JP4301851B2 - Control method and server - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
[0002]
  The present inventionThe control device of the client to which the control device is connectedControl method and the methodServer that controls client control devicesIn particular,, ThroughWithout incurring credit costsControl equipmentControlControl device control method and serverAbout.
[Prior art]
[0003]
  In recent years, a client server that performs voice and data communication between a server connected to a network such as a digital communication network, a PHS network (Personal Handyphone System), and an analog circuit network (PSTN (Public Switched Telephone Network)) and a plurality of clients. System exists. On the network, the server receives voice and data from each client via the exchange. In this case, each client communicates using the telephone number of the server in order to identify the destination server. Similarly, when each client receives voice and data from the server, the server communicates using the telephone number of the destination client.
[0004]
  Currently, ISDN (Integrated Service Digital Network) is the mainstream as a transmission method using a digital network, and ISDN provides a basic interface (PRI) and a primary group interface (BRI). In the basic interface and the primary group interface, a D channel which is a transmission path for transmitting a call control signal for controlling incoming and outgoing calls and a B channel which is a transmission path for communication data such as voice and data can be used. . For example, when communication is performed via the digital line network by the client server system, when a call is made to a specific telephone number by the client or server, a control signal is transmitted through the D channel, and the transmission destination of the server or client is transmitted. Make an incoming call. The transmission destination receives data from the transmission source through the B channel, which is a transmission path for incoming communication data. At this time, a communication fee is charged as a call is established. Usually, the communication cost of a network such as a digital network is the sum of the monthly basic charge and the communication charge, and the call charge is charged each time a call is established as described above.
[0005]
  In addition, when communication is performed via the digital line network by the client server system, a subaddress may be used to identify a plurality of devices connected by a subscriber line terminator (DSU (Digital Service Unit)). is there. For example, in order to identify a plurality of connected devices such as a telephone and a fax (facsimile) connected from the DSU via the BUS, a sub-address is added to these connected devices in advance to identify the connected devices.
[Problems to be solved by the invention]
[0006]
  However, in the above client-server system, the communication cost is a sum of the monthly basic charge and the communication charge, and if the call charge is charged every time a call is established as described above, the communication cost is incurred. There was a problem. For example, in a system that automatically transmits product inventory information after a predetermined period of time to a management server that manages products sold by a vending machine via a PHS network using a PHS installed in a vending machine, A communication fee is incurred each time information is received. Therefore, if the monthly communication cost is converted, there is a problem that a high communication cost is required.
[0007]
  Therefore, the present inventionSectionThe title isControl the control equipmentServer andControl device connectedData communication can be performed without establishing a call between clients, and communication costs can be reduced.Control device control method and serverIs to provide.
[Means for Solving the Problems]
[0008]
  UpLessonTo solve the problem, the present invention as described in claim 1,A control method of a control device for controlling the control device by a call control signal by a client connected to the control device and a server connected via a communication network,
The server having a table defining a telephone number corresponding to a start bit and a telephone number corresponding to the content of control, first makes a call with the telephone number corresponding to the start bit, and then the content of the control Make a call using the phone number corresponding toIt is supposed to be configured.
[0009]
  like thisSystemIn your wayTo control the control equipmentAnd barControl device connectedEfficient without establishing a call between clientsControl equipment controlCommunication costs can be reduced.
[0010]
  UpLessonTo solve the problem, the present invention claims2As statedA control method for controlling the control device by a call control signal by a client connected to the control device and a server connected via a communication network,
The server includes a telephone number corresponding to a start bit, and 2n telephone numbers corresponding to bits “0” and “1” and different from each other for each n-bit bit position for controlling the control device. The server having the table defining the first places a call with the telephone number corresponding to the start bit, and then calls with the telephone number corresponding to “0” and “1” of the bit for each bit position. Make a callIt is good also as a structure.
[0011]
  like thisSystemIn your wayTo control the control equipmentAnd barControl device connectedEfficient without establishing a call between clientsControl equipment controlCommunication costs can be reduced.
[0012]
  UpLessonTo solve the problem, the present invention claims3As described inA control method for controlling the control device by a call control signal by a client connected to the control device and a server connected via a communication network,
The server corresponds to a telephone number corresponding to the start bit and 2 bits corresponding to n bits which are bits for controlling the control device following the start bit. ⁿ The server having a table defining a plurality of telephone numbers first makes a call with the telephone number corresponding to the start bit, and then the 2 ⁿ Make a call with one of the phone numbersIt is good also as a structure.
[0013]
  like thisSystemIn your wayTo control the control equipmentAnd barControl device connectedEfficient without establishing a call between clientsControl equipment controlCommunication costs can be reduced.
[0014]
  UpLessonTo solve the problem, the present invention claims4As described inA control method for controlling the control device by a call control signal by a client connected to the control device and a server connected via a communication network,
For every n bit positions of the bits for controlling the control device, 2n telephone numbers corresponding to the bits “0” and “1”, which are different from each other, and the bit “0” in the last bit position. , The phone number corresponding to “1” has a table defining a phone number having the meaning of a stop bit, and the server calls the phone number corresponding to “0”, “1” of the bit for each bit position. Make a callIt is good also as a structure.
[0015]
  like thisSystemIn your wayTo control the control equipmentAnd barControl device connectedEfficient without establishing a call between clientsControl equipment controlCommunication costs can be reduced.
[0016]
  The server according to claims 5 to 8 defines the server in the control method according to claims 1 to 4.
DETAILED DESCRIPTION OF THE INVENTION
[0017]
  Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0018]
  FIG. 1 shows the first of the present invention.referenceIt is a block diagram in the data communication control system which concerns on an example. In FIG. 1, a data communication control system 100 includes a low-speed data communication server 20 that performs data communication with a client 40, a client 40 that performs data communication with the low-speed data communication server 20, a low-speed data communication server 20, and a client. 40 and an exchange 50 that controls communication with 40. The exchange 50 is connected to the low-speed data communication server 20 through the digital communication network 10 such as ISDN, and is connected to the client 40 through the digital communication network 11 and the PHS network 12 on the client 40 side. The low-speed data communication server 20 transmits / receives data at a low speed, but can transmit / receive data to / from the client 40 without receiving and receiving calls via each line network.
[0019]
  The low-speed data communication server 20 defines transmission data for transmitting and receiving data to and from the client 40 in a state where the incoming and outgoing calls are not received, and a server 25 that performs data processing based on the data received from the client and the incoming and outgoing calls. It is comprised with the control apparatus 30 which controls transmission / reception of data in the state which does not call.
[0020]
  The server 25 is a server computer, and the following processing units are controlled by a CPU (Central Processing Unit). The server 25 mainly includes transmission data defining unit 21 for defining transmission data to be added to a telephone number of a predetermined client 40 indicating a transmission destination and information for controlling data communication with the client 40, and predetermined definition information. Is provided to the control device 30, and a data processing unit 22 that performs processing based on the received data (call control signal), a definition information DB 23 that stores information defined by the transmission data definition unit 21, and data communication control And an installer 24 for installing a program for executing processing. The tables stored in the definition information DB 23 will be described in detail with reference to FIG. 2, FIG. 6, and FIG. The call control signal is transmitted / received through the D channel used for transmission / reception of a control signal by ISDN.
[0021]
  In the transmission data definition unit 21, when the administrator of the low-speed data communication server 20 defines transmission data and information necessary for data communication control, the definition information is stored in the definition information DB 23. The data processing unit 22 acquires the definition information stored in the definition information DB 23 and supplies the definition information and the transmission destination telephone number to the control device 30. The data processing unit 22 performs data processing based on data received from the client 40.
[0022]
  The installer 24 is the first of the present invention.referenceThe program is read from the recording medium 60 on which the program for realizing the data communication control method executed by the data communication control system according to the example is recorded, and the read program is installed in, for example, an auxiliary storage device To do. When processing in the data communication control method described later is started, the CPU starts the processing according to the program installed in the auxiliary storage device. The recording medium 60 may be any computer-readable medium such as a CD-ROM as a medium for storing the program.
[0023]
  The control device 30 of the low-speed data communication server 20 includes a transmission data adding unit 300 that adds transmission data to a telephone number indicating a transmission destination, a communication processing unit 301 that controls transmission / reception of data in a state where no incoming call or no incoming call, The call control signal receiving unit 302 receives a call control signal from a transmission source. It is assumed that predetermined definition information defined by the server 25 is recorded in the control device 30 in advance.
[0024]
  The client 40 includes control devices 41 and 42 and control devices 31 and 32 that control data communication connected to the control devices 41 and 42. The control device 31 is connected to the exchange 50 via the digital communication network 11 and the control device 32 is connected to the exchange 50 via the PHS network 12. The control devices 31 and 32 are the same as the configuration of the control device 30 and will not be described.
[0025]
  When the control devices 30 to 32 are installed in the server 25 and the control devices 41 and 42, the definition information supplied from the low-speed data communication server 20 may be recorded in the control devices 30 to 32. The configuration of the control device 30 may be provided in the server 25 of the low-speed data communication server 20.
[0026]
  Next, the firstreferenceA processing procedure of the example data communication control method will be described. First, when data is transmitted from the client 40 to the low-speed data communication server 20, the transmission data adding unit 300 of the control device 31 (32) of the client 40 receives the telephone number (( (TEL) ***-***-*** 1) A sub-address which is transmission data is added. The communication processing unit 301 makes a call to the low-speed data communication server 20 based on the telephone number to which the transmission data is added. For example, the telephone call is transmitted to the exchange 50 via the digital communication network 11 (PHS network 12). The exchange 50 makes a telephone call to the low-speed data communication server 20 via the digital communication network 10. The call control signal receiving unit 302 of the control device 30 of the low-speed data communication server 20 receives the call control signal without performing incoming and incoming calls based on the telephone number and the subaddress. That is, the call control signal receiving unit 302 stands by until the telephone call from the client 40 is disconnected. Data processing unit of server 2522Performs data processing based on the call control signal from the call control signal receiving unit 302.
[0027]
  As described above, a state in which a call is not established by making a telephone call using a telephone number to which transmission data is added by the control devices 30 to 32 and receiving a call control signal without performing incoming and incoming calls with respect to the telephone transmission. The transmission data can be received. Therefore, no communication fee is charged, and data communication between the client 40 and the low-speed data communication server 20 can be performed without incurring communication costs.
[0028]
  Next, a table stored in the definition information DB 23 will be described. FIG. 2 is a diagram illustrating a table stored in the definition information DB. In FIG. 2, transmission data defined by the transmission data definition unit 21 is stored in a table 230 stored in the definition information DB 23. The transmission data shown in the table 230 is a sub-address, and the table 230 includes a sub-address item and a definition content for the sub-address. For example, the table 230 stores a subaddress “012345” and the definition content “voltage drop” of the subaddress. The table 230 stores a subaddress “567890” and the definition content “temperature rise” of the subaddress. When the transmission data adding unit 300 of the control devices 31 and 32 on the client 40 side recognizes that an error has occurred in each control device 41 and 42, the sub address is added to the telephone number of the transmission destination.
[0029]
  Next, the processing procedure of the data communication control method when performing data communication with the low-speed data communication server 20 via the digital communication network 11 of the client 40 will be described. FIG. 3 is a flowchart of the data communication control process. In FIG. 3, first, in the process of step S <b> 10, the communication processing unit 301 of the control device 31 of the client 40 sets the telephone number of the low-speed data communication server 20 ((TEL) ***-***-*** 1). Transmission data (sub-address “012345”) is added to ***-***-***-*** 1 * 012345. In the process of step S11, the call control signal receiving unit 302 of the control device 30 of the low-speed data communication server 20 receives the call control signal without receiving and receiving a call from the digital communication line network 11 on the client 40 side. . In the process of step S12, the data processing unit of the low-speed data communication server 2022Performs data processing based on the call control signal from the call control signal receiving unit 302.
[0030]
  Next, the processing procedure of the data communication control method when performing data communication with the low-speed data communication server 20 via the PHS network 12 of the client 40 will be described. FIG. 4 is a flowchart of the data communication control process. In FIG. 4, first, in the process of step S20, the communication processing unit 301 of the control device 32 of the client 40 sets the telephone number of the low-speed data communication server 20 ((TEL) ***-***-*** 1). The transmission data (subaddress “567890”) is added to *** and transmitted as ***-***-*** 1 *** 567890. In the process of step S21, the call control signal receiving unit 302 of the control device 30 of the low-speed data communication server 20 receives the call control signal without receiving and receiving a call from the PHS network 12 on the client 40 side. In the process of step S22, the data processing unit of the low-speed data communication server 2022Performs data processing based on the call control signal from the call control signal receiving unit 302.
[0031]
  As described above, when data is transmitted from the client 40 side to the low-speed data communication server 20, the control unit 31 or 32 of the client 40 makes a telephone call using the telephone number to which the transmission data is added, and the control unit of the low-speed data communication server 20. By receiving the call control signal without performing incoming and incoming calls in response to the outgoing call, the transmission data can be received in a state where the call is not established. Therefore, no communication fee is charged, and data communication between the client 40 and the low-speed data communication server 20 can be performed without incurring communication costs.
[0032]
  Next1A data communication control method in the embodiment will be described. FIG. 5 shows the first of the present invention.1It is a block diagram in the data communication control system which concerns on an Example. The first in FIG.referenceThe description of the same configuration as that of the data communication control system according to the example is omitted. In FIG. 5, the data communication control system 110 has 2n + 1 telephone lines, and the low-speed data communication server 200 that performs data communication with the client 400 and the client 400 that performs data communication with the low-speed data communication server 200. And an exchange 50 that controls communication between the low-speed data communication server 200 and the client 400. The exchange 50 is connected to the low-speed data communication server 200 via the telephone line network 1 which is a digital communication line network and an analog communication line network, and is connected to the digital communication line network 11 and the analog communication line network 13 on the client 400 side, the PHS. The client 400 is connected via the network 12.
[0033]
  In the low-speed data communication server 200, three telephone lines (2 × 1 + 1 = 3) are installed in order to transmit 1-bit data from the low-speed data communication server 200 to the client 400. Each telephone line is connected to control devices 34 to 36 that control data transmission / reception in a state where there is no incoming call or no incoming call. The definition information DB 23 of the server 25 stores information in which power on / off control of the control devices 41 to 43 of the client 400 is defined for each telephone line. The definition information stored in the definition information DB 23 will be described in detail with reference to FIG.
[0034]
  The control devices 34 to 36 of the low-speed data communication server 200 include a transmission data recognition unit 303 that recognizes transmission data based on the received recognition information, and a communication processing unit 301 that controls transmission / reception of data without receiving and receiving a call. It consists of It is assumed that predetermined definition information defined in the server 25 is recorded in the control devices 34 to 36 in advance.
[0035]
  The client 400 includes control devices 41 to 43 and control devices 37 to 39 that control data communication connected to the control devices 41 to 43. The control device 37 is connected to the exchange 50 via the digital communication network 11, the control device 38 is connected to the PHS network 12, and the control device 39 is connected to the switch 50 via the analog communication network 13. Since the control devices 37 to 39 have the same configuration as that of the control devices 34 to 36, the description thereof is omitted.
[0036]
  When the control devices 34 to 36 are installed in the server 25 and when the control devices 37 to 39 are installed in the control devices 41 to 43, the definition information supplied by the low-speed data communication server 200 is used as the control devices 34 to 36. 39 may be recorded.
[0037]
  Next1A processing procedure of the data communication control method of the embodiment will be described. First, when data is transmitted from the low-speed data communication server 200 to the client 400, the communication processing unit 301 of the control device 34 of the low-speed data communication server 200, for example, includes a telephone number ((TEL) * defined as a start bit (STB). **-&&&&-0000) to the PHS network 12(In FIG. 5, a telephone call is made to 070-####-*** 4). This telephone call is transmitted to the exchange 50 via the digital communication line network of the telephone line network 1. The exchange 50 transmits the telephone call to the control device 38 via the PHS network 12 on the client 400 side. At this time, the start bit is recognized by the caller telephone number recognition function of the PHS network 12, and the recognition information is supplied to the control device 38. The communication processing unit 301 of the control device 38 receives the recognition information from the PHS network 12 without performing incoming and incoming calls, and the transmission data recognition unit 303 performs data transmission from the low-speed data communication server 200 based on the recognition information. Recognize the start.
[0038]
  Next, the communication processing unit 301 of the control devices 34 to 36 of the low-speed data communication server 200For example,Call the telephone number ((TEL) ***-??????-0003) that defines the power-off of the control device to the PHS network 12.(In FIG. 5, a telephone call is made to 070-####-*** 4). Similarly to the above, the communication processing unit 301 of the control device 38 receives the recognition information from the PHS network 12 without performing incoming and incoming calls, and the transmission data recognition unit 303 turns off the control device based on the recognition information. Is recognized, and the power of the control device 42 is controlled to be turned off. Note that the same data communication control can be performed not only for data communication in the PHS network 12 but also for the digital communication line network 11 and the analog communication line network 13, and thus description thereof is omitted.
[0039]
  In this way, a telephone call is made to the client 400 using a telephone number for which predetermined processing is defined by the control devices 34 to 36, the caller is identified by the caller phone number recognition function of the PHS network 12, and the control device 38. Thus, the control device 42 can be controlled in a state where a call is not established by receiving the recognition information without performing incoming and incoming calls for the outgoing call and controlling the control device 42. That is, no communication fee is charged, and data communication between the low-speed data communication server 200 and the client 400 can be performed without incurring communication costs. The start bit is intended to improve the certainty of data communication, and may be omitted if the communication infrastructure is stable.
[0040]
  Next1A table stored in the definition information DB 23 in the embodiment will be described. FIG. 6 is a diagram showing a table stored in the definition information DB. In FIG. 6, definition information defined by the transmission data definition unit 21 of the server 25 is stored in a table 231 stored in the definition information DB 23. The table 231 is composed of items of telephone numbers of a plurality of telephone lines provided in the low-speed data communication server 200 and items of definition for the telephone numbers. For example, the table 231 stores a telephone number “***-&&&&-0000” and a definition “start bit” indicating the timing for transmitting data for the telephone number. Further, the table 231 includes a telephone number “***-####-0002”, a definition content “power on” of the telephone number, and a telephone number “***-??????-0003”. The definition contents of the telephone number “Power off” is stored.
[0041]
  Next, the processing procedure of the data communication control method when performing data communication from the low-speed data communication server 200 to the client 400 will be described. FIG. 7 is a flowchart of the data communication control process. In FIG. 7, first, in the process of step S <b> 30, the low-speed data communication server 200 transmits a telephone number “***-&&&&-0000” defined as a start bit indicating the start of data communication to the PHS network 12 of the client 400. Make a phone call. In the process of step S31, the communication processing unit 301 of the control device 38 of the client 400 receives the recognition information by the caller telephone number recognition function of the PHS network 12 without receiving or receiving a call. In the process of step S32, the transmission data recognition unit 303 of the control device 38 recognizes the start of data transmission from the low-speed data communication server 200 based on the recognition information.
[0042]
  Next, in the processing of step S33, the low-speed data communication server 200 gives the telephone number “***-??????-0003” that defines the power-off of the control device 42 to the PHS network 12 on the client 400 side. Make a phone call. In the process of step S34, the communication processing unit 301 of the control device 38 of the client 400 receives the recognition information by the caller telephone number recognition function of the PHS network 12 without receiving and receiving a call. In the process of step S35, the transmission data recognition unit 303 of the control device 38 recognizes data transmission from the low-speed data communication server 200 (power-off of the control device 42) based on the recognition information. In step S36, the communication processing unit 301 of the control device 38 determines whether or not the data transmission from the low-speed data communication server 200 has been successfully recognized. If the recognition of data transmission is not successful in the process of step S36, the communication processing unit 301 of the control device 38 requests the low-speed data communication server 200 for data transmission again in the process of step S37, and the process from step S32 repeat. If the data transmission is successfully recognized in step S36, the transmission data recognition unit 303 of the control device 38 turns off the control device 42 in step S38.
[0043]
  The above1The data communication control method of the embodiment is not limited to the point of performing data communication via the PHS network 12, and the control devices 37 to 39 of the client 400 can receive from the low-speed data communication server 200 without receiving and receiving calls. It is only necessary that the call control signal can be received.
[0044]
  Next2A data communication control method in the embodiment will be described. FIG. 8 shows the second of the present invention.FruitIt is a block diagram in the data communication control system which concerns on an Example. In FIG.1The description of the same configuration as that of the data communication control system according to the embodiment is omitted. In FIG. 8, the data communication control system 120 includes a 2n + 1 telephone line and includes a low-speed data communication server 210 that performs data communication with the client 400. The low-speed data communication server 210 is provided with nine telephone lines (2 * 4 + 1 = 9) in order to transmit 4-bit data from the low-speed data communication server 210 to the client 400.
[0045]
  Each telephone line is connected to control devices 310 to 318 that control transmission and reception of data in a state where there is no incoming or incoming call. The definition information DB 23 of the server 25 stores information in which bit positions and values for controlling the control devices 41 to 43 of the client 400 are defined for each telephone line. The definition information stored in the definition information DB 23 will be described in detail with reference to FIG. The control devices 310 to 318 of the low-speed data communication server 210 are the same as the control devices 34 to 39 shown in FIG.
[0046]
  Next2A processing procedure of the data communication control method of the embodiment will be described. First, when data is transmitted from the low-speed data communication server 210 to the client 400, the communication processing unit 301 of the control device 310 of the low-speed data communication server 210, for example, uses a telephone number defined as a start bit ((TEL) ***). &&&&-0000) to the PHS network 12. This telephone call is transmitted to the exchange 50 via the digital communication line network of the telephone line network 1. The exchange 50 transmits the telephone call to the control device 38 via the PHS network 12 on the client 400 side. At this time, the start bit is recognized by the caller telephone number recognition function of the PHS network 12, and the recognition result is supplied to the control device 38. The communication processing unit 301 of the control device 38 receives the recognition result from the PHS network 12 without performing incoming and incoming calls, and the transmission data recognition unit 303 performs data transmission from the low-speed data communication server 210 based on the recognition result. Recognize the start.
[0047]
  Next, the communication processing unit 301 of the control device 312 of the low-speed data communication server 210For example,Telephone number ((TEL) ***-??????-000 defining the bit position and value (bit 1 = 1) of the control device0) To the PHS network 12. Similarly to the above, the communication processing unit 301 of the control device 38 receives the recognition result from the PHS network 12 without performing incoming and incoming calls, and the transmission data recognition unit 303 determines the bit position of the control device based on the recognition result. And the value is recognized, and the control device 42 is controlled. Note that the same data communication control can be performed not only for data communication in the PHS network 12 but also for the digital communication line network 11 and the analog communication line network 13, and thus description thereof is omitted.
[0048]
  In this way, a telephone call is made to the client 400 using the telephone numbers for nine lines for which predetermined processing is defined by the control devices 310 to 318, and the caller is identified by the caller telephone number recognition function of the PHS network 12. The control device 42 can control the control device 42 in a state where a call is not established by receiving the call control signal without performing incoming and incoming calls with respect to the outgoing call and controlling the control device 42. . That is, no communication fee is charged, and data communication between the low-speed data communication server 210 and the client 400 can be performed without incurring communication costs.
[0049]
  Next2A table stored in the definition information DB 23 in the embodiment will be described. FIG. 9 is a diagram showing a table stored in the definition information DB. In FIG. 9, definition information defined by the transmission data definition unit 21 of the server 25 is stored in a table 232 stored in the definition information DB 23. The table 232 includes items of a telephone number of a plurality (9) of telephone lines provided in the low-speed data communication server 210 and items of definition content for 4 bits with respect to the telephone number. The definition contents are defined as values 0 and 1 for each bit. For example, the table 232 stores a telephone number “***-&&&&-0000” and a definition content “start bit” indicating a timing for transmitting data to the telephone number. Further, the table 232 includes a telephone number “***-!!!!-0000”, a definition content “bit 1 = 0” of the telephone number, and a telephone number “***-??????-0000”. ”And the contents of the definition of the telephone number“ bit 1 = 1 ”and the like are stored.
[0050]
  Next, the processing procedure of the data communication control method when performing data communication from the low-speed data communication server 210 having nine telephone lines to the client 400 will be described. FIG. 10 is a flowchart of the data communication control process. In FIG. 10, first, in the process of step S <b> 40, the low-speed data communication server 210 transmits a telephone number “***-&&&&-0000” defined as a start bit indicating the start of data communication to the PHS network 12 of the client 400. Make a phone call. In the process of step S41, the communication processing unit 301 of the control device 38 of the client 400 receives the recognition information by the caller telephone number recognition function of the PHS network 12 without receiving or receiving a call. In step S42, the low-speed data communication server 210 makes a telephone call to a specific client 400 with a telephone number that defines a bit position and a value. For example, the telephone number “***-??????-0000” defining bit 1 = 1 is transmitted to the PHS network 12 on the client 400 side.
[0051]
  In the process of step S43, the low-speed data communication server 210 determines whether or not four telephone calls corresponding to four bits have been made. If the telephone call is not made four times in the process of step S43, the low-speed data communication server 210 performs the process of step S45, and bit 1 = 1 or 0, bit 2 = 1 or 0, bit 3 = In accordance with the order of 1 or 0, bit 4 = 1 or 0, a telephone call is made using the telephone number corresponding to the next bit position, and the processing from step S42 is repeated. When the telephone call is performed four times in the process of step S43, the communication processing unit 301 of the control device 38 of the client 400 converts the bit position and value transmitted from the low-speed data communication server 210 to 4 bits in the process of step S44. It is determined whether or not minutes have been received. If the bit position and the value of 4 bits are not received in the process of step S44, the communication processing unit 301 of the control device 38 requests the low-speed data communication server 210 to transmit again in the process of step S49. Repeat the process from.
[0052]
  When the bit position and the value of 4 bits are received in the process of step S44, the communication processing unit 301 of the control device 38 of the client 400 does not receive or receive the call in the process of step S46. Receives recognition information by the phone number recognition function. In step S47, the transmission data recognition unit 303 of the control device 38 recognizes the bit position and value transmitted from the low-speed data communication server 210 based on the recognition information. In the process of step S <b> 48, the transmission data recognition unit 303 of the control device 38 performs a predetermined process on the control device 42.
[0053]
  Thus, in the data communication control method, the control devices 30 to 39 are based on the definition information defined for controlling the control devices 41 to 43 of the clients 40 and 400 by the low-speed data communication servers 20, 200, and 210. By performing transmission / reception of data by 310 to 318, it is possible to receive a call control signal or recognition information without receiving and receiving a call, and to control the execution of data processing or the control devices 41 to 43. That is, since transmission data is received in a state where a call is not established, communication charges are not charged, and data communication between the clients 40, 400 and the low-speed data communication servers 20, 200, 210 can be performed without incurring communication costs. it can.
[0054]
  Next3A data communication control method in the embodiment will be described. FIG. 11 shows the first of the present invention.3It is a block diagram in the data communication control system which concerns on an Example. In FIG. 11, the first shown in FIG.2The same components as those in the data communication control system 120 according to the embodiment are denoted by the same reference numerals, and description thereof is omitted. In FIG. 11, the data communication control system 130 has 2ⁿA low-speed data communication server 211 that has +1 telephone line and performs data communication with the client 400 is provided. Note that the low-speed data communication server 211 receives 17 telephone lines (2 in order to transmit 4-bit data from the low-speed data communication server 211 to the client 400.⁴+ 1 = 17).
[0055]
  Each telephone line is connected to control devices 320 to 336 that control transmission and reception of data in a state where no incoming call or no incoming call is received. The definition information DB 23 of the server 25 stores information in which bit positions and values for controlling the control devices 41 to 43 of the client 400 are defined for each telephone line. The definition information stored in the definition information DB 23 will be described in detail with reference to FIG. The control devices 320 to 336 of the low-speed data communication server 211 are the same as the control devices 34 to 39 shown in FIG.
[0056]
  Next3A processing procedure of the data communication control method of the embodiment will be described. First, when data is transmitted from the low-speed data communication server 211 to the client 400, the communication processing unit 301 of the control device 320 of the low-speed data communication server 211, for example, is a telephone number defined as a start bit ((TEL) ***). &&&&-0000) to the PHS network 12. This telephone call is transmitted to the exchange 50 via the digital communication line network of the telephone line network 1. The exchange 50 transmits the telephone call to the control device 38 via the PHS network 12 on the client 400 side. At this time, the start bit is recognized by the caller telephone number recognition function of the PHS network 12, and the recognition result is supplied to the control device 38. The communication processing unit 301 of the control device 38 receives the recognition result from the PHS network 12 without performing incoming and incoming calls, and the transmission data recognition unit 303 performs data transmission from the low-speed data communication server 211 based on the recognition result. Recognize the start.
[0057]
  Next, the communication processing unit 301 of the control device 321 of the low-speed data communication server 211 has a telephone number ((TEL) ***-???) that defines a bit value (any one of bits 0000 to 1111) of the control device. -0000) to the PHS network 12. Similarly to the above, the communication processing unit 301 of the control device 38 receives the recognition result from the PHS network 12 without performing incoming and incoming calls, and the transmission data recognition unit 303 determines the bit position of the control device based on the recognition result. And the value is recognized, and the control device 42 is controlled. Note that the same data communication control can be performed not only for data communication in the PHS network 12 but also for the digital communication line network 11 and the analog communication line network 13, and thus description thereof is omitted.
[0058]
  Next3A table stored in the definition information DB 23 in the embodiment will be described. FIG. 12 is a diagram illustrating a table stored in the definition information DB. In FIG. 12, definition information defined by the transmission data definition unit 21 of the server 25 is stored in a table 233 stored in the definition information DB 23. The table 233 includes items of telephone number items of a plurality (17) of telephone lines provided in the low-speed data communication server 211 and items of definition content for 4 bits with respect to the telephone numbers. In the definition, the start bit is defined for one of the 17 telephone numbers, and bits 0000-1111 are defined for the other telephone numbers. For example, the table 233 stores a telephone number “***-&&&&-0000” and a definition content “start bit” indicating the timing of data transmission for the telephone number. Further, the table 233 includes a telephone number “***-!!!!-0000”, a definition content “bit 0000” of the telephone number, and a telephone number “***-??????-0000”. The definition contents of the telephone number “bit 0001” and the like are stored.
[0059]
  Next, a processing procedure of a data communication control method when data communication is performed from the low-speed data communication server 211 having 17 telephone lines to the client 400 will be described. FIG. 13 is a flowchart of the data communication control process. Since the processing procedure shown in FIG. 13 is almost the same as the processing procedure shown in FIG. 10, the same steps are denoted by the same reference numerals and the description thereof is omitted. In FIG. 13, in the process of step S50, the low-speed data communication server 211 determines whether or not one telephone call corresponding to 4 bits has been made. When the telephone call is not performed once in the process of step S50, the low-speed data communication server 211 performs the telephone call using any telephone number corresponding to the bit value of bits 0000 to 1111 in the process of step S52. When one call is made in the process of step S50, whether or not the communication processing unit 301 of the control device 38 of the client 400 has received the bit value transmitted from the low-speed data communication server 210 in the process of step S51. Determine whether. If the bit value is not received in the process of step S51, the communication processing unit 301 of the control device 38 requests the low-speed data communication server 210 to transmit again in the process of step S49, and repeats the process from step S40. . If a bit value is received in the process of step S44, the process from step S46 is performed.
[0060]
  In this manner, the telephones are sent to the client 400 using the 17 telephone numbers defined by the control devices 320 to 336, and the caller is identified by the caller phone number recognition function of the PHS network 12, The control device 42 can be controlled in a state where a call is not established by receiving the recognition information without performing incoming and incoming calls with respect to the outgoing call by the control device and controlling the control device 42. That is, no communication fee is charged, and data communication between the low-speed data communication server 211 and the client 400 can be performed without incurring communication costs.
[0061]
  Next4A data communication control method in the embodiment will be described. FIG. 14 shows the first of the present invention.4It is a block diagram in the data communication control system which concerns on an Example. In addition, in FIG. 14, FIG. 8, FIG.Second and third embodimentsThe description of the same configuration as that of the data communication control system according to is omitted. In FIG. 14, the data communication control system 140 has a low-speed data communication server 212 that has 2n telephone lines and performs data communication with the client 400. Note that the low-speed data communication server 212 is provided with eight telephone lines (2 × 4 = 8) in order to transmit 4-bit data from the low-speed data communication server 212 to the client 400.
[0062]
  Each telephone line is connected to control devices 340 to 347 for controlling transmission and reception of data in a state where no incoming call or no incoming call is received. The definition information DB 23 of the server 25 stores information in which bit positions and values for controlling the control devices 41 to 43 of the client 400 are defined for each telephone line. The definition information stored in the definition information DB 23 will be described in detail with reference to FIG. The control devices 340 to 347 of the low-speed data communication server 212 are the same as the control devices 34 to 39 shown in FIG.
[0063]
  Next4A processing procedure of the data communication control method of the embodiment will be described. First, when data is transmitted from the low-speed data communication server 212 to the client 400, the communication processing unit 301 of the control device 310 of the low-speed data communication server 212, for example, defines a telephone number ((TEL) ** defined as bit 1 = 0. *-!!!!!!-0000) is sent to the PHS network 12. This telephone call is transmitted to the exchange 50 via the digital communication line network of the telephone line network 1. The exchange 50 transmits the telephone call to the control device 38 via the PHS network 12 on the client 400 side. At this time, definition information defined in the telephone number is recognized by the caller telephone number recognition function of the PHS network 12, and the recognition result is supplied to the call control device 38. The communication processing unit 301 of the control device 38 receives the recognition result from the PHS network 12 without performing incoming and incoming calls, and the transmission data recognition unit 303 performs data transmission from the low-speed data communication server 212 based on the recognition result. Recognize the start.
[0064]
  Next, the communication processing unit 301 of the control device 340 of the low-speed data communication server 212For example,Bit position and value of control device (bit2= 1) defined telephone number ((TEL) ***-%%%%-0000) to the PHS network 12. Similarly to the above, the communication processing unit 301 of the control device 38 receives the recognition result from the PHS network 12 without performing incoming and incoming calls, and the transmission data recognition unit 303 determines the bit position of the control device based on the recognition result. And the value is recognized, and the control device 42 is controlled. Note that the same data communication control can be performed not only for data communication in the PHS network 12 but also for the digital communication line network 11 and the analog communication line network 13, and thus description thereof is omitted.
[0065]
  Next4A table stored in the definition information DB 23 in the embodiment will be described. FIG. 15 is a diagram illustrating a table stored in the definition information DB. In FIG. 15, definition information defined by the transmission data definition unit 21 of the server 25 is stored in a table 234 stored in the definition information DB 23. The table 234 is composed of items of telephone numbers of a plurality of (eight) telephone lines provided in the low-speed data communication server 212 and the definition contents for 4 bits with respect to the telephone numbers. The definition contents are defined as values 0 and 1 for each bit. For example, the table 234 stores the telephone number “***-!!!!-0000” and the definition content “bit 1 = 0” of the telephone number. Further, the table 234 stores a telephone number “***-??????-0000”, a definition content of the telephone number “bit 1 = 1”, and the like. Further, a telephone number “***-####-0002” indicating bit 4 and a telephone number “***-“ ”-0003” are defined as stop bits. The definition content for the number stores “bit 4 = 0, stop bit” and “bit 4 = 1, stop bit”.
[0066]
  Next, a processing procedure of a data communication control method when data communication is performed from the low-speed data communication server 212 having eight telephone lines to the client 400 will be described. FIG. 16 is a flowchart of the data communication control process. In the processing procedure shown in FIG. 16, the same steps as those in the processing procedures shown in FIGS. In FIG. 16, in the process of step S <b> 60, the low-speed data communication server 212 makes a telephone call to the PHS network 12 of the client 400 with the telephone number “***-!!!!-0000” defined as bit 1 = 0. I do. After the processes of steps S41 and S42 are completed, in the process of step S61, the low-speed data communication server 212 determines whether or not a call is made for 4 bits (four times) of numbers having different bit positions. If the telephone call is not made for 4 bits in the process of step S61, the process from step S42 is repeated. When a 4-bit telephone call is made in the process of step S61, the process from step S46 is performed.
[0067]
  In this way, a call is made to the client 400 using the telephone numbers for eight lines for which predetermined processing is defined by the control devices 340 to 347, and the caller is identified by the caller telephone number recognition function of the PHS network 12. The control device 42 can be controlled in a state where a call is not established by receiving the recognition information without making an incoming call or an incoming call with respect to the outgoing call and controlling the control device 42 by the control device. That is, no communication fee is charged, and data communication between the low-speed data communication server 212 and the client 400 can be performed without incurring communication costs.
[0068]
  Next2 ReferenceA data communication control method in the example will be described. FIG. 17 shows the first of the present invention.2 ReferenceIt is a block diagram in the data communication control system which concerns on an example. In addition, in FIG. 17, it shows in FIG. 8, FIG. 11, FIG.2nd to 4thThe same components as those in the data communication control system according to the embodiment are denoted by the same reference numerals and description thereof is omitted. In FIG. 17, the data communication control system 150 includes two telephone lines for transmitting 4-bit data to the client 400, and includes a low-speed data communication server 213 that performs data communication with the client 400. .
[0069]
  Each telephone line is connected with control devices 350 and 351 for controlling transmission and reception of data in a state where no incoming call or no incoming call is received. The definition information DB 23 of the server 25 stores information in which bit positions and values for controlling the control devices 41 to 43 of the client 400 are defined for each telephone line. The definition information stored in the definition information DB 23 will be described in detail with reference to FIG. The control devices 350 and 351 of the low-speed data communication server 213 are the same as the control devices 34 to 39 shown in FIG.
[0070]
  Next2 ReferenceA processing procedure of the example data communication control method will be described. First, when data is transmitted from the low-speed data communication server 211 to the client 400, the communication processing unit 301 of the control device 350 of the low-speed data communication server 213, for example, has a telephone number ((TEL) ***-) defined as a start bit. &&&&-0000) to the PHS network 12. This telephone call is transmitted to the exchange 50 via the digital communication line network of the telephone line network 1. The exchange 50 transmits the telephone call to the control device 38 via the PHS network 12 on the client 400 side. At this time, the start bit is recognized by the caller telephone number recognition function of the PHS network 12, and the recognition result is supplied to the control device 38. The communication processing unit 301 of the control device 38 receives the recognition result from the PHS network 12 without performing incoming and incoming calls, and the transmission data recognition unit 303 performs data transmission from the low-speed data communication server 213 based on the recognition result. Recognize the start.
[0071]
  Next, the communication processing unit 301 of the control device 350 of the low-speed data communication server 213 uses the telephone number ((TEL) ***-!!!!-0000) that defines the bit value (bit 1 = 0) of the control device. Makes a telephone call to the PHS network 12. In the same manner as described above, the communication processing unit 301 of the control device 38 recognizes whether or not a telephone call of the telephone number of bit 1 = 1 is made within a certain time, and when a telephone call is made, the incoming and outgoing calls are received. The recognition result is received from the PHS network 12 without making a call. The transmission data recognition unit 303 recognizes the bit position and value of the control device based on the recognition result, and controls the control device 42. Note that the same data communication control can be performed not only for data communication in the PHS network 12 but also for the digital communication line network 11 and the analog communication line network 13, and thus description thereof is omitted.
[0072]
  Next2 ReferenceA table stored in the definition information DB 23 in the example will be described. FIG. 18 is a diagram showing a table stored in the definition information DB. In FIG. 18, definition information defined by the transmission data definition unit 21 of the server 25 is stored in a table 235 stored in the definition information DB 23. The table 235 includes items of two telephone line telephone numbers provided in the low-speed data communication server 213 and four bits of definition content for the telephone numbers. It should be noted that the definition contents are defined such that a start bit is defined for one of the two telephone numbers, and bit 1 = 1 is defined for the other telephone number. For example, the table 235 stores a telephone number “***-&&&&-0000” and a definition “start bit” indicating the timing for transmitting data to the telephone number, and the telephone number “***-”. ! −0000 ”and the definition contents“ bit 1 = 0 ”of the telephone number are stored.
[0073]
  Next, a processing procedure of a data communication control method when data communication is performed from the low-speed data communication server 213 having two telephone lines to the client 400 will be described. FIG. 19 is a flowchart of the data communication control process. In the processing procedure shown in FIG. 19, the same steps as the processing procedures shown in FIGS. In FIG. 19, in the process of step S60, the low-speed data communication server 213 determines whether or not to make a call with a telephone number of bit 1 = 0 within a certain time. If it is determined in step S60 that no telephone call is made with the telephone number of bit 1 = 0 within a certain time, the low-speed data communication server 213 does not make a telephone call until the next bit transmission in step S61. The process of S63 is performed. When making a call with a phone number with bit 1 = 0 within a predetermined time in the process of step S60, the low-speed data communication server 213 uses the telephone number defined as bit 1 = 0 as a specific client in the process of step S62. Make a phone call to In step S63, the low-speed data communication server 213 determines whether a 4-bit telephone call has been made. If the 4-bit telephone call is not made in the process of step S63, the process from step S60 is repeated. When a 4-bit telephone call is made in the process of step S63, the processes after step S44 are performed.
[0074]
  In this way, a telephone call is made to the client 400 using the two-line telephone numbers for which predetermined processing is defined by the control devices 350 and 351, and the caller is identified by the caller telephone number recognition function of the PHS network 12, The control device 42 can be controlled in a state where a call is not established by receiving the recognition information without performing incoming and incoming calls with respect to the outgoing call by the control device and controlling the control device 42. That is, no communication fee is charged, and data communication between the low-speed data communication server 211 and the client 400 can be performed without incurring communication costs.
[0075]
  Next3 ReferenceA data communication control method in the example will be described. FIG. 20 shows the first of the present invention.3 ReferenceIt is a block diagram in the data communication control system which concerns on an example. 1, 5, 8, 11, 14, and 17.Reference example, first embodiment~Fourth embodiment, second referenceThe description of the same configuration as that of the data communication control system according to is omitted. In FIG. 20, a data communication control system 160 receives a client 410 that transmits data using the PHS mobile phone 3 owned by the user 2, and data transmitted from the client 410 via a PHS network (not shown). And a low-speed data communication server 220 to be managed. The client 410 includes a fingerprint sensor 5 that reads fingerprint information for identifying the user 2 and a PHS mobile phone 3 owned by the user 2. The low-speed data communication server 220 includes a control device 360 that controls reception of data from the client 410 in a state where no incoming call or no incoming call is received, and a server 25 that manages the received data and displays it on the display unit.
[0076]
  Next3 ReferenceA processing procedure of the data communication control method in the example will be described. First, the user 2 on the client 410 side registers the fingerprint of the user 2 and the user ID for the fingerprint in the fingerprint sensor 5 in advance (step S1). Next, the user 2 puts a finger on the fingerprint sensor 5 and reads the fingerprint to authenticate the user 2 (step S2). The fingerprint sensor 5 notifies the PHS mobile phone 3 of the user ID and the result of OK / NG that is the authentication result (step S3). The PHS mobile phone 3 sends the user ID and the authentication result to the low-speed data communication server 220 with the subaddress added (step S4). In the low-speed data communication server 220, the control device 360 receives the user ID and the authentication result data for the subaddress in a state where the incoming call and the incoming call are not received, and supplies the received data to the server 25. The server 25 manages the received data and displays the user ID and the authentication result on the display unit in response to a request from the administrator 4 (step S5). The administrator 4 confirms the user authentication status from the data display (step S6).
[0077]
  As described above, by transmitting the user ID and the authentication result from the PHS mobile phone 3 to the low-speed data communication server 220 with the subaddress added, it is possible to receive data without receiving and receiving a call, Data transfer from is possible. Even if the PHS mobile phone 3 is damaged, the server 25 can efficiently manage the data.
[0078]
  In addition, since the PHS mobile phone 3 has the terminal ID together with the phone number, even if the phone number of the PHS mobile phone 3 is duplicated, the base station cannot connect unless the terminal ID for the phone number is recognized. It is possible to improve the security level of data transmission for subaddress transmission in the data communication control system 160.
【The invention's effect】
[0079]
  As described above, according to the present invention, the data communication server manages the status information indicating the status of the control device via any one of the plurality of communication networks, and designates the data communication server that is telephoned from the client. By acquiring the status information added to the phone number without connecting to the client, it is possible to efficiently perform data communication without establishing a call between the data communication server and the client, thereby reducing communication costs. be able to.
[Brief description of the drawings]
FIG. 1 shows the first of the present invention.referenceIt is a block diagram in the data communication control system which concerns on an example.
FIG. 2 is a diagram showing a table stored in a definition information DB.
FIG. 3 is a diagram illustrating a flowchart of a data communication control process.
FIG. 4 is a diagram illustrating a flowchart of a data communication control process.
FIG. 5 shows the first of the present invention.1It is a block diagram in the data communication control system which concerns on an Example.
FIG. 6 is a diagram showing a table stored in a definition information DB.
FIG. 7 is a diagram illustrating a flowchart of a data communication control process.
FIG. 8 shows the first of the present invention.2It is a block diagram in the data communication control system which concerns on an Example.
FIG. 9 is a diagram showing a table stored in a definition information DB.
FIG. 10 is a diagram illustrating a flowchart of a data communication control process.
FIG. 11 shows the first of the present invention.3It is a block diagram in the data communication control system which concerns on an Example.
FIG. 12 is a diagram showing a table stored in a definition information DB.
FIG. 13 is a diagram illustrating a flowchart of a data communication control process.
FIG. 14 shows the first of the present invention.4It is a block diagram in the data communication control system which concerns on an Example.
FIG. 15 is a diagram showing a table stored in a definition information DB.
FIG. 16 is a diagram illustrating a flowchart of a data communication control process.
FIG. 17 shows the first of the present invention.2 ReferenceIt is a block diagram in the data communication control system which concerns on an example.
FIG. 18 is a diagram showing a table stored in a definition information DB.
FIG. 19 is a diagram illustrating a flowchart of a data communication control process.
FIG. 20 shows the first of the present invention.3 ReferenceIt is a block diagram in the data communication control system which concerns on an example.
[Explanation of symbols]
  1 Telephone network
  3 PHS mobile phones
  5 Fingerprint sensor
  100, 110, 120, 130, 140, 150, 160 Data communication control system
  10, 11 Digital communication network
  12 PHS network
  13 Analog communication network
  20, 200, 210, 211, 212, 213, 220 Low-speed data communication server
  21 Transmission data definition part
  22 Data processing section
  23 Definition information DB
  24 Installer
  25 servers
  30-39, 41-43, 310-318, 320-336, 340-347, 350, 351, 360 Control device
  40, 400, 410 clients
  50 exchange
  60 recording media

Claims (8)

A control method of a control device for controlling the control device by a call control signal by a client connected to the control device and a server connected via a communication network,
The server having a table defining a telephone number corresponding to a start bit and a telephone number corresponding to the content of control, first makes a call with the telephone number corresponding to the start bit, and then the content of the control A control method for a control device, characterized in that a telephone call is made with a telephone number corresponding to. A control method of a control device for controlling the control device by a call control signal by a client connected to the control device and a server connected via a communication network,
The server includes a telephone number corresponding to a start bit, and 2n telephone numbers corresponding to bits “0” and “1” and different from each other for each n-bit bit position for controlling the control device. The server having the table defining the first places a call with the telephone number corresponding to the start bit, and then calls with the telephone number corresponding to “0” and “1” of the bit for each bit position. A control method for a control device, characterized in that transmission is performed. A control method of a control device for controlling the control device by a call control signal by a client connected to the control device and a server connected via a communication network,
The server includes a table defining a telephone number corresponding to a start bit and 2 ⁿ telephone numbers corresponding to n bits, which are bits for controlling the control device , following the start bit. , first, the outgoing call with the phone number corresponding to the start bit, then the control method of the control device and performs the phone call at one of the 2 ⁿ pieces of telephone numbers. A control method of a control device for controlling the control device by a call control signal by a client connected to the control device and a server connected via a communication network,
For each n-bit bit position for controlling the control device, 2n telephone numbers corresponding to the bits “0” and “1” are different from each other , and the bit “0” in the last bit position , The phone number corresponding to “1” has a table defining a phone number having the meaning of a stop bit, and the server calls the phone number corresponding to “0”, “1” of the bit for each bit position. A control method for a control device, characterized in that transmission is performed. A server that is connected to a client to which a control device is connected via a communication network and controls the control device by a call control signal;
A table defining a telephone number corresponding to the start bit and a telephone number corresponding to the content of the control;
A communication processing unit for making a call with a telephone number corresponding to the start bit defined in the table, and for making a call with a telephone number corresponding to the contents of the control defined in the table; A server characterized by that. A server that is connected to a client to which a control device is connected via a communication network and controls the control device by a call control signal;
A table defining a telephone number corresponding to a start bit and 2n telephone numbers corresponding to bits “0” and “1” and different from each other for each n- bit position of a bit for controlling the control device. When,
First, a telephone call is made with a telephone number corresponding to the start bit defined in the table, and then a telephone number corresponding to “0” and “1” of the bit defined in the table for each bit position. And a communication processing unit for making a telephone call. A server that is connected to a client to which a control device is connected via a communication network and controls the control device by a call control signal;
A table defining a telephone number corresponding to a start bit and 2 ⁿ telephone numbers corresponding to n bits, which are bits for controlling the control device , following the start bit;
First, a communication processing unit that performs a telephone call with a telephone number corresponding to the start bit defined in the table, and then performs a telephone call with one of the ²ⁿ telephone numbers defined in the table; A server characterized by having. A server that is connected to a client to which a control device is connected via a communication network and controls the control device by a call control signal;
For each bit position of the n bits for controlling the controlled device, "0" bits correspond to "1", a different 2n-number of telephone numbers with each other, the bits of the last bit position "0" , The phone number corresponding to “1” has a table defining phone numbers having the meaning of stop bits ,
For each bit position, "0" of the bits defined in the table, and having a communication processing unit that performs telephone call a telephone number corresponding to "1" the server.

Images