JP4370847B2 - Communication network system and communication network system control method - Google Patents

Description

  The present invention relates to a communication network system that performs moving image transmission or data transmission between a server and a client, and in particular, is a communication network system used in a limited place such as a home or a premises, and a wired communication system. The present invention also relates to a communication network system that uses a wireless communication system together. The present invention also relates to a method for controlling the communication network system.

  Conventionally, a method using wired communication such as Ethernet (registered trademark) or a wireless communication such as a wireless LAN is used as a communication medium in a home or premises network that performs video transmission or data transmission between a server and a client. This method has existed in the past. For example, Japanese Patent Application Laid-Open No. 2002-94543 by the present applicant discloses a home network configured by wired connection. Similarly, Japanese Patent Application Laid-Open No. 2003-174368 by the present applicant discloses a home network configured by wireless connection.

JP 2002-94543 A JP 2003-174368 A

  However, when the purpose is to perform stable communication in moving picture transmission or data transmission at any place in the home or campus, for example, as described in Patent Document 1 using wired communication such as Ethernet. In the case of a simple method, it is difficult to continue the communication by freely moving the location, and the method using the wireless communication such as the wireless LAN as described in Patent Document 2 It is possible to continue the communication by moving the receiver, but if the communication distance becomes large or there are obstacles such as walls between the wireless communication paths, the reception field strength at the receiver will decrease. Signal quality has deteriorated, making it difficult to continue wireless communication.

  Therefore, the present invention is intended to provide a stable communication environment at any place in the home by using the wired communication method and the wireless communication method together.

In order to solve the above problems, a communication network system according to the present invention uses a combination of a wired communication unit that provides wired communication using a wired medium and a wireless communication unit that provides wireless communication using a wireless medium. a communication network system, wherein a wireless communication unit has at least one display terminal displays the received information, and the wired communication unit, both of the wireless communication unit, and a wired communication and wireless communication A plurality of converters for performing conversion between and at least one data distribution source terminal having the wired communication unit, the wireless communication unit of the display terminal measures the quality of the received signal, and the quality of the received signal Is below the threshold value, a roaming request signal is transmitted, and the radio communication unit of the converter measures the quality of the roaming request signal and provides the quality information of the roaming request signal in advance. And it notifies the data distribution source terminal via the wired communication unit, the data distribution wired communication unit of the source terminal receives the quality information of the roaming request signals from a plurality of transducers compared, good best reception state one The wireless communication unit of the converter is shifted to a normal communication mode for transmitting and receiving radio waves, and the wireless communication unit of the other converter is shifted to a reception-only mode in which radio waves are not transmitted. Data is distributed to the display terminal via one wireless communication unit in the normal communication mode.

Also, a control method for a communication network system according to the present invention uses a combination of a wired communication unit that provides wired communication using a wired medium and a wireless communication unit that provides wireless communication using a wireless medium. A plurality of converters having at least one display terminal for displaying received information with a communication unit, the wired communication unit, and the wireless communication unit, and performing conversion between wired communication and wireless communication And a control method for controlling a communication network system comprising at least one data distribution source terminal having the wired communication unit , wherein the wireless communication unit of the display terminal measures the quality of the received signal, and A step of transmitting a roaming request signal when the quality of the received signal is less than or equal to a threshold value, and a radio communication unit of the converter measures the quality of the roaming request signal and A step of notifying the data distribution source terminal of the quality information of the desired signal via the wired communication unit, and the wired communication unit of the data distribution source terminal receives the quality information of the roaming request signal from a plurality of converters. Compare and shift the wireless communication part of the converter with the best reception state to the normal communication mode that transmits and receives radio waves and the wireless communication part of the other converter to the reception-only mode that does not transmit radio waves . And a step in which the data distribution source terminal distributes data to the display terminal via one wireless communication unit in the normal communication mode.

  The present invention has at least one data distribution source terminal, at least one display terminal, and at least one converter in a communication network, and communication between the data distribution source terminal and the display terminal is wireless communication or conversion. Wired communication and wireless communication are performed through a device, and at least one data distribution source terminal (server) existing in the network performs management of the network in the present invention.

  In communication between a display terminal and a data distribution source terminal, when communication is started, between the display terminal and the data distribution source terminal (when a converter is included in the communication path, the display terminal, the converter, and the data distribution source terminal ) To perform device authentication and start communication. When there are a plurality of data distribution source terminals in the network according to the present invention, one of the data distribution source terminals serves as a server. In addition, when communication is performed between a plurality of data distribution source terminals, priority is given to wired communication. If wired communication is difficult, communication between the data distribution source terminals is performed by wireless communication. Is called.

  When there are a plurality of converters and data distribution source terminals in the network according to the present invention, the converter that does not communicate with the display terminal at a certain time and the wireless communication unit of the data distribution source terminal are dedicated to reception. By shifting to the mode, the emission of extra radio waves is suppressed. When the state of communication between the display terminal and the data distribution source terminal deteriorates due to the movement of the display terminal at a certain time, the display terminal is connected to other converters or wireless in the data distribution source terminal. Attempt to communicate with the communications department. Hereinafter, it is called roaming. During this roaming, the display terminal transmits a signal specific to the system of the present invention (hereinafter, roaming request signal). The converter that has received the roaming request signal or the wireless communication unit in the data distribution source terminal transmits reception quality information such as reception field strength and reception quality to a server in the network. The server that has received the received electric field strength and reception quality information from each converter and the data distribution source terminal selects the communication path with the best conditions in this network, and the converter or data distribution corresponding to the communication path. A control signal for shifting to the normal wireless communication mode is transmitted to the wireless communication portion of the original terminal.

  As a result, even in places where radio waves are difficult to reach using conventional methods, for example, a plurality of converters are used and communication is performed while switching wireless communication between the display terminal and the converter or the data distribution source terminal. By performing wired communication between the data distribution source terminal, which is the data transmission source, and the converter, stable communication can be performed.

  According to the communication network system according to the present invention, for example, when a home network is constructed, stable communication can be performed even in a situation where wireless communication is impossible due to deterioration of radio wave conditions due to communication distance. Is possible. Also, in a network where a plurality of wireless communication devices exist, by stopping transmission of wireless communication devices that are not communicating at a certain time, conventionally, from wireless devices that are not communicating at the certain time It is possible to perform stable communication even in a situation where beacons and other control signals that are emitted interfere with each other.

  According to the control method of the communication network system according to the present invention, for example, when a home network is constructed, communication can be stably performed even under the conventional circumstances where wireless communication is not possible due to deterioration of radio wave conditions due to communication distance. Can be performed. Also, in a network where a plurality of wireless communication devices exist, by stopping transmission of wireless communication devices that are not communicating at a certain time, conventionally, from wireless devices that are not communicating at the certain time It is possible to perform stable communication even in a situation where beacons and other control signals that are emitted interfere with each other.

  Hereinafter, several embodiments of the present invention will be described with reference to the drawings. First, the first embodiment is a home communication network system in which the communication network system of the present invention is applied in a home. Video transmission and data transmission from a server installed in a home to a client are performed using both a wired communication method and a wireless communication method.

  FIG. 1 shows the overall configuration of a home communication network system according to the first embodiment. The home network system spans a plurality of rooms such as the room 1 and the room 2, and one data distribution source terminal 10, one display terminal 30, and one converter 50 are arranged. The data distribution source terminal 10 is connected to the wired network 3 through the connection terminal 60 in the room 1 and is connected to the converter 50 through the connection terminal 61 in the room 2. On the other hand, the display terminal 30 existing in the room 2 is connected to the converter 50 via a wireless network. In this system, the data distribution source terminal 10 is a server, and the converter 50 and the display terminal 30 are clients.

  FIG. 2 shows an example of a functional block configuration of the data distribution source terminal 10. The control unit 19 includes a CPU 14 and a memory 13 and executes programs, stores setting values, and stores the state of the device. A television broadcast receiving antenna 1 is connected to the antenna terminal 5, and a broadcast signal input from the antenna 1 is selected and demodulated by a tuner 9 and sent to a bus 20. A telephone line 2 is connected to the line terminal 6. Further, the line terminal 6 is connected to the bus 20 via the modem 10. An external DVD player, a video deck, or the like is connected to the I / F 11 via the terminal 7 and further connected to the bus 20. The storage 12 is an external storage device such as a hard disk or a DVD player, and is connected to the bus 20.

  On the other hand, the wireless communication unit 15 is connected to the antenna 4, transmits and receives signals in the wireless network used in the present invention, and is connected to the bus 21. The wired communication unit 17 is connected to a wired network used in the present invention via the terminal 8 and is also connected to the bus 21. The data processing unit 18 is connected to the bus 21 and performs data processing performed between the wireless communication unit 15 and the wired communication unit 17. The network management unit 16 is connected to the wireless communication unit 15, the wired communication unit 17, and the bus 20, and performs network management such as switching between wired communication and wireless communication in the network system of the present invention.

  FIG. 3 shows an example of a functional block configuration of the display terminal 30. The control unit 40 includes a CPU 34 and a memory 33, and executes programs, stores setting values, and stores the state of the device. The wireless communication unit 32 is connected to the antenna 31, transmits and receives signals in the wireless network according to the present invention, and is connected to the control unit 40, the display control unit 35, and the DAC 37 via the bus 41. The video signal received via the wireless network used in the present invention is sent to the display control unit via the wireless communication unit 32 and displayed on the LCD 36. Similarly, an audio signal received via the wireless network used in the present invention is sent to the DAC 37 via the wireless communication unit 32 and is reproduced as audio by the speaker 39 via the amplifier 38.

  FIG. 4 shows an example of a functional block configuration of the converter in the present invention. The antenna 51 is connected to the wireless communication unit 15 and is connected to the protocol converter 52. The connection terminal 53 is connected to the protocol converter 52 through the wired communication unit 17 at the same time as being connected to the wired network 3 used in the present invention. The protocol converter 52 performs protocol conversion between the wireless network and the wired network used in the present invention.

  Next, the configuration of the wireless communication unit 17 in the data distribution source terminal 10 and the converter 50 will be described with reference to the functional block diagram of FIG. In the wireless communication unit 17, the antenna 71 is connected to a filter 73 and a transmission circuit unit 84 (not shown in detail) via a switch 72, and transmits / receives a wireless signal in a wireless network used in the present invention. The received signal band-limited by the filter 73 is amplified by the amplifier 74 and input to the frequency converter 75. The received signal input to the frequency converter 75 is mixed with the local signal input from the local transmitter 76, converted to an IF frequency, and band-limited by the filter 77. The received signal output from the filter 77 is adjusted in amplitude by an automatic gain control amplifier 78 (hereinafter AGC), converted to a baseband signal by a baseband processor 79 (hereinafter BBP), and input to the controller 80 ( Path 1). On the other hand, the reception signal output by the filter 77 is simultaneously input to the control signal recognition unit 83 and input to the control unit 80 via the detector 82 (path 2). A signal output from the control unit 80 is output to an external circuit via the I / F 81 and the connection terminal 85.

  In the present invention, the wireless communication unit 15 has two operation states of a reception only mode and a normal communication mode, which will be described later. In the normal communication mode, the received signal received by the antenna 71 operates in the same manner as a generally known receiver that is input to the control unit 80 via the path 1 described above. On the other hand, in the reception-only mode, the reception signal received by the antenna 71 is input to the control unit 80 via the path 2.

  The wireless communication unit 15 includes a memory 86 and is connected to the control unit 80, and is used for applications such as setting value storage and data temporary storage.

  As will be described later, the wireless communication unit 15 of the converter 50 that does not communicate with the display terminal 30 at a certain time and the wireless communication unit 15 of the data distribution source terminal 10 have shifted to the reception-only mode. When a connection request signal (described later) arrives from the display terminal 30 to the wireless communication unit 15 in the reception-only mode and it is necessary to shift to the normal communication mode, the mode is shifted to the normal communication mode according to the following procedure. In order to shift the wireless communication unit 15 from the reception-only mode to the normal communication mode, the display terminal 30 transmits a specific signal (hereinafter referred to as a connection request signal). As shown in FIG. 5, when the detector 82 is used as a detection unit for the main connection request signal and is recognized as a control signal by the control signal recognition unit 83, an example of the main connection request signal is an ASK modulation signal or the like. A burst signal having a specific pattern based on the amplitude-modulated signal can be considered. The connection request signal is not limited to the amplitude modulation signal, and the detection position of the connection request signal is not limited to the output of the filter 77 shown in FIG.

  Next, the configuration of the wireless communication unit 32 in the display terminal 30 will be described with reference to the functional block diagram of FIG. FIG. 6 shows an example of functional blocks of the wireless communication unit 32 in the display terminal 30. The wireless communication unit 32 is configured by deleting the detector 82 and the control signal recognition unit 83 from the function of the wireless communication unit 15, and has the same functional block configuration as a reception circuit unit in a general wireless device.

  Next, configurations of the data distribution source terminal 10 and the wired communication unit 17 in the converter 50 will be described with reference to the functional blocks of FIG.

  The data distribution source terminal 10 and the connection terminal 110 connected to the bus 21 and the protocol converter 52 in the converter 50 are connected to the reception circuit unit 112 and the transmission circuit unit 114 via the switch 111. The control unit 113 is connected to the reception circuit unit 112 and the transmission circuit unit 114, and is connected to the I / F 115 and the memory 116. The I / F 115 is connected to the wired network 3 used in the present invention via the connection terminal 117. A reception signal received via the connection terminal 110 is converted into a baseband signal by the reception circuit unit 112 via the switch 111 and then input to the control unit 113, via the I / F 115 and the connection terminal 117. Output to external circuit. On the other hand, a signal input from an external circuit via the connection terminal 117 is input to the transmission circuit unit 114 via the I / F 115 and the control unit 113, and the bus 21 and the protocol converter 52 from the connection terminal 110 via the switch 111. Sent to.

  The wired communication unit 17 includes a memory 116 and is connected to the control unit 113, and is used for applications such as setting value storage and data temporary storage.

  Next, a processing routine when the power is turned on in the home communication network system according to the present embodiment will be described with reference to FIGS.

  FIG. 8 shows an example of a processing routine when the power is turned on at the display terminal 30 in the home communication network system shown in FIG. In this processing routine, first, the display terminal 30 is turned on in step S101, and in step S102, the value of the retry counter in the memory 106 in the wireless communication unit 32 shown in FIG. 6 is initialized. . Next, in order to notify the server that the power of the display terminal 30 is turned on, an identification signal and a connection request signal are transmitted in step S103. In step S104, a response from the server is awaited, and in step S105, it is determined whether or not there is a response from the server. The data distribution source 10 that is a server performs authentication processing of the display terminal 30 based on the identification signal sent from the display terminal 30 in step S103. If there is no response from the server, the retry counter value (N) is incremented by 1 in step S109. Next, in step S110, the retry upper limit value (K) set in advance is compared with N. If N ≠ K, the process waits for a predetermined time in step S112, and then returns to step S103, where the server again. Try to connect with. If N = K in step S110, a message indicating that there is no response from the server is displayed on the LCD 36 in step S111, and then the process returns to step S103 to try to connect to the server again. On the other hand, if the server authenticates the display terminal 30 and receives a response from the server in step S105, a communication start process is executed in step S106. In step S107, it is determined whether or not the communication start process in step S106 has succeeded, and communication is started in step S108.

  9 and 10 show an example of a processing routine when the converter 50 is powered on in the home communication network system shown in FIG.

  In this processing routine, after the power of the wired communication unit 17 in the converter 50 is turned on in step S201, the retry counter in the memory 116 in the wired communication unit 17 shown in FIG. The value of is initialized. Next, in order to notify the server that the power of the converter 50 is turned on, an identification signal and a connection request signal are transmitted in step S203. In step S204, it is determined whether or not there is a response from the server. The data distribution source 10 as the server performs the authentication process of the converter 50 based on the identification signal sent from the converter 50 in step S203. If there is no response from the server, the retry counter value (N) is incremented by 1 in step S208. Next, in step S209, the preset K and N are compared. If K ≠ N, the process waits for a predetermined time in step S210 and then returns to step S203 to try to connect to the server again. If N = K, in step S218, the wireless communication unit 15 in the converter 50 is turned on, and in step S219, the wireless communication unit 15 is shifted to the normal communication mode. In step S220, a message is sent to the display terminal 30 indicating that there is no response from the server or that the power is not turned on. In step S221, the wireless communication unit 15 is shifted to the reception-only mode. finish.

  On the other hand, if the server authenticates the converter 50 and a response from the server is received in step S205, a communication start process is executed in step S206. In step S207, it is determined whether or not the communication start process in step S206 has succeeded. If the communication start process has failed, the process returns to step S206 to perform the communication start process again. If it is determined in step S207 that the communication start process is successful, in step S211, the wireless communication unit 15 in the converter 50 is turned on, and the wireless communication unit 15 shifts to the reception-only mode. It waits in a state where a signal from the display terminal 30 can be received. If it is determined in step S213 that a connection request signal has been received from the display terminal 30, the wireless communication unit 15 shifts to the normal communication mode in step S214, and executes a communication start process in step S215. . The determination of reception of the connection request signal in step S213 is performed by the path 2, that is, the detector 82, the control signal recognition unit 83, and the control unit 80 of the wireless communication unit 15. If it is determined in step S216 that the communication start process has been successful or not, the process returns to step S215 and the communication start process is executed again. On the other hand, if the communication start process is successful, the process proceeds to step S217 to start communication.

  11 and 12 show an example of a processing routine when the data distribution source terminal 10 is turned on in the home communication network system shown in FIG.

  In this processing routine, after the power of the data distribution source terminal 10 is turned on in step S301, the processing from step S306 to step S309 is executed in the wired communication unit 17, and the step in the wireless communication unit 15 is performed. The processing from S302 to step S305 is executed. In FIG. 11, the processing is shown in parallel. However, these processing is not necessarily performed in parallel. In step S306 to step S309, in step S306, the wired communication unit 17 is shifted to the reception-only mode, and waits in a state where the connection request signal from the wired network used in the present invention can be received. In step S307, the control unit 113 checks reception of the connection request signal. If the connection request signal is not sent from the display terminal 30 via the wired communication unit 17 of the converter 50 and the connection request is not received, after waiting for a certain time in step S308, the process returns to step S307. Return. On the other hand, if reception of the connection request signal is confirmed in step S307, the signal quality of the received connection request signal is notified to the network control unit 16 in the data distribution source terminal 10 in step S309.

  On the other hand, from step S302 to step S305, the wireless communication unit 15 is shifted to the reception-only mode in step S302 and waits in a state where the connection request signal from the wireless network in the present invention can be received. In step S303, reception of the connection request signal is checked by the detector 82, the control signal recognition unit 83, and the control unit 80. Here, when the control unit 80 determines that the connection request signal has not been received, after waiting for a predetermined time in step S304, the process returns to step S303 again. On the other hand, if the reception of the connection request signal is confirmed in step S303, the signal quality of the received connection request signal is notified to the network control unit 16 in the data distribution source terminal 10 in step S305.

  The network control unit 16 receives a notification of the reception state from the wired communication unit 17 or the wireless communication unit 15 in step S310, and then waits for a notification from the other in step S311. The notification signal detection possible state is retained. Next, the signal quality information notified in step S312 is compared, and in step S313, it is determined whether to perform communication using a wired communication network or to perform communication using a wireless network. If it is determined in step S313 that the wired communication network is to be used, the wireless communication unit 15 is shifted to the reception-only mode in step S314, and at the same time, the processing from step S315 to step S317 is performed. In step S315, the wired communication unit 17 performs a communication start process, and determines whether the communication start process is successful in step S316. If it is determined in step S316 that the communication process has failed, the process returns to step S315 again to perform a communication start process. If it is determined in step S316 that the communication start process has been successful, communication is started in step S317.

  On the other hand, if it is determined in step S313 that the wireless network is used, the wired communication unit 17 is shifted to the reception-only mode in step S321, and the processing from step S318 to step S320 is executed. In step S318, the wireless communication unit 15 performs a communication start process, and in step S319, determines whether the communication start process is successful. If it is determined in step S319 that the communication process has failed, the process returns to step S318 again to perform a communication start process. If it is determined in step S319 that the communication start process has been successful, communication is started in step S320.

  As described above, in the home communication network system according to the first embodiment, one data distribution source terminal 10 is connected to the wired network 3 via the connection terminal 60 in the room 1 and is connected to the room 2. It is connected to one converter 50 via a certain connection terminal 61. On the other hand, one display terminal 30 existing in the room 2 is configured to be connected to the converter 50 via a wireless network. For this reason, conventionally, it is possible to perform stable communication even in a situation where wireless communication is not possible due to deterioration of radio wave conditions due to communication distance. In addition, by stopping transmission of a wireless communication device that is not communicating at a certain time, conventionally, beacons and other control signals emitted from wireless devices that are not communicating at the certain time are disturbed. Even under such circumstances, stable communication can be performed.

  Next, a second embodiment will be described. In the first embodiment, the case where there is one data distribution source terminal 10, one converter 50, and one display terminal 30 has been described, but the present invention is limited to this. Instead, a system having a plurality of data distribution source terminals and converters may be used. Such a home communication network system will be described below as a second embodiment with reference to FIGS.

  FIG. 13 is a diagram illustrating an example of a configuration of a home communication network system according to the second embodiment. In this home communication network system, a data distribution source terminal 10a that serves as a server and data that serves as a client in a home network that spans a plurality of rooms such as room 1, room 2, room 3, and room 4. A distribution source terminal 10b, a converter 50a, a converter 50b, and a display terminal 30 are installed. The data distribution source terminal 10 a is installed in the room 3 and connected to the wired network 3 through the connection terminal 63, and the data distribution source terminal 10 b is installed in the room 1 and connected to the wired network 3 through the connection terminal 62. It is connected. The converter 50a is installed in the room 2 and connected to the wired network 3 via the connection terminal 64, and the converter 50b is installed in the room 4 and connected to the wired network 3 via the connection terminal 65, and the display terminal 30 Is assumed to be in room 2.

  A processing routine at power-on in this home communication network system will be described with reference to FIG. FIG. 14 shows an example of a processing routine when the data distribution source terminal 10a or the data distribution source terminal 10b is turned on in the network shown in FIG.

  When the display terminal 30 is turned on, processing similar to the processing routine shown in FIG. 8 is executed, and the converter 50a and the converter 50b are shown in FIG. 9 and FIG. The description here is omitted to perform the same processing as the processing routine shown.

  After powering on the data distribution source terminal in step S401, the wired communication unit 17 is shifted to the normal communication mode in step S402 to prioritize wired communication. In step S403, an identification signal and a connection request signal are transmitted. In step S404, a standby state is entered for a predetermined time in order to wait for a response from the server. If there is no response from the server in step S405, the process proceeds to 14-1, and the processing routine as the server shown in FIG. 11 is executed.

  On the other hand, if a response from the server is received in step S405, the processing from step S406 to step S408 is executed to perform the operation as a client. In step S408, the wired communication unit is shifted to the reception-only mode, the wireless communication unit is turned on in step S406, and the wireless communication unit is shifted to the reception-only mode in step S407.

  In the home communication network system according to the second embodiment, processing during roaming when the display terminal 30 is moved from the room 2 to the room 4 will be described with reference to FIGS. It is assumed that the display terminal 30 has finished moving from the room 2 to the room 4 as indicated by the dashed arrows in FIG.

  In step S501, the display terminal 30 in communication with the converter 50a measures received signal quality such as received signal strength and signal band noise ratio in step S502. In step S503, the received signal quality measured in step S502 is compared with a preset threshold value. If the received signal quality is equal to or higher than the threshold value, the process returns to step S501 and the current communication is continued.

  If it is determined in step S503 that the received signal quality is equal to or lower than the threshold value, a roaming request signal is transmitted in step S504. Thereafter, the converter 50a and the converter 50b execute the processes of Steps S505 to S507 and Steps S508 to S510, respectively. When the converter 50a receives the roaming request signal in step S505, the converter 50a measures the signal quality of the received roaming request signal in step S506, and the signal quality measured in step S506 in step S507. Notify information. Similarly, when the converter 50b receives the roaming request signal in step S508, the converter 50b measures the signal quality of the received roaming request signal in step S509, and the signal measured in step S509 in step S510. Notify quality information. In step S511, the wired communication unit of the data distribution source terminal 10a that has received the notification from the converter 50a and the converter 50b compares the signal quality information and determines the converter to be used. If it is determined in step S511 that the converter 50a is to be used, communication with the current converter 50a is continued in step S512, and at the same time, the wireless communication unit of the converter 50b is set in the reception-only mode in step S513. To migrate.

  On the other hand, if it is determined in step S511 that the converter 50b is to be used, the wireless communication unit of the converter 50a is shifted to the reception-only mode in step S514, and at the same time, in step S515, the converter 50b is used. A communication start process is performed in the wireless communication unit 50b, and communication with the display terminal 30 is started in step S516.

  As described above, in the home communication network system according to the second embodiment, the data distribution source terminal 10a installed in the room 3 is connected to the wired network 3 via the connection terminal 63 and is connected to the room 1. The installed data distribution source terminal 10 b is connected to the wired network 3 via the connection terminal 62. The converter 50 a installed in the room 2 is connected to the wired network 3 through the connection terminal 64, and the converter 50 b installed in the room 4 is connected to the wired network 3 through the connection terminal 65. ing. The display terminal 30 exists in the room 2. Therefore, it is possible to perform stable communication even under a situation where wireless communication is impossible due to deterioration of the radio wave condition due to the communication distance. In addition, roaming can be easily performed even if the display terminal 30 is moved, so that more stable communication is possible. Also, in a network where a plurality of wireless communication devices exist, by stopping transmission of wireless communication devices that are not communicating at a certain time, conventionally, from wireless devices that are not communicating at the certain time It is possible to perform stable communication even in a situation where beacons and other control signals that are emitted interfere with each other.

  In the systems of the first and second embodiments, the wireless communication unit 32 in the display terminal 30 is not provided with a connection request signal and roaming request signal recognition unit. For this reason, for example, when the power of the display terminal is off, an image from the server cannot be displayed. However, by providing the wireless communication unit 15 shown in FIG. Even when is off, the display terminal can be activated by sending a signal from the server. Furthermore, it is also possible to display a program set in advance by video or the like.

It is a figure which shows the structural example of the home communication network system of 1st Embodiment. It is a functional block diagram of a data distribution origin terminal. It is a functional block diagram of a display terminal. It is a functional block diagram of a converter. It is a functional block diagram of the data communication terminal and the wireless communication part in a converter. It is a functional block diagram of the radio | wireless communication part in a display terminal. It is a functional block diagram of the data communication terminal and the wired communication part in a converter. It is a flowchart which shows the processing routine at the time of display terminal power-on. It is a flowchart which shows the first half of the processing routine at the time of converter power activation. It is a flowchart which shows the second half of the processing routine at the time of converter power-on. It is a flowchart which shows the first half of the processing routine at the time of data distribution origin terminal power-on. It is a flowchart which shows the second half of the processing routine at the time of data distribution origin terminal power-on. It is a figure which shows the structural example of the home communication network system of 2nd Embodiment. It is a flowchart which shows the processing routine at the time of power activation of the data delivery origin terminal in the home communication network system of 2nd Embodiment. It is a flowchart which shows the processing routine at the time of roaming in the home communication network system of 2nd Embodiment. It is a flowchart which shows the processing routine at the time of roaming in the home communication network system of 2nd Embodiment. It is a flowchart which shows the processing routine at the time of roaming in the home communication network system of 2nd Embodiment.

Explanation of symbols

10 data distribution source terminal, 30 display terminal, 50 converter, 60, 61 connection terminal

Claims (6)

A communication network system that uses a combination of a wired communication unit that provides wired communication using a wired medium and a wireless communication unit that provides wireless communication using a wireless medium,
At least one display terminal that has the wireless communication unit and displays received information;
A plurality of converters having both the wired communication unit and the wireless communication unit, and performing conversion between wired communication and wireless communication;
And at least one data distribution source terminal having the wired communication unit ,
The wireless communication unit of the display terminal measures the quality of the received signal, and if the quality of the received signal is equal to or lower than a threshold, transmits a roaming request signal
The wireless communication unit of the converter measures the quality of the roaming request signal, notifies the quality information of the roaming request signal to the data distribution source terminal via the wired communication unit,
The wired communication unit of the data distribution source terminal receives and compares the quality information of roaming request signals from a plurality of converters, and normally transmits / receives radio waves to the wireless communication unit of the one converter with the best reception state. Shift to communication mode and shift the wireless communication part of other converters to receive-only mode that does not transmit radio waves .
The data distribution source terminal is a communication network system that distributes data to the display terminal via a wireless communication unit in the normal communication mode. The data distribution source terminal transmits an identification signal and a connection request signal via the wired communication unit when power is turned on, and when there is no response from another data distribution source terminal, as a server for distributing data to the display terminal The communication network system according to claim 1 which functions. The data distribution source terminal has a wireless communication unit, and when there is a response from the other data distribution source terminal, the wireless communication unit is turned on to shift the wireless communication unit to the reception-only mode. The communication network system according to claim 2. A combination of a wired communication unit that provides wired communication using a wired medium and a wireless communication unit that provides wireless communication using a wireless medium, and has at least one of the wireless communication units to display received information. A plurality of converters having both one display terminal, the wired communication unit, and the wireless communication unit, and performing conversion between wired communication and wireless communication; and at least one data distribution source having the wired communication unit A control method for controlling a communication network system comprising a terminal,
The wireless communication unit of the display terminal measures the quality of the received signal, and when the quality of the received signal is equal to or lower than a threshold, transmitting a roaming request signal;
A step of measuring the quality of the roaming request signal by the wireless communication unit of the converter and notifying the data distribution source terminal of the quality information of the roaming request signal via the wired communication unit;
Usually , the wired communication unit of the data distribution source terminal receives and compares the quality information of roaming request signals from a plurality of converters, and transmits / receives radio waves to / from the wireless communication unit of one converter with the best reception state. Shifting to the communication mode and shifting the wireless communication unit of the other converter to a reception-only mode that does not transmit radio waves ; and
The data distribution source terminal distributes data to the display terminal via one wireless communication unit in the normal communication mode. The data distribution source terminal transmits an identification signal and a connection request signal via the wired communication unit when power is turned on, and when there is no response from another data distribution source terminal, as a server for distributing data to the display terminal The communication network system control method according to claim 4, which functions. The data distribution source terminal has a wireless communication unit, and when there is a response from the other data distribution source terminal, the wireless communication unit is turned on to shift the wireless communication unit to the reception-only mode. The method for controlling a communication network system according to claim 5.

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