JP2010109750A - Communication system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To suppress deterioration in communication performance caused by crosstalk. <P>SOLUTION: Crosstalk (near-end crosstalk and far-end crosstalk) occurring between trunk lines Ls1, Ls2 or crosstalk occurring between a household line Lc<SB>mn</SB>and a slave unit connecting line Ld<SB>mn</SB>connected to the trunk lines Ls1, Ls2 is detected at a communication control device 1 or at each household unit 2<SB>mn</SB>, and occurrence of crosstalk (abnormality) is reported by the communication control device 1 or each household unit 2<SB>mn</SB>Therefore, prior to the operation of an intercom system for a collective housing (e.g., when constructing the system), occurrence of crosstalk can be reported to a constructor or the like, thereby it is possible to urge the constructor to take measures such as physically separating the trunk lines Ls1, Ls2, the household line Lc<SB>mn</SB>and the slave unit connecting line Ld<SB>mn</SB>whereon crosstalk occurs. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a plurality of terminals connected to communication lines arranged in a building premises, to each of the plurality of communication lines to which a plurality of terminals are connected, and to individual terminals via the communication lines. The present invention relates to a communication system having a communication control device that transmits a communication signal between them.

  As a conventional communication system, there is a collective housing intercom system described in Patent Document 1.

In the conventional example described in Patent Document 1, a lobby interphone installed at a common entrance of an apartment house, a dwelling unit installed in each residence of the apartment house, and a video signal transmitted from the lobby intercom And a trunk line control device (communication control device) that selectively transfers to a plurality of communication lines arranged for each building. Then, when a visitor who wants to visit any of the dwelling units inputs the dwelling unit number to be visited with the numeric keypad switch of the lobby intercom, the dwelling unit installed in the dwelling unit with the dwelling unit number is connected from the lobby intercom via the communication line. A ringing signal is transmitted. Furthermore, an image captured by the lobby intercom camera is transmitted from the lobby intercom to the dwelling unit via a communication line, and the dwelling unit receives a call signal and sounds a ringing tone. The video (visitor's video) received from is displayed on the monitor.
JP 2008-48049 A

  By the way, a plurality of communication lines arranged for each building are connected to the communication control device (main line control device), so that the communication lines of each system are stored in the same conduit near the communication control device. There is a case. When a plurality of communication lines are arranged close to each other, the communication performance may be deteriorated due to crosstalk between the communication lines. Here, if the contractor can know that there is a possibility that the communication performance may be deteriorated due to the crosstalk before the system is operated (for example, at the time of the system construction), the communication lines where the crosstalk occurs are separated from each other. You can take action.

  The present invention has been made in view of the above circumstances, and an object thereof is to provide a communication system capable of suppressing deterioration of communication performance due to crosstalk.

  In order to achieve the above object, the invention of claim 1 is connected to a plurality of terminals connected to communication lines arranged in a building, and to a plurality of communication lines to which a plurality of terminals are connected. Communication controller that transmits communication signals to and from individual terminals via communication lines, and crosstalk in which test communication signals transmitted to communication lines of any system leak to communication lines of other systems A crosstalk detecting means for detecting the presence or absence of noise, and a notifying means for notifying an abnormality when a crosstalk is detected by the crosstalk detecting means.

  According to the invention of claim 1, the crosstalk detecting means detects the presence or absence of crosstalk in which the test communication signal transmitted to the communication line of any system leaks to the communication line of another system, and the crosstalk is detected by the crosstalk detecting means. Since the notification means will notify the abnormality when the error is detected, it is possible to notify the installer or the like before the operation of the system (for example, during the construction of the system) that the communication performance may be deteriorated due to the crosstalk. Thus, it is possible to prompt the user to take measures such as separating communication lines in which crosstalk occurs. As a result, deterioration of communication performance due to crosstalk can be suppressed.

  According to a second aspect of the present invention, in the first aspect of the invention, the communication control device receives a communication signal for each of a plurality of communication lines and a plurality of transmission means for transmitting the communication signal for each of the plurality of communication lines. And a receiving means corresponding to a communication line of another system excluding the one system when a communication signal is transmitted from the transmitting means corresponding to the communication line to the communication line of any one system The crosstalk detecting means for detecting near-end crosstalk, and the notifying means for notifying abnormality when the near-end crosstalk is detected by the crosstalk detecting means.

  According to the invention of claim 2, by providing the communication control device with the crosstalk detection means and the notification means, the builder can easily grasp the presence or absence of abnormality due to near-end crosstalk.

  According to a third aspect of the present invention, in the first or second aspect of the present invention, the plurality of terminals transmit a communication signal to a communication line of one connected system, and a communication signal from the communication line. The first receiving means for receiving the signal, the crosstalk detecting means for detecting the far end crosstalk of the communication signal received by the first receiving means, and an abnormality when the far end crosstalk is detected by the crosstalk detecting means. The notification means for notifying is provided.

  According to a fourth aspect of the present invention, in the third aspect of the present invention, the plurality of terminals include notification means for notifying the communication control apparatus by a communication signal that the far-end crosstalk has been detected by the crosstalk detection means. The notification means notifies the abnormality when notified from the notification means of the terminal.

  According to invention of Claim 4, even if a construction person does not look around a some terminal, the presence or absence of abnormality by a far end crosstalk can be grasped | ascertained easily.

  The invention according to claim 5 is the invention according to any one of claims 1 to 4, wherein the communication line is inserted between the communication control device and the terminal in the communication line of at least one system, and the upstream communication control device A relay that relays the communication signal transmitted to the downstream terminal and relays the communication signal transmitted from the downstream terminal to the upstream communication control apparatus, and the relay is a destination included in the communication signal The crosstalk detecting means for detecting crosstalk by determining whether or not a terminal to which an address that matches the destination address is assigned exists on the downstream side, and the terminal detects the crosstalk by the crosstalk detecting means. It is characterized by comprising the notifying means for notifying an abnormality when it is determined that it does not exist.

  A sixth aspect of the present invention is the communication control apparatus according to the fifth aspect of the present invention, wherein the repeater includes notifying means for notifying the communication control apparatus by a communication signal that the crosstalk detecting means determines that the terminal does not exist. The notification means notifies the abnormality when notified from the notification means of the repeater.

  According to the invention of claim 6, it is possible to easily grasp the presence / absence of abnormality due to crosstalk even if the installer does not look around the plurality of terminals.

  A seventh aspect of the invention is characterized in that, in the fifth or sixth aspect of the invention, the repeater does not relay the communication signal downstream when it is determined by the crosstalk detecting means that the terminal does not exist.

  According to the seventh aspect of the present invention, it is possible to avoid congestion on the downstream side of the repeater due to crosstalk generated on the upstream side of the repeater.

  The invention of claim 8 is the invention of any one of claims 1 to 7, comprising a plurality of slave units connected one-to-one to a plurality of terminals via signal lines, and each terminal is connected to a signal line A second transmission means for transmitting a second communication signal to the slave unit via the second receiver, a second reception means for receiving a second communication signal transmitted from the slave unit via the signal line, and the second Measuring means for measuring the signal-to-noise ratio in the receiving means, and the first communication signal transmitted via the communication line while the first receiving means is receiving the first communication signal from the slave unit via the signal line. The signal-to-noise ratio measured by the measuring means when the two communication signals are being transmitted is received by the first receiving means and transmitted from the slave unit via the communication line. The signal-to-noise ratio measured by the measuring means when the second communication signal is not transmitted via the wire. And whether the determined signal-to-noise ratio degradation determination means or, characterized in that a notifying means for informing the abnormality when it is determined to be degraded in the signal-to-noise ratio degradation judgment means.

  According to the invention of claim 8, the signal-to-noise ratio is deteriorated due to crosstalk leaking from the signal line connecting each terminal and the slave unit to the communication line, before the operation of the system (for example, during the construction of the system). It is possible to notify the installer or the like and urge the user to take measures such as separating the signal line where the crosstalk has occurred from the communication line.

  The invention of claim 9 has a plurality of slave units connected to a plurality of terminals one-to-one via signal lines in the invention of any one of claims 1 to 8, and each terminal has a signal line A second transmission means for transmitting a second communication signal to the slave unit via the first terminal; a second reception means for receiving a second communication signal transmitted from the slave unit via the signal line; A second far-end crosstalk detecting means for detecting presence or absence of far-end crosstalk in the second communication signal received by the receiving means; and an abnormality when the far-end crosstalk is detected by the second far-end crosstalk detecting means. An informing means for informing is provided.

  According to a tenth aspect of the present invention, in the eighth aspect of the invention, each terminal includes notification means for notifying the communication control device by a communication signal that the terminal is determined to be deteriorated by the signal-to-noise ratio deterioration determining means, The notification means of the control device notifies the abnormality when notified from the notification means of the terminal.

  According to the invention of claim 10, it is possible to easily grasp the presence or absence of an abnormality due to crosstalk between the terminal and the slave unit at the place where the communication control device is installed, even if the installer does not look around the plurality of terminals.

  The invention of claim 11 is the invention of claim 9, wherein each terminal comprises a notification means for notifying the communication control device by a communication signal that a far-end crosstalk has been detected by the second far-end crosstalk detection means, The notification means of the communication control device notifies the abnormality when notified from the notification means of the terminal.

  According to the invention of claim 11, it is possible to easily grasp the presence / absence of an abnormality due to crosstalk between the terminal and the slave unit at the place where the communication control device is installed, even if the installer does not look around the plurality of terminals.

  According to the present invention, it is possible to suppress deterioration in communication performance due to crosstalk.

  Hereinafter, an embodiment in which the technical idea of the present invention is applied to an intercom system for an apartment house installed in an apartment house such as an apartment will be described in detail with reference to the drawings.

(Embodiment 1)
As shown in FIG. 1, the intercom system for an apartment house of the present embodiment includes a dwelling unit (terminal) 2 installed in each dwelling unit of the apartment house, a slave unit 3 installed in the exterior entrance of each dwelling unit, and a dwelling house A common unit device (lobby intercom) 4 installed in a common entrance (lobby) of the home and a plurality of systems (two systems in the illustrated example) of communication lines (hereinafter, two systems) in which each dwelling unit 2 is connected via a dwell unit separate line Lc It is called “trunk line.”) It is composed of the communication control device 1 connected to Ls1 and Ls2.

The shared unit 4 (4 ₁ , 4 ₂ ) includes a transmission / reception circuit unit 42 that transmits and receives transmission signals via the communication lines Lx (LX1, Lx2), a communication unit 41 that controls and communicates with the transmission / reception circuit unit 42, A voice input / output unit 43 that inputs and outputs audio, an imaging unit 44 that images a visitor, an operation input unit 45 having operation buttons such as a numeric keypad, and a control unit 40 that controls each unit and the like are provided.

  The voice input / output unit 43 A / D converts the voice collected by the microphone and then outputs the voice data encoded by a predetermined encoding method such as PCM to the control unit 40 and is input from the control unit 40. After the audio data is decoded, the speaker is driven by an analog audio signal that has been D / A converted, and the audio is sounded.

  The imaging unit 44 passes a digital video signal (for example, a digital YUV signal) output from a solid-state imaging device such as a CCD image sensor or a CMOS image sensor to the control unit 40.

  The operation input unit 45 outputs an operation signal to the control unit 40 when an operation button such as a numeric keypad is operated.

  The control unit 40 includes a CPU, a memory, and the like, and converts the digital video signal passed from the imaging unit 44 into MPEG-4, H.264, or the like. A video signal processing function for generating video data encoded by a predetermined compression encoding method such as H.264, a protocol stack (described later) necessary for communication, and the like are mounted.

  The communication unit 41 digitally modulates a frame (described later) generated by the control unit 40 and transmits a digitally modulated transmission signal from the transmission amplifier of the transmission / reception circuit unit 41 via the communication line Lx. Then, the transmission signal is received through the reception amplifier of the transmission / reception circuit unit 41, and the original frame is digitally demodulated from the received transmission signal and passed to the control unit 40.

  As shown in FIG. 2, the slave unit 3 includes a transmission / reception circuit unit 32 including a transmission amplifier and a reception amplifier connected to the slave unit connection line (signal line) Ld, and a communication unit 31 that controls the transmission / reception circuit unit 32 to perform communication. A voice input / output unit 33 for inputting / outputting a voice, an imaging unit 34 for imaging a visitor, an operation input unit 35 having operation buttons such as a call button, and a control unit 30 for controlling each unit. ing.

  The voice input / output unit 33 performs A / D conversion on the voice collected by the microphone and then outputs the voice data encoded by a predetermined encoding method such as PCM to the control unit 30 and is input from the control unit 30. After the audio data is decoded, the speaker is driven by an analog audio signal that has been D / A converted, and the audio is sounded.

  The imaging unit 34 passes a digital video signal (for example, a digital YUV signal) output from a solid-state imaging device such as a CCD image sensor or a CMOS image sensor to the control unit 30.

  The operation input unit 35 outputs an operation signal to the control unit 30 when the call button is operated.

  The control unit 30 includes a CPU, a memory, and the like, and converts the digital video signal passed from the imaging unit 34 into MPEG-4, H.264, or the like. A video signal processing function for generating video data encoded by a predetermined compression encoding method such as H.264, a protocol stack (described later) necessary for communication, and the like are mounted.

  The communication unit 31 digitally modulates a frame (described later) generated by the control unit 30 and transmits a digitally modulated transmission signal from the transmission amplifier of the transmission / reception circuit unit 31 via the slave unit connection line Ld. The transmission signal is received through the reception amplifier of the transmission / reception circuit unit 31 via the machine connection line Ld, and the original frame is digitally demodulated from the received transmission signal and passed to the control unit 30.

  As shown in FIG. 1, the dwelling unit 2 includes a control unit 20 including a CPU and a memory, an audio input / output unit 23 that inputs and outputs audio, a video display unit 24 that displays video, a response button, and the like. An operation input unit 25 having operation buttons, a transmission / reception circuit unit 22 including a transmission amplifier and a reception amplifier connected to the dwelling unit separate line Lc, a communication unit 21 that transmits and receives transmission signals via the transmission / reception circuit unit 22, and a slave unit A transmission / reception circuit unit 27 including a transmission amplifier and a reception amplifier connected to the connection line Ld, and a slave unit communication unit 26 that communicates with the slave unit 3 via the transmission / reception circuit unit 27 are provided.

  The voice input / output unit 23 performs A / D conversion on the voice collected by the microphone and then outputs the voice data encoded by a predetermined encoding method such as PCM to the control unit 20 and is input from the control unit 20. After the audio data is decoded, the speaker is driven by an analog audio signal that has been D / A converted, and the audio is sounded.

  The video display unit 24 includes a display device such as a liquid crystal display and a drive circuit that drives the display device. The drive circuit drives the display device by a video signal output from the control unit 20 as described later. A video (such as a moving image captured by the imaging unit 44 of the shared unit 4 or a moving image captured by the imaging unit 34 of the slave unit 3) is displayed on the display device.

  The operation input unit 25 has a response button, and outputs a response operation signal to the control unit 20 when the response button is operated.

  The communication unit 21 digitally modulates a frame (described later) generated by the control unit 20 and transmits a digitally modulated transmission signal from the transmission amplifier of the transmission / reception circuit unit 22 via the unit-specific line Lc. The transmission signal is received through the reception amplifier of the transmission / reception circuit unit 22 via the line Lc, and the original frame is digitally demodulated from the received transmission signal and passed to the control unit 20.

  The communication control device 1 includes transmission / reception circuit units 11 and 12 including transmission amplifiers and reception amplifiers connected to the trunk lines Ls1 and Ls2, and transmission / reception circuit units 13 including transmission amplifiers and reception amplifiers connected to the communication lines Lx1 and Lx2. 14, an operation input unit 15 that receives an operation input of an operation button, a notification unit 16 that notifies an abnormality (described later) by sound or light, a CPU, a memory, and the like, and controls each unit and transmits a transmission signal And a communication control unit 10 for performing a relay process for selecting a relay destination communication port (transmission / reception circuit units 11 to 14) based on a destination address (described later) of a transmitted frame.

  Here, the communication control unit 10 of the communication control device 1, the communication unit 21 of the dwelling unit 2, the slave unit communication unit 26, the communication unit 31 of the slave unit 3, and the communication unit 41 of the common unit device 4 are the transmission / reception circuit units 11-14. , 22, 27, 32, and 42 have a communication port (not shown) corresponding one-to-one. A unique address (MAC address) is assigned to each communication port. The communication control unit 10 of the communication control device 1, the control unit 20 of the dwelling unit 2, the control unit 30 of the slave unit 3, and the control of the shared unit device 4. In the unit 40, transmission lines (main lines Ls1, Ls2 and dwelling unit lines Lcmn <m = 1, 2,..., N = 1, 2,...) Or communication lines Lx, Lx2 or slave unit connection lines Ldmn <M = 1, 2,..., N = 1, 2,...>) The communication port MAC address of another communication device (communication control device 1, dwelling unit 2, shared unit device 4). Is stored in the memory.

  Here, the protocol stack implemented in the communication control unit 10 of the communication control device 1, the control unit 20 of the dwelling unit 2, the control unit 30 of the slave unit 3, and the control unit 40 of the common unit device 4 is the transport layer. TCP / UDP as the protocol for the network and IP as the protocol for the network layer. The communication control unit 10 of the communication control device 1, the control unit 20 of the dwelling unit 2, the control unit 30 of the slave unit 3, and the control unit 40 of the shared unit device 4 have their own private IP addresses (hereinafter referred to as “IP addresses”). Is assigned and stored in the memory, and the correspondence between the IP address assigned to the other communication device and the MAC address assigned to the communication port of the other communication device is stored in the memory. It is remembered.

  Therefore, in the transmission processing of the control unit 20 of the dwelling unit 2, the control unit 30 of the slave unit 3, and the control unit 40 of the shared unit device 4, the data (audio data, video data, etc.) to be transmitted is divided and converted. The data is stored in the data portion (data field) of the port layer frame (TCP / UDP frame), and the TCP / UDP frame is encapsulated in a network layer frame (IP frame). A data link layer frame (MAC frame) is created by adding a header (MAC header) of (MAC layer) and adding a transmission error detection code (FCS: frame check sequence) to the end of the IP frame ( (See FIG. 3). On the other hand, in the reception processing of the control unit 20 of the dwelling unit 2, the control unit 30 of the slave unit 3, and the control unit 40 of the shared unit device 4, an IP frame is received from the MAC frame passed from the communication units 21, 26, 31, 41. Extraction and further extraction of the TCP / UDP frame from the IP frame, and extraction of data (audio data, video data, etc.) stored in the data part of the TCP / UDP frame to perform processing necessary for calling or displaying video . The MAC header stores a destination MAC address field for storing the MAC address assigned to the communication device that is the destination of the MAC frame, and a MAC address assigned to the communication device that is the source of the MAC frame. Source MAC address field.

  Here, in the communication control unit 10 of the communication control device 1, the MAC addresses of a plurality of (four) communication ports corresponding to the transmission / reception circuit units 11 to 14 and the dwelling unit connected to each communication port via a transmission path The correspondence relationship with the MAC address of the machine 2 or the shared device 4 is stored in the address table of the memory. Then, the transmission signal received by any of the transmission / reception circuit units 11 to 14 is temporarily stored in the buffer memory (frame buffer), and corresponds to the MAC address stored in the destination MAC address field of the transmission signal (MAC frame). The MAC address of the communication port is acquired from the address table of the memory, and the transmission signal is transmitted only from the transmission / reception circuit units 11 to 14 corresponding to the acquired MAC address (communication port). That is, the communication control device 1 has a frame exchange (switching) function equivalent to that of the switching hub.

  Next, the basic operation of this embodiment will be described.

First, when a visitor operates the numeric keypad of the common unit device 4 (for example, 4 ₁ ) and inputs the dwelling unit number of the visited dwelling unit, an operation signal including the dwelling unit number is output from the operation input unit 45 to the control unit 40. Is done. The control unit 40 that has received the operation signal generates a MAC frame in which the call command is stored in the data field, passes it to the communication unit 41, and then uses the video data created from the video signal output from the imaging unit 44 in the data field. The stored MAC frame is generated and passed to the communication unit 24. Note that the control unit 40 refers to the conversion table stored in the memory in advance, and converts the dwelling unit number included in the operation signal into the IP of the dwelling unit 2 (for example, 2 ₁₁ ) installed in the dwelling unit of the dwelling unit number. The address is converted into an address, the IP address is stored in the destination IP address field of the IP header encapsulated in the MAC frame, and the own IP address is stored in the source IP address field of the IP header. the IP address and corresponding MAC address by referring to the correspondence relation stored, i.e., obtains the MAC address assigned to the communication unit 21 of the dwelling unit 2 ₁₁ installed in the visited dwelling unit, the The MAC address is stored in the destination MAC address field of the MAC header and assigned to the own communication unit 41. The stored MAC address is stored in the source MAC address field of the MAC header. The communication unit 41 sends a transmission signal created by digitally modulating the MAC frame passed from the control unit 40 to the communication line LX1.

The transmission signal sent to the communication line LX1 is received by the transmission / reception circuit unit 13 of the communication control device 1 and passed to the communication control unit 10. The communication control unit 10, the address communication port (MAC address) corresponding to the MAC address stored in the destination MAC address field of the received transmission signal (MAC address assigned to the communication unit 21 of the dwelling unit 2 ₁₁₎ The transmission signal acquired from the table and received by the transmission / reception circuit unit 13 is transmitted only from the communication port (transmission / reception circuit unit 11).

Transmission signal transmitted to the main line Ls1 is received by all dwelling unit 2 _1n communication unit 21 connected to the main line Ls1. The communication unit 21 passes the MAC frame obtained by digital demodulation of the received transmission signal to the control unit 20. The control unit 20 of each dwelling unit 21 _1n does not match the MAC address stored in the destination MAC address field of the MAC header of the MAC frame passed from the communication unit 21 with the MAC address assigned to its own communication unit 21 In this case, the MAC frame is discarded.

On the other hand, the control unit 20 of the dwelling unit 2 ₁₁ that matches the MAC address MAC address stored in the destination MAC address field in the MAC header is assigned to its own communication unit 21, stored in the data field of the MAC frame The call command and video data that are being used are acquired. In response to the call command, the control unit 20 makes a ringing sound from the speaker of the voice input / output unit 23, decodes the digital video signal from the video data, and outputs the decoded video to the video display unit 24, thereby displaying the video of the visitor. Display on the display device.

When dweller dwelling confirming the visitor in the video displayed on the video display unit 24 operates the response button of dwelling unit 2 _11, responding operation signal to the control unit 20 from the operation input unit 25 is outputted. Control unit 20 which has received the response operation signal stores the audio data output from the audio output unit 23 in the data field, which is the shared portion 4 ₁ is the source of the call command to the destination MAC address field in the MAC header The MAC address assigned to the communication unit 41 is stored, and a MAC frame storing the MAC address assigned to the own communication unit 21 in the source MAC address field is generated and passed to the communication unit 21. The communication unit 21 transmits the transmission signal to create a MAC frame to be passed from the control unit 20 digitally modulates the dwelling by line Lc _11.

The transmission signal sent to the dwell unit separate line Lc ₁₁ is received by the communication unit 21 of the other dwelling units 2 ₁₂ , 2 ₁₃ ,... Connected to the trunk line Ls 1 and the communication port (transmission / reception circuit unit 11) of the communication control device 1. Is done. And the other dwelling units 2 ₁₂ , 2 ₁₃ ,... Discard the transmission signal (MAC frame) because the destination MAC address of the transmission signal does not match the MAC address assigned to the own communication unit 21. On the other hand, a transmission signal received by the transmission / reception circuit unit 13 of the communication control device 1 is passed to the communication control unit 10. The communication control unit 10, a communication port corresponding to the MAC address stored in the destination MAC address field of the received transmission signal (MAC address assigned to the communication unit 41 of the shared portion 4 ₁₎ to (MAC address) The transmission signal obtained from the address table and received by the transmission / reception circuit unit 11 is transmitted only from the communication port (transmission / reception circuit unit 13).

Transmission signals sent to the communication line LX1 is received by the communication unit 41 of the shared portion 4 ₁ connected to the communication line LX1. The communication unit 41 passes the MAC frame obtained by digital demodulation of the received transmission signal to the control unit 40. In this case, since the MAC address stored in the destination MAC address field of the MAC header of the MAC frame passed from the communication unit 41 matches the MAC address assigned to the own communication unit 41, the control unit 40 The voice data stored in the data field of the MAC frame is acquired, and the voice data is output to the voice input / output unit 43. The voice input / output unit 43 drives the speaker with an analog voice signal that has been D / A converted after the voice data input from the control unit 40 is decoded, and sounds voice (resident call voice).

Together with video data and audio data are transmitted to dwelling unit 2 ₁₁ as described above are installed in the visited dwelling units from the shared portion 4 _1, with respect to common portions 4 ₁ from dwelling unit 2 ₁₁ When the voice data is transmitted, a call is made between the resident and the visitor between the shared unit 4 ₁ and the dwelling unit 2 ₁₁ , and at the same time, the visit captured by the imaging unit 44 of the shared unit 4 _1. 's video is displayed on the video display unit 24 of the dwelling unit 2 _11.

  Subsequently, an operation when a call is made between the dwelling unit 2 and the child unit 3 of each dwelling unit will be described.

  When a visitor operates the call button of the child device 3, a call operation signal is output from the operation input unit 35 of the child device 3 to the control unit 30. Upon receiving the call operation signal, the control unit 30 generates a MAC frame storing the call command in the data field, passes it to the communication unit 31, and then uses the video data created from the video signal output from the imaging unit 34 as the data field. Is generated and passed to the communication unit 34. In these MAC frames, the MAC address assigned to the slave unit communication unit 26 of the dwelling unit 2 is stored in the destination MAC address field of the MAC header, and the communication unit of the slave unit 3 is stored in the source MAC address field. The MAC address assigned to 31 is stored. The communication unit 31 sends a transmission signal created by digitally modulating the MAC frame passed from the control unit 30 to the slave unit connection line Ld.

  The transmission signal sent to the slave unit connection line Ld is received by the slave unit communication unit 26 of the dwelling unit 2. In the handset communication unit 26, the MAC frame obtained by digital demodulation of the received transmission signal is passed to the control unit 20. The control unit 20 of the dwelling unit 2 does not match the MAC address stored in the destination MAC address field of the MAC header of the MAC frame passed from the child device communication unit 26 with the MAC address assigned to the child device communication unit 26. In this case, the MAC frame is discarded. On the other hand, if the MAC address stored in the destination MAC address field of the MAC header matches the MAC address assigned to the slave unit communication unit 26, the control unit 20 calls the call stored in the data field of the MAC frame. Get commands and video data. In response to the call command, the control unit 20 makes a ringing sound from the speaker of the voice input / output unit 24, decodes the digital video signal from the video data, and outputs it to the video display unit 24, thereby displaying the video of the visitor. Display on the display device.

  When the resident of the dwelling unit who has confirmed the visitor by the video displayed on the video display unit 24 operates the response button of the dwelling unit 2, a response operation signal is output from the operation input unit 25 to the control unit 20. The control unit 20 that has received the response operation signal stores the voice data output from the voice input / output unit 23 in the data field, and the slave unit 3 of the slave unit 3 that is the source of the call command in the destination MAC address field of the MAC header. The MAC address assigned to the communication unit 31 is stored, and a MAC frame in which the MAC address assigned to the own slave unit communication unit 26 is stored in the source MAC address field is generated in the slave unit communication unit 26. hand over. The slave unit communication unit 26 sends a transmission signal created by digitally modulating the MAC frame delivered from the control unit 20 to the slave unit connection line Ld.

  The transmission signal sent to the slave unit connection line Ld is received by the communication unit 31 of the slave unit 3. The communication unit 31 passes the MAC frame obtained by digital demodulation of the received transmission signal to the control unit 30. When the MAC address stored in the destination MAC address field of the MAC header of the MAC frame passed from the communication unit 31 does not match the MAC address assigned to the communication unit 31, the control unit 30 of the slave unit 3 Discard the frame. On the other hand, if the MAC address stored in the destination MAC address field of the MAC header matches the MAC address assigned to the communication unit 31, the control unit 30 stores the audio data stored in the data field of the MAC frame. Obtaining and outputting the audio data to the audio input / output unit 33. The voice input / output unit 33 drives the speaker with an analog voice signal that has been D / A converted after the voice data input from the control unit 30 is decoded, and sounds the voice (resident call voice).

  As described above, the video data and the audio data are transmitted from the slave unit 3 to the slave unit 2, and the voice data is transmitted from the slave unit 2 to the slave unit 3. At the same time as a call is made between the resident and the visitor with the machine 3, the video of the visitor imaged by the imaging unit 34 of the slave unit 3 is displayed on the video display unit 24 of the dwelling unit 2. However, the communication performed between the handset 3 and the dwelling unit 2 is not so-called packet communication with a header such as a MAC address or an IP address, but the baseband video signal or audio signal is analog-modulated or digital-modulated. A method of transmitting and receiving transmission signals may be used.

  By the way, for example, UTP cables (unshielded twisted pair cables) are used as transmission lines for the trunk lines Ls1, Ls2, the dwell unit separate line Lc, the slave unit connection line Ld, and different transmission lines are arranged adjacent to each other. In this case, the signal on one transmission path (cable) is affected by the signal on the other transmission path (cable) and mixed with other transmission signals (crosstalk <crosstalk>). There is a fear. There are two types of crosstalk: near end crosstalk (NEXT: near end crosstalk) and far end crosstalk (FEXT: far end crosstalk).

  In the present embodiment, the communication control unit 10 of the communication control device 1 and the control unit 20 of the dwelling unit 2 are provided with a test mode for testing the presence or absence of crosstalk. That is, when a test start button (not shown) is operated in the operation input unit 15 of the communication control device 1, a mode switching signal to the test mode is output from the operation input unit 15 to the communication control unit 10 of the communication control device 1. Then, the communication control unit 10 to which the mode switching signal is input shifts to the test mode. In addition, the communication control unit 10 notifies the control unit 20 of each dwelling unit 2 and the control unit 40 of the common unit device 4 by a transmission signal that it has shifted to the test mode.

  The communication control unit 10 that has shifted to the test mode stores a special MAC address (so-called broadcast address) that designates all the dwelling units 2 connected to the trunk lines Ls1 and Ls2 in the destination MAC address field, and stores it in the trunk line Ls1. The MAC address assigned to the connected communication port (transmission / reception circuit unit 11) is stored in the source MAC address field, and test data (a specific bit example indicating test data) is stored in the data field. A MAC transmission frame is generated and a test transmission signal obtained by digitally modulating the MAC frame is transmitted from the transmission / reception circuit unit 11 to only one trunk line Ls1. The communication control unit 10 uses the transmission / reception circuit unit 12 connected to the other trunk line Ls2 within a predetermined time (for example, within a few seconds) from the time when the test transmission signal is sent from the transmission / reception circuit unit 11 to the trunk line Ls1. It is monitored whether or not the transmission signal for the test is received. And when the transmission signal for a test is received in the transmission / reception circuit unit 12 within a predetermined time, the communication control unit 10 determines that crosstalk (near-end crosstalk) has occurred between the trunk lines Ls1, Ls2, The notification unit 16 is notified of an abnormality (occurrence of near-end crosstalk). However, when the transmission / reception circuit unit 12 does not receive a test transmission signal within a predetermined time, the communication control unit 10 determines that no crosstalk (near-end crosstalk) has occurred between the trunk lines Ls1 and Ls2, and notifies the user. The abnormality is not notified from the part 16.

Further, the test transmission signal sent from the communication control device 1 to one trunk line Ls1 is originally received only by the dwelling unit 2 _m1 connected to the trunk line Ls1, and is connected to the other trunk line Ls2. It should not be received by the dwelling unit 2 _m2 . Therefore, to which of the trunk lines Ls1, Ls2 (in this case, the trunk line Ls1) the test transmission signal is transmitted from the communication control unit 10 of the communication control device 1 to the control unit 20 of each dwelling unit 2 _mn. That is, it is notified in advance by a transmission signal that the trunk line to be tested is the trunk line Ls2. Then, in the control unit 20 of the dwelling unit 2 _m2 connected to the test trunk Ls2, if the transmission signal received by the communication unit 21 is a test transmission signal, a message is displayed on the video display unit 24. Or by sounding a voice message from the speaker of the voice input / output unit 23, an abnormality (occurrence of far-end crosstalk) is reported. In addition, the control unit 20 of the dwelling unit 2 _m2 sends a message notifying the abnormality from the video display unit 24 or the voice input / output unit 23 or together with the notification of the abnormality to inform the data field of the occurrence of the far-end crosstalk. A stored MAC frame is created, and a transmission signal obtained by digitally modulating the MAC frame is transmitted to the communication control device 1. When the communication control unit 10 of the communication control device 1 receives the transmission signal from the dwelling unit 2 _m2 connected to the other trunk line Ls2, the communication control unit 10 generates a message notifying the occurrence of far-end crosstalk stored in the data field. Based on this, the notification unit 16 notifies the abnormality (occurrence of far-end crosstalk). Note that the destination address (destination MAC address) of the test transmission signal is not necessarily a broadcast address, and the communication unit 21 of any dwelling unit (for example, 2 ₁₁ ) connected to one trunk line Ls1. It may be an assigned MAC address.

  Here, there may be a case where only one MAC address is commonly assigned to the four communication ports (transmission / reception circuit units 11 to 14) of the communication control device 1 (for example, transmissions input / output from one communication port). For example, when signals are electrically distributed and wired to multiple trunk lines). In this case, it is impossible to determine whether or not near-end crosstalk has occurred based on the MAC address stored in the source MAC address field of the test transmission signal as described above. Therefore, a transmission signal having a specific length (time) and amplitude is used as a test transmission signal, and the communication control unit 10 transmits the test transmission signal from the transmission / reception circuit unit 11 to one trunk line Ls1, for example. It is sufficient to determine that near-end crosstalk has occurred when the signal power (RSSI value) received by the transmission / reception circuit unit 12 within a predetermined time from the transmission exceeds a predetermined threshold. At this time, the communication control unit 10 knows the timing at which a test transmission signal is sent from the transmission / reception circuit unit 11 to the trunk line Ls1, and the timing at which the transmission / reception circuit unit 12 detects the signal power (RSSI value). It is possible to suppress erroneous detection of noise induced in the test signal as a test transmission signal.

Next, between the dwell unit separate line Lc _mn connecting each dwelling unit 2 _mn to the trunk lines Ls1, Ls2, and the dwell unit connection line Ld _{mn to} which the sub unit 3 _mn is connected for each dwelling unit 2 _mn A case of detecting the presence or absence of crosstalk occurring in the case will be described.

In the test mode, a test transmission signal is transmitted (unicast) from the communication control unit 10 of the communication control device 1 to the dwelling unit 2 _mn to be tested. Further, in accordance with the transmission of the transmission signal for the test, the communication circuit unit 32 slave unit connection slave unit 3 _mn the call button and the operation of the slave unit 3 _mn connected to dwelling unit 2 _mn tested It is sent a transmission signal to line Ld _mn.

On the other hand, the control unit 20 of the dwelling unit 2 _mn to be tested measures the signal-to-noise ratio (S / N ratio) of the test transmission signal received by the transmission / reception circuit unit 22 connected to the dwelling unit separate line Lc _mn , It is determined whether or not it is deteriorated compared to the signal-to-noise ratio value (reference value) of the dwelling unit line Lc _mn measured in advance in a state where a transmission signal is not sent from the slave unit 3 _{mn to the} slave unit connection line Ld _mn. judge. And when it has deteriorated compared with the reference value, the control unit 20 of the dwelling unit 2 _{mn to be} tested displays a message on the video display unit 24 or sounds a voice message from the speaker of the voice input / output unit 23. Thus, an abnormality (occurrence of crosstalk between the dwelling unit separate line Lc _mn and the slave unit connection line Ld _mn ) is reported. Further, the control unit 20 of the dwelling unit 2 _mn stores a message notifying the occurrence of the crosstalk in the data field instead of notifying the abnormality from the video display unit 24 or the voice input / output unit 23 or together with the notification of the abnormality. The MAC frame is created, and a transmission signal obtained by digitally modulating the MAC frame is transmitted to the communication control device 1. Then, when the communication control unit 10 of the communication control device 1 receives the transmission signal from the dwelling unit 2 _mn , the notification unit 16 detects an abnormality (dwelling unit separate line) based on a message informing the occurrence of crosstalk stored in the data field. Occurrence of crosstalk between Lc _mn and slave unit connection line Ld _mn ).

Further, the control unit 20 of the dwelling unit 2 _mn is set to the test mode by a transmission signal transmitted from the communication control device 1 or an operation signal output from the operation input unit 25, and a test transmission signal is transmitted from the communication control device 1. in the state not transmitting any transmission signal including, slave unit 3 _mn of transmission and reception circuit section 32 the slave unit by operating the call button of the handset 3 _mn connected to dwelling unit 2 _mn tested A transmission signal is transmitted to the connection line Ld _mn . At this time, the control unit 20 of the dwelling unit 2 _mn, signal power received by transceiver circuit 22 connected to the dwelling by line Lc _mn (RSSI values) if it exceeds a predetermined threshold, the dwelling by line Lc _mn It is determined that crosstalk has occurred with the slave unit connection line Ld _mn, and a message is displayed on the video display unit 24 or a voice message is sounded from the speaker of the voice input / output unit 23. The occurrence of crosstalk between the separate line Lc _mn and the slave unit connection line Ld _mn ) is notified. Further, the control unit 20 of the dwelling unit 2 _mn stores a message notifying the occurrence of the crosstalk in the data field instead of notifying the abnormality from the video display unit 24 or the voice input / output unit 23 or together with the notification of the abnormality. The MAC frame is created, and a transmission signal obtained by digitally modulating the MAC frame is transmitted to the communication control device 1. Then, when the communication control unit 10 of the communication control device 1 receives the transmission signal from the dwelling unit 2 _mn , the notification unit 16 detects an abnormality (dwelling unit separate line) based on a message informing the occurrence of crosstalk stored in the data field. Occurrence of crosstalk between Lc _mn and slave unit connection line Ld _mn ).

According to this embodiment as described above, mains Ls1, crosstalk generated between the Ls2 (near-end crosstalk and far-end crosstalk) and trunk Ls1, dwelling-specific lines are connected to Ls2 Lc _mn and the slave unit connection line Crosstalk generated between Ld _mn and the communication control device 1 and each dwelling unit 2 _mn is detected, and the communication control device 1 and each dwelling unit 2 _mn notify that crosstalk has occurred (abnormality). Therefore, before the operation of the intercom system for an apartment house (for example, at the time of construction of the system), it is possible to notify the contractor and the like of the occurrence of crosstalk, and the main lines Ls1, Ls2 and the dwelling unit separate lines Lc _mn and the child where the crosstalk has occurred. It can be urged to take measures such as physically separating the machine connection line Ld _mn .

(Embodiment 2)
In the present embodiment, at least one of the trunk lines Ls1 and Ls2 is inserted between the communication control device 1 and the dwelling unit 2 _mn, and a transmission signal transmitted from the upstream communication control device 1 is transmitted to the downstream side. and a repeater 5 for relaying a transmission signal transmitted from the dwelling unit 2 _mn in the downstream side to the upstream side of the communication control device 1 as well as relayed to the dwelling unit 2 _mn. However, since the system configuration of this embodiment excluding the repeater 5 is the same as that of the first embodiment, common components are denoted by the same reference numerals, and illustration and description thereof are omitted.

As shown in FIG. 4, the repeater 5 includes a relay control unit 50 having a CPU and a memory, and upstream and downstream transmission / reception circuit units 51 including a transmission amplifier and a reception amplifier connected to the trunk line Ls1 (or Ls2). , 52, and the upstream transmission / reception circuit unit 51 is connected to the transmission / reception circuit unit 11 (or 12) of the communication control apparatus 1 via the trunk line Ls1, and the downstream transmission / reception circuit unit 52 is connected to the dwelling line Lc. _1n (or L _2n) trunk is connected Ls1 (or Ls2) is connected.

The relay control unit 50, for example, the MAC address assigned to the transmission / reception circuit unit 11 of the communication control device 1 connected to the upstream transmission / reception circuit unit 51 via the trunk line Ls1, the trunk line Ls1, and the dwelling unit separate line Lc. through _1n stores the MAC address assigned to dwelling unit 2 _1n communication unit 21 connected to the communication circuit unit 52 on the downstream side in the memory. As a method for obtaining these MAC addresses, through the dwelling units per line Lc _1n at the start of each dwelling unit machine 2 _1n connected to mains Ls1, to the dwelling unit 2 _1n controller communication control device 1 from 20 For example, there is a method of monitoring a transmission signal transmitted for registering a MAC address, an IP address, and the like and acquiring a transmission source MAC address of the transmission signal.

In the relay control unit 50, the MAC address stored in the destination MAC address field of the test transmission signal received by the upstream transmission / reception circuit unit 51 is connected to the MAC address (connected to the trunk line Ls1) stored in the memory. If it does not match the MAC address assigned to the communication unit 21 of the connected dwelling unit 21 _1n , it is determined that crosstalk has occurred between the trunk lines Ls1 and Ls2, and a message informing the data field that crosstalk has occurred Is generated, and a transmission signal obtained by digitally modulating the MAC frame is transmitted to the communication control apparatus 1. When the communication control unit 10 of the communication control device 1 receives the transmission signal from the repeater 5, the communication unit 10 receives an abnormality (crosstalk on the trunk lines Ls 1 and Ls 2) from the notification unit 16 based on a message informing the occurrence of crosstalk stored in the data field. Occurrence). However, instead of notifying the occurrence of crosstalk from the repeater 5 to the communication control device 1 or together with the notification, an abnormality (occurrence of crosstalk) is caused by notifying means (for example, a buzzer or a display) provided in the repeater 5. ) May be notified. Further, the relay control unit 50 stores the MAC address stored in the destination MAC address field of the transmission signal (regardless of whether it is for testing) received by the upstream transmitting / receiving circuit unit 51 in the memory. If it does not match the MAC address, the transmission signal is discarded without being relayed downstream. Thereby, congestion on the downstream side of the repeater 5 can be avoided due to crosstalk generated on the upstream side of the repeater 5.

  Thus, according to the present embodiment, as in the first embodiment, before the operation of the intercom system for collective housing (for example, during the construction of the system), it is possible to notify the installers of the occurrence of crosstalk on the trunk lines Ls1, Ls2. Thus, it is possible to prompt the user to take a measure such as physically separating the trunk lines Ls1, Ls2 in which crosstalk has occurred.

1 is a system configuration diagram showing Embodiment 1 of the present invention. It is a block diagram of the subunit | mobile_unit in the same as the above. It is explanatory drawing of the flame | frame in the same as the above. It is a block diagram of the repeater in Embodiment 2 of this invention.

Explanation of symbols

1 Communication control device 2 Dwelling unit (terminal)
3 Slave unit 10 Communication control unit (crosstalk detection means)
16 Notification part (notification means)
Ls1, Ls2 Trunk line (communication line)
Lc Dwelling unit separate line (communication line)

Claims (11)

  A plurality of terminals connected to communication lines arranged in a building premises and a plurality of communication lines connected to a plurality of terminals each connected to a plurality of terminals, and communicate with individual terminals via the communication lines. Crosstalk is detected by a communication control device for transmitting signals, crosstalk detection means for detecting the presence or absence of crosstalk in which a test communication signal transmitted to a communication line of any system leaks to a communication line of another system, and crosstalk detection means A communication system comprising: an informing means for informing an abnormality when an error is detected.   The communication control device includes: a plurality of transmission units that transmit communication signals for each communication line of a plurality of systems; a reception unit that receives communication signals for each communication line of a plurality of systems; and a communication line for any one system The crosstalk detecting means for detecting near-end crosstalk received by a receiving means corresponding to a communication line of another system other than the one system when a communication signal is transmitted from a transmitting means corresponding to the communication line; The communication system according to claim 1, further comprising: a notification unit configured to notify an abnormality when a near-end crosstalk is detected by the crosstalk detection unit.   The plurality of terminals includes a first transmission unit that transmits a communication signal to a communication line of one connected system, a first reception unit that receives a communication signal from the communication line, and a first reception unit. The crosstalk detecting means for detecting a far end crosstalk of a received communication signal, and the notifying means for notifying an abnormality when the far end crosstalk is detected by the crosstalk detecting means. The communication system according to 1 or 2. The plurality of terminals include notification means for notifying the communication control device by a communication signal that the far-end crosstalk has been detected by the crosstalk detection means,
4. The communication system according to claim 3, wherein the notification means of the communication control apparatus notifies the abnormality when notified from the notification means of the terminal. Inserted between at least one communication line between the communication control device and the terminal, relays the communication signal transmitted from the upstream communication control device to the downstream terminal and is transmitted from the downstream terminal. A relay that relays the communication signal to the upstream communication control device,
The crosstalk detecting means for detecting a crosstalk by acquiring a destination address included in a communication signal and determining whether a terminal to which an address matching the destination address is assigned exists on the downstream side. 5. The communication system according to claim 1, further comprising: a notification unit configured to notify an abnormality when the crosstalk detection unit determines that the terminal does not exist. The repeater comprises a notification means for notifying the communication control device by a communication signal that the terminal is determined not to exist by the crosstalk detection means,
6. The communication system according to claim 5, wherein the notification means of the communication control device notifies the abnormality when notified from the notification means of the repeater.   7. The communication system according to claim 5, wherein the repeater does not relay the communication signal to the downstream side when the crosstalk detecting means determines that the terminal does not exist. Having a plurality of slave units connected one-to-one to a plurality of terminals via signal lines;
Each terminal receives a second transmission means for transmitting a second communication signal to the slave unit via the signal line, and a second reception for receiving a second communication signal transmitted from the slave unit via the signal line. Means, a measuring means for measuring a signal-to-noise ratio in the second receiving means, and a slave unit while receiving the first communication signal transmitted through the communication line by the first receiving means. When the second communication signal is transmitted via the signal line, the signal-to-noise ratio measured by the measuring unit is received by the first receiving unit via the first communication signal transmitted via the communication line. And a signal-to-noise ratio deterioration determining means for determining whether or not the second communication signal is not transmitted from the slave unit via the signal line when it is deteriorated from the signal-to-noise ratio measured by the measuring means. And a notification to notify the abnormality when it is determined that the signal-to-noise ratio deterioration determining means has deteriorated Communication system according to any one of claims 1-7, characterized in that a stage. Having a plurality of slave units connected one-to-one to a plurality of terminals via signal lines;
Each terminal receives a second transmission means for transmitting a second communication signal to the slave unit via the signal line, and a second reception for receiving a second communication signal transmitted from the slave unit via the signal line. Means, a second far-end crosstalk detecting means for detecting presence or absence of far-end crosstalk in the second communication signal received by the first receiving means, and a far-end crosstalk detected by the second far-end crosstalk detecting means The communication system according to any one of claims 1 to 8, further comprising an informing means for informing the abnormality when the operation is performed. Each terminal includes notification means for notifying the communication control device by a communication signal that the signal-to-noise ratio deterioration determining means has been determined to be deteriorated,
9. The communication system according to claim 8, wherein the notification means of the communication control apparatus notifies the abnormality when notified from the notification means of the terminal. Each terminal includes notification means for notifying the communication control device by a communication signal that the far-end crosstalk is detected by the second far-end crosstalk detection means,
10. The communication system according to claim 9, wherein the notification means of the communication control apparatus notifies the abnormality when notified from the notification means of the terminal.

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