JP2009164954A - Server, communication apparatus, communication system, and communication method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce power consumption of a communication apparatus by preventing unnecessary communication from being performed with another apparatus that becomes a communication partner. <P>SOLUTION: A communication system 100 is disclosed in which a server 110 and a communication apparatus 150 exchange information via an AP 130, wherein the server 110 has information specifying a communication time of a request for acquiring information from the communication apparatus 150 and when the server 110 does not have information to be transmitted to the communication apparatus 150 at the specified communication time, the server 110 issues an instruction to the AP 130 so as not to relay connection from the communication apparatus 150. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a technology in which a server and a communication device communicate with each other via a relay device.

  Network functions are installed in various devices ranging from factory equipment, AV equipment such as TV and video, to white goods such as air conditioners and lighting after refrigeration.

  As described above, when various devices are connected to the network, it is considered to use a wireless network device that does not require a wired infrastructure.

  Then, when the wireless network device is mounted on the device in this way, it is necessary to supply power by a battery or a battery in order to eliminate the need for wiring for power supply. However, since the network module required for wireless communication consumes a large amount of power, it is necessary to reduce the power consumption of the network device for long-term use without charging the battery or replacing the battery. It becomes.

  Here, for example, Patent Document 1 describes a technique for performing an intermittent operation without always starting the network module in order to reduce the power consumption of the network device.

JP 2005-26862 A

  The technique described in Patent Document 1 can achieve low power consumption by performing intermittent operation of a network module, but does not take into consideration reduction of communication amount in data exchange with other devices.

  For example, power consumption in the network module can be reduced by reducing unnecessary communication with other devices.

  Therefore, an object of the present invention is to reduce power consumption of a communication device by preventing unnecessary communication with another device that is a communication partner.

  In order to solve the above problems, the present invention provides a server and a communication device when the server does not have information to be transmitted to the communication device when the server and the communication device transmit and receive information via the relay device. The server instructs the relay device to reject the connection request for acquiring information from the communication device.

  For example, the present invention is a server that transmits and receives information via a communication device and a relay device, and performs communication between the communication device and the communication device at the time. A storage unit that stores time slot information that identifies the content, and a control unit, wherein the control unit transmits information to the communication device with the content of the communication identified by the time slot information When there is no information to be transmitted to the communication device, the relay device is instructed not to relay the connection from the communication device.

  As described above, according to the present invention, it is possible to reduce power consumption of a communication device by preventing unnecessary communication with another device serving as a communication partner.

  FIG. 1 is a schematic diagram of a communication system 100.

  As illustrated, the communication system 100 includes a server 110, an access point (hereinafter referred to as AP) 130, and a communication device 150, and the server 110 and the AP 130 transmit and receive information via a network 170. The AP 130 and the communication device 150 can transmit and receive information via radio waves such as electromagnetic waves.

  FIG. 2 is a schematic diagram of the server 110.

  As illustrated, the server 110 includes a storage unit 111, a control unit 115, and a transmission / reception unit 119.

  The storage unit 111 includes a communication device information storage area 112, a time slot information storage area 113, and a transmission information storage area 114.

  Information for managing the communication device 150 connected to the server 110 via the AP 130 is stored in the communication device information storage area 112.

  For example, in the present embodiment, a communication device table 112a as shown in FIG. 3 (schematic diagram of the communication device table 112a) is stored in the communication device information storage area 112.

  As illustrated, the communication device table 112a includes a communication device ID column 112b, a MAC address column 112c, and a time slot column 112d.

  The communication apparatus ID column 112b stores identification information for uniquely identifying the communication apparatus 150 connected to the server 110 via the AP 130. Here, information for identifying the communication device ID allocated to each communication device 150 is stored in this column as identification information for uniquely identifying the communication device 150.

  The MAC address column 112c stores information for specifying a MAC address, which is information for specifying an address of the communication device 150 specified by the communication device ID column 112b.

  The time slot column 112d stores information for specifying a time slot table (see FIG. 4) for specifying communication processing performed by the communication device 150 specified by the communication device ID column 112b. Here, in this embodiment, the time slot table name for identifying each time slot table is stored in this column as information for specifying the time slot table.

  Returning to FIG. 2, the time slot information storage area 113 stores information that identifies the time at which the communication device 150 connected to the server 110 via the AP 130 performs communication and the content of the communication performed at that time. .

  For example, in the present embodiment, a time slot table 113 a as shown in FIG. 4 (schematic diagram of the time slot table 113 a) is stored in the time slot information storage area 113 for each communication device 150. Each time slot table 113a is identified by a time slot table name.

  As shown in the figure, the time slot table 113a includes a time column 113b and a communication command column 113c.

  The time column 113b stores information that specifies the time at which the communication device 150 performs communication. Here, in this embodiment and the like, the relative time from a specific time point is stored in this field, but the present invention is not limited to this mode. For example, the absolute time for specifying the year, month, day time is the present field. You may make it store in.

  The communication command column 113c stores information for specifying the communication content that the communication device 150 communicates with the server 110 via the AP 130 at the time specified in the time column 113b.

  Here, in the present embodiment, “schedule confirmation” stored in the communication command column 113c is a schedule of processing performed by the communication device 150 (for example, a time at which the communication device 150 displays on the display unit 162 described later, etc.) The communication device 150 inquires of the server 110 about the presence / absence of information for specifying the information), and when there is such a schedule, the communication device 150 receives such a schedule from the server 110.

  In addition, “image confirmation” stored in the communication command column 113c indicates that the communication apparatus 150 inquires of the server 110 about the presence or absence of image information that the communication apparatus 150 displays on the display unit 162 described later. In some cases, the communication process is a communication process in which the communication device 150 receives such image information from the server 110.

  The “time confirmation” stored in the communication command column 113 c is used to inquire about the time for the communication device 150 to synchronize with the server 110, and the communication device 150 receives the time information from the server 110. Communication processing.

  The “operation log transmission” stored in the communication command column 113 c is a communication process in which the communication apparatus 150 transmits operation log information in which operation logs of the communication apparatus 150 are accumulated to the server 110.

  Returning to FIG. 2, the transmission information storage area 114 stores information specifying the presence / absence of information to be transmitted for each communication device 150.

  For example, in this embodiment, for each communication device 150, a transmission table 114a as shown in FIG. 5 (schematic diagram of the transmission table 114a) is stored in the transmission information storage area 114.

  As illustrated, the transmission table 114a includes a data type column 114b and a data column 114c.

  The data type column 114b stores information for specifying the type of information to be transmitted to the communication device 150. Here, in the present embodiment, an image or a schedule is assumed as information to be transmitted to the communication device 150, but the present invention is not limited to such an aspect.

  In the data column 114c, information specifying the presence / absence of information of the type specified in the data type column 114b is stored. Here, in the present embodiment, when the character string “none” is stored in this column, it indicates that there is no information to be transmitted to the communication device 150, and the name of the information to be transmitted in this column. When (file name or the like) is stored, it indicates that there is information to be transmitted to the communication device 150, but the present invention is not limited to such a mode.

  Returning to FIG. 2, the control unit 115 includes a communication control unit 116, a communication data processing unit 117, and a time measurement unit 118.

  The communication control unit 116 is a process in which the communication control unit 116 transmits specific information in response to a request from the communication device 150 via the transmission / reception unit 119 and receives information transmitted from the communication device 150. To control.

  In particular, in the present embodiment, the communication control unit 116 refers to the time slot table 113a stored in the time slot information storage area 113 to transmit information in response to a request from the communication device 150. Is specified (time specified in the time column 113b of the time slot table 113a or time specified before the time specified in the time column 113b of the time slot table 113a).

  If it is time to perform communication processing for transmitting information in response to a request from the communication device 150, the communication control unit 116 determines whether or not there is actually information to be transmitted in response to the request from the communication device 150. Is determined from the data column 114c of the transmission table 114a stored in the transmission information storage area 114.

  If there is no actual information to be transmitted to the communication device 150, the communication control unit 116 stores the MAC address of the communication device 150 without the information to be actually transmitted in the communication device information storage area 112. An instruction is issued to the AP 130 so as not to respond to the connection from the communication device 150 having the specified MAC address.

  In addition, the communication control unit 116 issues a communication having the MAC address specified as described above after a predetermined time has elapsed after issuing an instruction to the AP 130 so as not to accept the connection from the communication device 150. The AP 130 is instructed to accept the connection from the device 150.

  The communication data processing unit 117 performs processing for storing information received from the communication device 150 in the storage unit 111.

  The communication data processing unit 117 performs processing for generating information to be transmitted to the communication device 150 and storing the information in the storage unit 111.

  When the communication data processing unit 117 generates information to be transmitted to the communication device 150, the communication data processing unit 117 stores the data type of the generated information and the data in the transmission table 114a corresponding to the communication device 150 that has generated the information to be transmitted. A process of storing a name (file name, etc.) is performed.

  Further, when the communication control unit 116 transmits information specified by the transmission table 114a to the communication device 150, the communication data processing unit 117 performs processing for deleting a record corresponding to the information.

  The time measuring unit 118 measures time based on an electric signal from an RTC (Real Time Clock) (not shown).

  The transmission / reception unit 119 transmits / receives information via the network 170.

  The server 110 described above includes, for example, a CPU (Central Processing Unit) 181, a memory 182, and an external storage device 183 such as an HDD (Hard Disk Drive) as shown in FIG. 6 (schematic diagram of the computer 180). A reading device 185 for reading information from a portable storage medium 184 such as a CD-ROM (Compact Disk Read Only Memory) and a DVD-ROM (Digital Versatile Disk Read Only Memory); and an input device 186 such as a keyboard and a mouse; It can be realized by a general computer 180 equipped with an output device 187 such as a display and a communication device 188 such as a NIC (Network Interface Card) for connecting to a communication network.

  For example, the storage unit 111 can be realized by the CPU 181 using the memory 182 or the external storage device 183, and the control unit 115 loads a predetermined program stored in the external storage device 183 to the memory 182. The transmission / reception unit 119 can be realized by the CPU 181 using the communication device 188.

  This predetermined program is downloaded from the storage medium 184 via the reading device 185 or from the network via the communication device 188 to the external storage device 183, and then loaded onto the memory 182 and executed by the CPU 181. You may do it. Alternatively, the program may be directly loaded on the memory 182 from the storage medium 184 via the reading device 185 or from the network via the communication device 188 and executed by the CPU 181.

  FIG. 7 is a schematic diagram of the AP 130.

  As illustrated, the AP 130 includes an antenna 131, a wireless unit 132, a storage unit 133, a control unit 135, and a wired unit 138.

  The wireless unit 132 processes a wireless signal transmitted and received via the antenna 131.

  Specifically, RF (Radio Frequency) processing for modulating and demodulating a radio signal transmitted / received via the antenna 131, baseband signal processing for modulating and demodulating a baseband signal, upper data link in the physical layer The layer performs MAC processing according to a MAC (Media Access Control) protocol that defines a frame transmission / reception method, frame format, error detection method, and the like.

  The storage unit 133 includes an authentication rule information storage area 134.

  The authentication rule information storage area 134 stores information that identifies the communication device 150 that permits connection.

  For example, in this embodiment, an authentication rule table 134a as shown in FIG. 8 (schematic diagram of the authentication rule table 134a) is stored in the authentication rule information storage area 134.

  As illustrated, the authentication rule table 134a includes a MAC address column 134b and a connection authentication column 134c.

  In the MAC address column 134b, information for specifying the MAC address of the communication device 150 connected to the network 170 via the AP 130 is stored.

  The connection authentication column 134c stores information for specifying whether to permit or prohibit the connection of the communication device 150 having the MAC address specified in the MAC address column 134b. Here, in this embodiment, when the character string “permitted” is stored in this field, the connection of the communication device 150 is permitted, and when the character string “prohibited” is stored. Although the connection of the communication device 150 is rejected, the present invention is not limited to such a mode.

  Returning to FIG. 7, the control unit 135 includes a communication control unit 136 and a connection authentication unit 137.

  The communication control unit 136 controls processing of the entire AP 130.

  In particular, in the present embodiment, when the communication control unit 136 receives a connection rejection command specifying the MAC address from the server 110, the communication control unit 136 sets the connection authentication column 134c of the record of the authentication rule table 134a corresponding to the specified MAC address. Set to "prohibited".

  When the communication control unit 136 receives a connection permission instruction specifying the MAC address from the server 110, the communication control unit 136 sets the connection authentication field 134c of the record of the authentication rule table 134a corresponding to the specified MAC address to “permitted”. I do.

  Upon receiving “Authentication” specifying the MAC address of the own device from the communication device 150, the connection authentication unit 137 checks the connection authentication field 134c of the record of the authentication rule table 134a corresponding to the specified MAC address, When the character string “permitted” is stored in the connection authentication column 134c of the confirmed record, the connection of the communication apparatus 150 is permitted, and the character string “prohibited” is displayed in the connection authentication column 134c of the confirmed record. If it is stored, a process of rejecting the connection of the communication device 150 is performed.

  The wired unit 138 is an interface for transmitting and receiving information via a wired line.

  FIG. 9 is a schematic diagram of the communication device 150.

  As illustrated, the communication device 150 includes a network communication unit 151 and a display unit 162.

  The network communication unit 151 includes an antenna 152, a wireless unit 153, a power supply unit 154, a storage unit 155, a control unit 157, and an IF unit 161.

  The wireless unit 153 processes a wireless signal that is transmitted and received via the antenna 152.

  Specifically, RF processing for modulating and demodulating radio signals transmitted and received via the antenna 152, baseband signal processing for modulating and demodulating baseband signals, and frame data in the data link layer above the physical layer. MAC processing according to the MAC protocol that defines transmission / reception methods, frame formats, error detection methods, and the like is performed.

  The power supply unit 154 supplies power to the wireless unit 153, the storage unit 155, and the control unit 157.

  The storage unit 155 includes a time slot information storage area 156.

  The time slot information storage area 156 stores information that identifies the time when the communication device 150 that is the device itself performs communication and the content of the communication performed at the time.

  For example, in the present embodiment, a time slot table 113 a as shown in FIG. 4 is stored in the time slot information storage area 156.

  The control unit 157 includes a communication control unit 158, a power supply control unit 159, and a time measurement unit 160.

  The communication control unit 158 controls the entire communication process in the network communication unit 151.

  In particular, in the present embodiment, the communication control unit 158 acquires time information from the time measurement unit 160 and sets the time stored in the time column of the time slot table stored in the time slot information storage area 156. The communication process specified by the communication command stored in the communication command column is executed.

  Further, the communication control unit 158 communicates with the power supply control unit 159 from the power supply unit 154 to the wireless unit when performing communication with the network communication unit 151 according to the time slot table 113a stored in the time slot information storage area 156. 153 and the storage unit 155 are supplied with power, and when communication is completed, the wireless unit 153 and the storage unit 155 are controlled to stop the power supply from the power supply unit 154.

  Furthermore, when the communication control unit 158 performs communication processing for acquiring specific information from the server 110 and there is no connection authentication from the AP 130, there is no specific information to be acquired in the server 110. As a thing, the process which complete | finishes the said communication process is performed. Here, in such a case, the communication control unit 158 preferably ends the communication process without retrying the connection request to the server 110.

  The power supply control unit 159 controls the power supply unit 154.

  In particular, in the present embodiment, the power supply control unit 159 supplies power to the wireless unit 153 and the storage unit 155 from the power supply unit 154 when the network communication unit 151 performs communication according to an instruction from the communication control unit 158. When the communication is completed, the power supply unit 154 controls the wireless unit 153 and the storage unit 155 to stop the power supply.

  The time measuring unit 160 measures time based on an electric signal from an RTC (not shown). In the present embodiment, the time measurement unit 118 of the server 110 and the time measurement unit 160 of the communication device 150 are synchronized by receiving time information periodically from the server 110. Yes.

  The IF unit 161 is an interface for connecting the network communication unit 151 to another device.

  The display unit 162 is a display device that displays information received via the network communication unit 151.

  In the present embodiment, the information displayed on the display unit 162 is acquired from the server 110 via the network 170 by connecting the display unit 162 to the network communication unit 151. For example, AV equipment such as video and DVD, and white goods such as air conditioner and lighting after refrigeration are connected to the network communication unit 151 to transmit and receive information to and from the server 110. Also good.

  FIG. 10 is a sequence diagram when the communication device 150 performs processing for acquiring data from the server 110. Here, a communication sequence using TCP (Transmission Control Protocol) in particular is shown, but the present invention is not limited to such an example. In the sequence illustrated in FIG. 10, processing when there is data to be transmitted from the server 110 to the communication device 150 will be described.

  First, the communication device 150 outputs the time measured by the time measurement unit 160 to the communication control unit 158, and the communication control unit 158 refers to the time slot table stored in the time slot information storage area 156, so that the server 110 Wireless communication with the power supply unit 154 via the power supply control unit 159 at the time when communication processing (here, communication processing for receiving a schedule from the server 110) is performed. The unit 153 is instructed to supply power, and in response to the instruction, the power unit 154 supplies power to the wireless unit 153 (S10).

  Next, the communication device 150 transmits Authentication to the AP 130 (S11). Here, the description will be made assuming that the connection to the AP 130 is successful (there is data to be transmitted from the server 110 to the communication device 150).

  In the AP 130 that has received the authentication from the communication device 150, the communication control unit 136 extracts the MAC address of the communication device 150 included in the authentication and outputs it to the connection authentication unit 137, and the connection authentication unit 137 receives the authentication rule. By searching the MAC address column 134b of the authentication rule table 134a stored in the information storage area 134, the corresponding record is specified.

  Then, the connection authentication unit 137 determines whether the connection of the communication device 150 is permitted or prohibited from the information stored in the connection authentication field 134c of the specified record. Here, it is assumed that connection of the communication device 150 is permitted.

  Then, the communication control unit 136 of the AP 130 returns Authentication (Status: Success) indicating that the connection of the communication device 150 is permitted to the communication device 150 (S12).

  In the communication device 150 that has received such Authentication (Status: Success), the communication control unit 158 transmits an Association Request to the AP 130 via the wireless unit 153 (S13).

  In the AP 130 that has received such an Association Request, the communication control unit 136 returns an Association Response to the communication device 150 as a response (S14).

  Then, in the communication device 150 that has received the Association Response, the communication control unit 158 performs a process of confirming the success or failure of the connection to the AP 150 (S15).

  Next, the communication control unit 158 of the communication device 150 transmits a TCP SYN to the server 110 via the wireless unit 153 (S16).

  In the server 110 that has received such a TCP SYN, the communication control unit 116 returns a TCP ACK to the communication device 150 via the transmission / reception unit 119 (S17).

  Next, the communication control unit 116 of the server 110 transmits a TCP SYN to the communication device 150, and the communication control unit 158 of the communication device 150 returns a TCP ACK to the server 110 (S19).

  Next, the communication control unit 158 of the communication device 150 transmits a data request to the server 110 according to the time slot table (S20).

  In the server 110 that has received such a data request, the communication control unit 116 transmits data corresponding to the received data request to the communication device 150 (S21).

  Then, the communication control unit 116 of the server 110 transmits TCP FIN to the communication device 150 after completing the transmission of the requested data (S22).

  In the communication device 150 that has received such TCP FIN, the communication control unit 158 returns a TCP ACK to the server 110 (S23).

  Further, the communication control unit 158 of the communication device 150 transmits TCP FIN to the server 110, and the communication control unit 116 of the server 110 returns a TCP ACK to the communication device 150 (S25).

  Then, the communication control unit 158 of the communication device 150 performs processing of the received data (for example, transfer to the display unit 162) (S26).

  Next, the communication control unit 158 of the communication device 150 changes the state to normal end (S27). Here, changing the state to normal end means changing the state of the communication device 150 identified by a variable on a memory included in the communication device 150 to normal end.

  Further, the communication control unit 158 performs a process of stopping the supply of power from the power supply unit 154 to the wireless unit 153 via the power supply control unit 159 (S28).

  In the above sequence, the TCP ACK in step S17 and the TCP SYN in step S18 are transmitted separately, but may be transmitted together.

  Further, although the TCP ACK in step S19 and the data request in step S20 are transmitted separately, they may be transmitted together.

  Furthermore, although the data in step S21 and the TCP FIN in step S22 are transmitted separately, they may be transmitted together.

  FIG. 11 is a sequence diagram when the communication device 150 performs processing for acquiring data from the server 110. In this sequence, a process when there is no data to be transmitted from the server 110 to the communication device 150 will be described.

  First, the time measured by the time measurement unit 118 of the server 110 is output to the communication control unit 116, and the communication control unit 116 refers to the time slot table 116 a stored in the time slot information storage area 113, thereby communicating. Time for performing communication processing for transmitting information in response to a request from the device 150 (time specified in the time column of the time slot table 116a or time specified before the time specified in the time column of the time slot table 116a) Time) is specified.

  If it is time to perform communication processing for transmitting information in response to a request from the communication device 150, the communication control unit 116 determines whether or not there is actually information to be transmitted in response to the request from the communication device 150. Is determined from the transmission table 114a stored in the transmission information storage area 114, and if there is actually no information to be transmitted to the communication device 150, the MAC of the communication device 150 having no information to be actually transmitted An address is specified from the communication device table 112a stored in the communication device information storage area 112, and a connection rejection command is issued to the AP 130 so as not to respond to authentication from the communication device 150 having the specified MAC address (S30).

  In the AP 130 that has received such a connection rejection command, the communication control unit 136 extracts the MAC address of the communication device 150 included in the connection rejection command and outputs the MAC address to the connection authentication unit 137. The connection authentication unit 137 By searching the MAC address column 134b of the authentication rule table 134a stored in the authentication rule information storage area 134, a record corresponding to the extracted MAC address is specified.

  Then, the connection authentication unit 137 stores a character string “prohibited” indicating connection refusal in the connection authentication field 134c of the specified record (S31).

  Next, the communication device 150 outputs the time measured by the time measurement unit 160 to the communication control unit 158, and the communication control unit 158 refers to the time slot table stored in the time slot information storage area 156, and 110, when it is time to perform communication processing (here, communication processing for receiving a schedule from the server 110) is performed, the power supply unit 154 is connected via the power supply control unit 159. The wireless unit 153 is instructed to supply power, and in response to the instruction, the power unit 154 supplies power to the wireless unit 153 (S32).

  Next, the communication device 150 transmits Authentication to the AP 130 (S33).

  In the AP 130 that has received the authentication from the communication device 150, the communication control unit 136 extracts the MAC address of the communication device 150 included in the authentication and outputs it to the connection authentication unit 137, and the connection authentication unit 137 receives the authentication rule. By searching the MAC address column 134b of the authentication rule table 134a stored in the information storage area 134, the corresponding record is specified.

  Then, the connection authentication unit 137 determines whether the connection of the communication device 150 is permitted or prohibited from the information stored in the connection authentication field 134c of the specified record. Here, it is assumed that the connection of the communication device 150 is rejected.

  Then, the communication control unit 136 of the AP 130 returns Authentication (Status: Failure) indicating that the connection of the communication device 150 is rejected to the communication device 150 (S34).

  In the communication device 150 that has received such Authentication (Status: Failure), the communication control unit 158 performs processing for confirming the success or failure of the connection to the AP 130 (S35).

  Next, when the connection authentication of the AP 130 is not obtained in step S35, the communication control unit 158 of the communication device 150 changes the state to normal end (S36). Here, changing the state to normal end means changing the state of the communication device 150 identified by a variable in the memory included in the communication device 150 to normal end, and the case where the connection authentication of the AP 130 is not obtained. The communication control unit 158 normally terminates the communication process in the same manner as when there is no data to be acquired in the server 110.

  Furthermore, the communication control unit 158 performs a process of stopping the supply of power from the power supply unit 154 to the wireless unit 153 via the power supply control unit 159 (S37).

Next, the communication control unit 116 of the server 110 is identified in step S30 when a predetermined period has elapsed since the connection rejection command in step S30 was transmitted based on the time information from the time measurement unit 118. A connection permission command is issued to the AP 130 so as to comply with the authentication from the communication device 150 having the MAC address (S38).
In the AP 130 that has received such a connection permission command, the communication control unit 136 extracts the MAC address of the communication device 150 included in the connection permission command and outputs it to the connection authentication unit 137. The connection authentication unit 137 By searching the MAC address column 134b of the authentication rule table 134a stored in the authentication rule information storage area 134, a record corresponding to the extracted MAC address is specified.

  Then, the connection authentication unit 137 stores a character string “permitted” indicating connection permission in the connection authentication field 134c of the specified record (S39).

  As described above, in the present embodiment, when there is no data to be transmitted from the server 110 to the communication device 150, the communication device 150 cannot connect to the AP 130. Therefore, in the conventional technique, step S16 in FIG. The processing from step S25 to step S25 is performed even when there is no data to be communicated (however, in step S21 in FIG. 10, information indicating that there is no data is transmitted), these processing is performed by the communication device 150. This is unnecessary, and can save power and, for example, reduce the amount of communication with the AP 130, so that there is an effect that other devices can easily connect to the AP 130.

  FIG. 12 is a flowchart showing communication processing in the communication device 150.

  First, the time measured by the time measuring unit 118 of the server 110 is output to the communication control unit 116, and the communication control unit 116 refers to the time slot table 116 a stored in the time slot information storage area 113, thereby It is confirmed whether it is time to communicate with 110 (S40).

  When it is time to communicate with the server 110 (Yes in step S40), the communication control unit 158 of the communication device 150 supplies power to the wireless unit 153 from the power supply unit 154 via the power supply control unit 159. Supply (S41).

  Next, the communication control unit 158 of the communication device 150 attempts to connect to the AP 130 by transmitting Authentication to the AP 130 (S42).

  And the communication control part 158 of the communication apparatus 150 confirms whether it was able to connect with AP130 (S43).

  In step S43, if the connection to the AP 130 can be established, the process proceeds to step S44. If the connection to the AP 130 cannot be established, the process proceeds to step S47.

  In step S44, the communication control unit 158 of the communication device 150 specifies a communication command corresponding to the time measured in step S40 from the time slot table, and performs communication processing corresponding to the specified communication command.

  Then, the communication control unit 158 of the communication device 150 changes the state to normal end (S45).

  Further, the communication control unit 158 of the communication device 150 performs a process of stopping the supply of power from the power supply unit 154 to the wireless unit 153 via the power supply control unit 159 (S46).

  On the other hand, in step S47, it is confirmed whether or not the reason why the AP 130 cannot be connected is a failure of authentication at the AP 130. Here, the reason for the connection failure is determined from the register value of the wireless unit 153.

  If the reason why the AP 130 could not be connected is the authentication failure at the AP 130 (Yes in Step S47), the process proceeds to Step S48, and the reason why the AP 130 could not be connected is not the authentication failure at the AP 130. In that case (No in step S47), the process proceeds to step S49.

  In step S48, the communication control unit 158 normally ends the state of the communication device 150, and proceeds to step S46.

  In step S49, the communication control unit 158 sets the state of the communication device 150 as a connection failure, and proceeds to step S46.

  When the communication device 150 is in a connection failure state, the communication control unit 158 is different from the normal end time such as performing the failed communication process again at the next connection to the server 110. Perform the process.

  FIG. 13 is a flowchart showing communication processing in the server 110.

  First, the communication control unit 116 of the server 110 obtains the time measured by the time measurement unit 118, so that the time measurement unit 118 refers to the time slot table 116a stored in the time slot information storage area 113. It is specified whether or not there is a communication process within a predetermined period from the measured time (S50).

  If it is determined in step S50 that there is a communication process (Yes in step S50), it is determined whether the communication process is a process of transmitting data from the server 110 to the communication device 150 ( S51). Here, in the present embodiment, when the communication processing within a predetermined period from the time measured by the time measurement unit 118 is “schedule confirmation” or “image confirmation”, the server 110 transmits to the communication device 150. It is determined that the process is to transmit data.

  If the communication process is data transmission (Yes in step S51), the process proceeds to step S52. If the communication process is not data transmission (No in step S51), the process proceeds to step S53.

  In step S52, the communication control unit 116 refers to the transmission table 114a stored in the transmission information storage area 114 to determine whether there is data to be transmitted in the communication process specified in step S50. The determination is made by confirming 114c.

  If there is data to be transmitted (Yes in step S52), the process proceeds to step S53. If there is no data to be transmitted (No in step S52), the process proceeds to step S54.

  In step S53, the communication control unit 116 of the server 110 executes the communication process specified in the communication command column 113c of the time slot table 113a.

  In step S54, the MAC address of the communication device 150 corresponding to the time slot table 113a storing the communication command without data to be transmitted is specified from the communication device table 112a stored in the communication device information storage area 112, and An authentication rejection command specifying the MAC address is transmitted to the AP 130. When there are a plurality of APs 130, an authentication rejection command may be transmitted to all the APs 130, or when the communication device 150 and the AP 130 to which the communication device 150 is connected are specified (for example, these ) (When the correspondence relationship between the AP 110 and the communication device ID is stored in the storage unit 111 of the server 110), a connection rejection command is transmitted to the AP 130 to which the communication device 150 having the MAC address to be rejected connects. May be.

  And the communication control part 116 of the server 110 measures the time after transmitting an authentication refusal command with the signal from the time measurement part 118, and when specific time passes (it is Yes at step S55), step In S54, an authentication permission command specifying the MAC address of the communication device 150 that has rejected authentication in step S54 is transmitted to the AP 130 that has transmitted the authentication rejection command (S56).

  As described above, in this embodiment, when there is no data to be transmitted from the server 110 to the communication device 150, the communication device 150 cannot be connected to the AP 130. Therefore, the server 110, the AP 130, and the communication device The amount of communication between the communication device 150 and the communication device 150 can be reduced, and other devices can be easily connected to the AP 130.

  Next, a second embodiment of the present invention will be described. In the second embodiment of the present invention, the communication device 250 is different from the first embodiment, and therefore the communication device 250 will be described below.

  FIG. 14 is a schematic diagram of a communication device 250 according to the second embodiment of the present invention.

  As illustrated, the communication device 250 includes a network communication unit 251 and a display unit 162. Since the network communication unit 251 is different from that of the first embodiment, the network communication unit 251 will be described below. Will be described.

  The network communication unit 251 includes an antenna 152, a wireless unit 153, a power supply unit 154, a storage unit 155, a control unit 257, and an IF unit 161. Compared to the first embodiment, the control unit Since 257 is different, the control unit 257 will be described below.

  The control unit 257 includes a communication control unit 258, a power supply control unit 159, and a time measurement unit 160. Since the communication control unit 258 is different from the first embodiment, hereinafter, communication control is performed. The unit 258 will be described.

  The communication control unit 258 performs processing similar to that of the first embodiment, and when performing communication processing not included in the time slot table stored in the time slot information storage area 156, connection to the AP 130 is rejected. The communication process is performed at a time when the connection to the AP 130 is not rejected.

  FIG. 15 is a flowchart showing communication processing in the communication device 250. FIG. 15 is a flowchart when communication processing not included in the time slot table stored in the time slot information storage area 156 is performed.

  In the present embodiment, only the power supply to the power supply control unit 159 and the time measurement unit 160 is always supplied, and the network communication unit 151 is turned on or off.

  The communication control unit 258 performs processing similar to that of the first embodiment, and when performing communication processing not included in the time slot table stored in the time slot information storage area 156, connection to the AP 130 is rejected. The communication process is performed at a time when the connection to the AP 130 is not rejected.

  FIG. 15 is a flowchart showing communication processing in the communication device 250. FIG. 15 is a flowchart when communication processing not included in the time slot table stored in the time slot information storage area 156 is performed.

  First, the communication device 250 is activated because the time slot start time is reached (S60). Here, it is assumed that the communication control unit 258 of the communication device 250 has information to be transmitted to the server 110 (for example, warning information of an error that has occurred in the communication device 250).

  Next, the communication control unit 258 of the communication device 250 attempts to connect to the AP 130 by transmitting Authentication to the AP 130 (S61).

  And the communication control part 258 of the communication apparatus 250 confirms whether it was able to connect with AP130 (S62).

  If it is determined in step S62 that the connection to the AP 130 is successful, the process proceeds to step S63. If the connection to the AP 130 is not possible, the process proceeds to step S73.

  In step S63, the communication control unit 258 of the communication device 250 performs communication processing according to TCP and performs communication determined for the time slot (S64, S65).

  Then, TCP disconnection processing is performed (S66), and then communication processing according to TCP is performed for data transmission to the server 110 (S67, S68, S69, S70). Then, the state of the communication device 250 is normally terminated (S71), and the communication device 250 performs a process of stopping (S72).

  On the other hand, in step S73, it is confirmed whether or not the reason for the failure to connect to the AP 130 is a failure of authentication at the AP 130. Here, the reason for the connection failure is determined from the register value of the wireless unit 153.

  If the reason why the AP 130 could not be connected is the authentication failure at the AP 130 (Yes in Step S73), the process proceeds to Step S74, and the reason why the AP 130 could not be connected is not the authentication failure at the AP 130. In that case (No in step S73), the process returns to step S61 and is repeated.

  In step S74, the communication control unit 258 sets a communication process for transmitting information at a time when the AP 130 does not refuse connection.

  Here, the time when the AP 130 does not reject the connection is not a process in which the communication command column acquires specific data from the server 110 in the time slot table stored in the time slot information storage area 156, for example. Of the time stored in the time column (for example, operation log transmission or time confirmation), or the time when communication processing is not stored in the time column of the time slot table (empty time between communication processing) Any time (if possible, the earliest time to visit) may be selected.

  Then, the communication control unit 258 normally ends the state of the communication device 250 (S75), and proceeds to step S72.

  As described above, in the present embodiment, when the connection at the AP 130 is rejected when information is transmitted from the communication device 250 to the server 110, the AP 130 does not refuse the connection according to the instruction from the server 110. Since the information is transmitted again, the information can be reliably transmitted from the communication device 250 to the server 110.

  In this example, the TCP disconnection process is performed in S66 and the TCP connection process is performed again in S67. However, the transmission data may be transmitted to the server while the TCP connection is continued without performing the TCP disconnection process. Good.

1 is a schematic diagram of a communication system. Schematic diagram of the server. Schematic of a communication apparatus table. Schematic of a time slot table. Schematic of a transmission table. Schematic diagram of a computer. Schematic of AP. Schematic diagram of an authentication rule table. Schematic of a communication apparatus. The sequence diagram at the time of performing the process in which a communication apparatus acquires data from a server. The sequence diagram at the time of performing the process in which a communication apparatus acquires data from a server. The flowchart which shows the communication process in a communication apparatus. The flowchart which shows the communication process in a server. Schematic of a communication apparatus. The flowchart which shows the communication process in a communication apparatus.

Explanation of symbols

100 Communication System 110 Server 111 Storage Unit 115 Control Unit 119 Transmission / Reception Unit 130 AP
132 wireless unit 133 storage unit 135 control unit 138 wired unit 150, 250 communication device 151, 251 network communication unit 153 wireless unit 154 power supply unit 155 storage unit 157, 257 control unit 162 display unit

Claims (20)

A server that transmits and receives information to and from a communication device via a relay device,
A storage unit that stores time slot information that identifies a time at which communication is performed with the communication device and a content of communication with the communication device at the time;
A control unit,
The controller is
If the content of the communication specified by the time slot information is a process of transmitting information to the communication device, and there is no information to be transmitted to the communication device, the relay device, Issuing an instruction not to relay the connection from the communication device;
A server characterized by The server according to claim 1,
The controller is
Time is measured, and it is determined whether there is information to be transmitted to the communication device when the measured time is a predetermined time before the time specified by the time slot information. thing,
A server characterized by The server according to claim 1 or 2,
The storage unit stores transmission information for specifying whether there is information to be transmitted to the communication device,
The controller is
Determining whether there is information to be transmitted to the communication device based on the transmission information;
A server characterized by The server according to claim 3,
The controller is
Storing information specifying that there is information to be transmitted to the communication device in the transmission information when the information to be transmitted is generated and the information is generated;
A server characterized by A communication device that connects to a server via a relay device,
A storage unit for storing time slot information for specifying a time for communication with the server and a content of communication performed with the server at the time;
A control unit,
The controller is
The content of the communication specified by the time slot information is a process of receiving information from the server, and if the connection to the relay device is not possible, it is assumed that there is no information to be received by the server. End the process of receiving information from the server,
A communication device characterized by the above. The communication device according to claim 5,
The controller is
Ending the process of receiving information from the server, assuming that there is no information to be received by the server when the reason for failure to connect to the relay apparatus is an authentication error in the relay apparatus;
A communication device characterized by the above. The communication device according to claim 5 or 6,
The controller is
When a communication process not specified by the time slot information is performed, if the connection to the relay apparatus is not possible, a time specified by the time slot information as a time for performing a process of receiving information from the server Performing communication processing not specified by the time slot information at a time other than
A communication device characterized by the above. The communication device according to claim 7,
The controller is
The time specified in the time slot information as the time for performing the process of receiving information from the server if the connection to the relay device is not possible when performing the communication process not specified in the time slot information Performing communication processing not specified by the time slot information at the earliest time at a time other than
A communication device characterized by the above. A communication device that connects to a server via a relay device,
A storage unit for storing time slot information for specifying a time for communication with the server and a content of communication performed with the server at the time;
A control unit,
The controller is
If the content of the communication specified by the time slot information is a process of receiving information from the server, and the connection to the relay device cannot be made, a connection request to the server is sent to the relay device. Ending the process of receiving information from the server without retrying;
A communication device characterized by the above. A communication system in which a server and a communication device transmit and receive information via a relay device,
The server
A storage unit that stores first time slot information that identifies a time for communication with the communication device and a content of communication with the communication device at the time;
A control unit,
The control unit of the server is
When the content of communication specified by the first time slot information is a process of transmitting information to the communication device, and there is no information to be transmitted to the communication device, the relay device Instruct to not relay the connection from the communication device,
The communication device
A storage unit for storing second time slot information for specifying a time for communication with the server and a content of communication performed with the server at the time;
A control unit,
The control unit of the communication device includes:
The content of the communication specified by the second time slot information is a process of receiving information from the server, and when the connection to the relay device cannot be made, there is no information to be received by the server Ending the process of receiving information from the server,
A communication system characterized by the above. A server that transmits and receives information to and from a communication device via a relay device,
A storage unit that stores time slot information that identifies a time at which communication is performed with the communication device and a content of communication with the communication device at the time;
A communication method in which a server including a control unit transmits and receives information to and from a communication device via a relay device,
When the content of communication specified by the time slot information is a process of transmitting information to the communication device and there is no information to be transmitted to the communication device. Providing the relay device with an instruction not to relay the connection from the communication device;
A communication method characterized by the above. The communication method according to claim 11, comprising:
Information transmitted to the communication device when the control unit of the server measures time and the measured time is a predetermined time before the time specified by the time slot information. Providing a process for determining whether or not
A communication method characterized by the above. The communication method according to claim 11 or 12,
The storage unit of the server stores transmission information for specifying whether there is information to be transmitted to the communication device,
The control unit of the server includes a step of determining whether there is information to be transmitted to the communication device based on the transmission information;
A communication method characterized by the above. The communication method according to claim 13, comprising:
The control unit of the server performs processing for generating information to be transmitted to the communication device, and when the information is generated, the transmission information includes information to be transmitted to the communication device. Providing a process for storing information to identify;
A communication method characterized by the above. A communication device that connects to a server via a relay device,
A storage unit for storing time slot information for specifying a time for communication with the server and a content of communication performed with the server at the time;
A communication device comprising a control unit, wherein the communication device connects to the server via the relay device,
The control unit of the communication device receives the content of the communication specified by the time slot information from the server when the information is received from the server and cannot be connected to the relay device. A process of ending the process of receiving information from the server, assuming that there was no information to be
A communication method characterized by the above. The communication method according to claim 15, comprising:
When the reason why the control unit of the communication device could not connect to the relay device is an authentication error in the relay device, the server receives information from the server on the assumption that there was no information to be received by the server Providing a process for terminating the process;
A communication method characterized by the above. The communication method according to claim 14 or 15,
When the control unit of the communication device cannot connect to the relay device when performing communication processing not specified by the time slot information, the time for performing processing to receive information from the server Providing a process of performing communication processing not specified by the time slot information at a time other than the time specified by the time slot information;
A communication method characterized by the above. The communication method according to claim 17, comprising:
When the control unit of the communication device cannot connect to the relay device when performing communication processing not specified by the time slot information, the time for performing processing to receive information from the server Including performing a communication process not specified by the time slot information at the earliest time at a time other than the time specified by the time slot information;
A communication method characterized by the above. A communication device that connects to a server via a relay device,
A storage unit for storing time slot information for specifying a time for communication with the server and a content of communication performed with the server at the time;
A communication device comprising a control unit, wherein the communication device connects to the server via the relay device,
When the content of the communication specified by the time slot information is a process of receiving information from the server and the control unit of the relay device cannot connect to the relay device, A process of ending the process of receiving information from the server without retrying a connection request to the server;
A communication method characterized by the above. A storage unit for storing first time slot information for specifying a time at which communication is performed with the communication device and a content of communication with the communication device at the time; and a control unit. Server,
A communication unit comprising: a storage unit that stores second time slot information that identifies a time at which communication is performed with the server and contents of communication with the server at the time; and a control unit Equipment,
Is a communication method for transmitting and receiving information via a relay device,
The control unit of the server is
When the content of communication specified by the first time slot information is a process of transmitting information to the communication device, and there is no information to be transmitted to the communication device, the relay device A process of instructing not to relay the connection from the communication device;
When the communication unit specified by the second time slot information is a process of receiving information from the server and the control unit of the communication device cannot connect to the relay device, Assuming that there is no information to be received by the server, a process of ending the process of receiving information from the server;
Providing
A communication method characterized by the above.

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