, 36a ... changeover switch, 41 ... Protective device, 42 ... HPF, 43,82 ... STB, 44,81,83 ... TV receiver, 45 ... Cable modem, 46 ... PC, 47 ... same Cable 51, power supply unit 70 70 home reception system 70 a home 71, 72 TV reception antenna 73 satellite reception antenna 74 booster 75 75 relay antenna 77 97 branch mixer 78 a 80a, 90a, 90b ... terminal terminal, 80 ... in-home information communication system, 84 ... indoor antenna, 90 ... building joint reception system, 90a ... building, 96 ... distributor, 102,103a, 103b, 105a, 105b ... relay transmission Line, C1, C2 ... Capacitor, EA ... Extension amplifier, L1, L2 ... Coil, PC1-PC8 ... Terminal equipment, TA ... Main line amplifier, TBA ... Main line branch amplifier

Claims (13)

An information relay device for connecting an indoor terminal device and an external network via a CATV network and relaying data transmitted and received between each other,
An antenna for relaying data transmitted wirelessly from the terminal device to the external network side and transmitting data transmitted from the external network via the CATV network to the terminal device wirelessly A wireless relay device,
A cable modem connected between the wireless relay device and the CATV network;
Is stored in a waterproof storage box for outdoor installation ,
The wireless relay device is an access point having a function of relaying data communication between a plurality of the terminal devices installed indoors
An information relay device characterized by that.   The information relay apparatus according to claim 1, wherein the antenna is a directional antenna.   The information relay apparatus according to claim 1, wherein the wireless relay device and the cable modem are integrated. The information relay device according to any one of claims 1 to 3, wherein the waterproof storage box stores a signal transmission device connectable on a transmission path through which the data is transmitted in a CATV network. The external network is the Internet;
The access point is a NAT or IP for converting one global IP address assigned from the Internet side into a private IP address for each terminal device so that a plurality of the terminal devices can simultaneously connect to the Internet. 5. The information relay apparatus according to claim 1, further comprising an IP address conversion function such as masquerading . Out of the downlink signals including the data input via the CATV network, the downlink signals other than the data output from the CATV center installed between the external network and the CATV network are directly input to the indoors. information relay apparatus according to any one of claims 1-5, characterized in that with a downlink signal passing path for delivery to wired transmission lines. A transmission signal wirelessly transmitted from the antenna by the wireless relay device is also transmitted to the transmission line together with the other downstream signal superimposed on the downstream signal passing path, and from the terminal device via the transmission line. 7. The information relay apparatus according to claim 6 , further comprising a wired transmission means for inputting an upstream signal transmitted on a downstream signal passing path to the wireless relay device. A CATV system comprising the information relay device according to claim 1 on a terminal side,
  A CATV system configured to enable data communication between an indoor terminal device and an external network via the information relay device. The CATV system according to claim 8 , wherein
The information relay device is an information relay device according to claim 7,
On the transmission line wired indoors, connected to the downlink signal passage route, the transmission signal superimposed on the downlink signal passage route and transmitted indoors via the transmission line is output wirelessly. In addition, an antenna for receiving an uplink signal to the information relay device that is output wirelessly from the terminal device and sending it to the transmission line is connected
CATV system characterized by this. The terminal device provided in the building is configured to be capable of data communication with an external network via the information relay device according to any one of claims 1 to 5 installed outside the building. An in-building information communication system,
  A relay antenna for receiving data transmitted wirelessly from the information relay device and transmitting data from the terminal device wirelessly to the information relay device;
  A relay transmission line wired in the building and having one end connected to the relay antenna;
  Connected to the other end of the relay transmission line, wirelessly transmits data from the information relay apparatus received by the relay antenna and transmitted on the relay transmission line to the terminal apparatus, and from the terminal apparatus A terminal-side antenna for receiving and transmitting data transmitted wirelessly onto the relay transmission line;
  An in-building information communication system characterized by comprising: A reception antenna for receiving broadcast radio waves is provided, and a broadcast reception signal from the reception antenna is configured to be transmitted to a plurality of terminal terminals in the building via a transmission line wired in the building. The terminal device provided in the building is capable of data communication with an external network via the information relay device according to any one of claims 1 to 5 installed outside the building. An in-building information communication system configured as follows:
A relay antenna for receiving data transmitted wirelessly from the information relay device and transmitting data from the terminal device wirelessly to the information relay device;
A relay transmission line wired in the building and having one end connected to the relay antenna;
Data from the information relay apparatus connected to the other end of the relay transmission line and received by the relay antenna and transmitted on the relay transmission line is mixed with the broadcast reception signal, and the terminal is transmitted on the transmission line. Branching and mixing means for branching and outputting data transmitted from the terminal device and transmitted on the transmission line from the transmission line to the relay transmission line.
The data from the information relay device connected to at least one of the terminal terminals and transmitted on the transmission line is wirelessly transmitted to the terminal device, and the data transmitted wirelessly from the terminal device is received. a terminal antenna for delivery to Kiden feed line prior to,
An in-building information communication system characterized by comprising: On the relay transmission line,
A relay amplifying means is provided for amplifying the data received from the information relay apparatus received by the relay antenna and transmitting the amplified data to the terminal apparatus, and amplifying the data from the terminal apparatus and transmitting the data to the relay antenna. The in- building information communication system according to claim 10 or 11 , characterized in that: The relay amplification means converts one global IP address assigned from the Internet side into a private IP address for each terminal device so that a plurality of the terminal devices can simultaneously connect to the Internet via the information relay device. 13. An in-building information communication system according to claim 12, further comprising an IP address conversion function such as NAT or IP masquerade .

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