JP4196071B2 - Initial registration system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is a system for performing various security reports from a terminal device to a communication device, or performing various controls from the communication device to the terminal device. Initial registration system The present invention relates to confirmation of the progress of initial registration of the communication device and the terminal device.
[0002]
[Prior art]
For this type of conventional system, the following is common. This will be described with reference to the block diagram of FIG. 4 (see Patent Document 1). In this system, a facsimile apparatus 201, an information processing terminal 202 such as a PC (personal computer), a communication line 203 such as PSTN, and a counterpart terminal 204 are provided.
[0003]
The facsimile apparatus 201 is connected to the communication line 203 and can perform facsimile communication, and can be connected to the information processing terminal 202 wirelessly. In the above embodiment, since the wireless portion is Bluetooth, if the information processing terminal 202 has a built-in unit for Bluetooth communication, or if the unit for Bluetooth communication is connected to the information processing terminal 202, the information It is also possible to exchange images and exchange data and programs with the processing terminal 202.
[0004]
FIG. 5 is a diagram illustrating the operation at the time of start-up of the above-described embodiment. When the information processing terminal 202 is turned on, the initialization process with the facsimile apparatus 201 and the process until the standby state is entered. FIG.
[0005]
FIG. 6 is a diagram illustrating a communication operation during a received image transfer process in which the facsimile apparatus 201 receives an image from another facsimile apparatus through the communication line 203 and transfers the image data to the information processing terminal 202.
[0006]
At this time, it is assumed that the power of the facsimile apparatus 201 has already been turned on. When the information processing terminal 202 is turned on, the Bluetooth-compatible facsimile manager 401 is activated to perform processing for connecting to the facsimile apparatus 201.
[0007]
In order to confirm that the connected facsimile apparatus 201 is in a communicable state, the Bluetooth control task 409 transmits an Inquiry transmission request to the Bluetooth controller 410. At this time, Class of Device information in the Inquiry command is transmitted as a serial communication terminal. Upon receiving an Inquiry transmission request, the Bluetooth controller 410 performs an Inquiry procedure according to the Bluetooth connection procedure, and notifies the Bluetooth control task 409 of the result (Inquiry Result).
[0008]
When the Bluetooth control task 409 receives the inquiry result, it determines from the contents whether or not it can be connected to the facsimile apparatus 201. If the connection is possible, the address of the facsimile apparatus 201 is designated and the Bluetooth controller 410 is informed. Make a connection request. If the connection fails or the connection destination facsimile apparatus is not found from the contents of the Inquiry Result, a message indicating that fact is displayed on the display unit of the information processing terminal 202.
[0009]
When receiving the connection request, the Bluetooth controller 410 establishes a connection using the Serial Port Profile based on the Bluetooth controller 309 of the facsimile apparatus 201 and the Bluetooth standard, and forms a piconet.
[0010]
When the connection is established, the result is notified to the Bluetooth control task 409. When the Bluetooth control task 409 detects from the connection result that the connection with the facsimile apparatus 201 has been established, the Bluetooth control task 409 notifies the facsimile manager 401 of the Replay signal and passes the command from the facsimile manager 401 to the Bluetooth controller 410 as it is. Transition state to mode.
[0011]
When the Bluetooth control task 409 receives a message indicating that connection establishment has failed from the connection result, the Bluetooth control task 409 displays the message on the display unit of the information processing terminal 202.
[0012]
The Bluetooth controller 309 of the facsimile apparatus 201 notifies the Bluetooth control task 308 of the result of the connection establishment procedure with the information processing terminal 202. When the Bluetooth control task 308 confirms from the result of the connection establishment procedure that the connection has been established, the Bluetooth control task 308 enters the command through mode in order to pass the command from the information processing terminal 202 to the event control task 307 as it is. Wait for a command from terminal 202. When the connection fails, the Bluetooth control task 308 waits until a connection is established.
[0013]
When the facsimile manager 401 receives the Replay signal from the Bluetooth control task 409, a command for transferring data such as the date of the information processing terminal 202 and the name registered in the facsimile manager 401 to the facsimile apparatus 201 is sent to the Bluetooth control task 409. Send to.
[0014]
The Bluetooth control task 409 transfers the received command to the Bluetooth controller 410 as it is, and the Bluetooth controller 410 transfers it to the facsimile apparatus 201 using the Serial Port Profile.
[0015]
The Bluetooth controller 309 of the facsimile apparatus 201 sends the command sent from the information processing terminal 202 to the Bluetooth control task 308, and the Bluetooth control task 308 passes the command to the event control task 307 as it is. The event control task 307 analyzes the received command and sends the result to the Bluetooth control task 308.
[0016]
When the initialization process ends, the facsimile manager 401 issues a reception information acquisition command to check whether the facsimile apparatus 201 has a received image. Upon receiving the received information acquisition command, the event control task 307 searches the image management record stored in the RAM 103 for a received image.
[0017]
If there is an image received, a response “image is present” is returned to the reception information acquisition command issued by the Bluetooth control task 308. If no image is received, a response “image is not present” is returned.
[0018]
When the facsimile manager 401 determines that there is an image as a response to the received information acquisition command, the facsimile manager 401 performs a received image transfer process.
[0019]
If there is no received image, the facsimile manager 401 issues a status information acquisition command in order to store the status of the facsimile apparatus 201. Upon receiving the status information acquisition command, the event control task 307 checks the status relating to the facsimile apparatus 201 such as the status of the printer, the status of the scanner, and the status of the memory, and returns a response to that effect.
[0020]
If the facsimile manager 401 determines from the response to the status information acquisition command that there is an error status, the facsimile manager 401 displays a message indicating the error status on the display unit of the information processing terminal 202 and the received information acquisition command until the error is corrected. A status information acquisition command is periodically issued to the event control task 307.
[0021]
When there is no received image and the state of the facsimile apparatus 201 is normal, it is not necessary to connect the communication between the information processing terminal 202 and the facsimile apparatus 201 until the facsimile apparatus 201 receives the data. The device 201 transitions to the Park mode. The “Park mode” is a Park mode which is a low power consumption mode based on the Bluetooth standard, and the facsimile apparatus 201 which is a slave terminal of the information processing terminal 202 which is a master based on the Bluetooth standard sends a signal from the master at regular intervals. This mode is for receiving and maintaining synchronization within the piconet. Further, when the mode is shifted to the Park mode, data communication between the master and the slave cannot be performed. When performing data communication, it is necessary to cancel the Park mode and shift to the Active mode.
[0022]
[Patent Document 1]
JP 2002-190815 (P2002-190815A)
[0023]
[Problems to be solved by the invention]
However, in the above-described conventional configuration, the user cannot recognize which mode the operation mode is currently changing to. In other words, when the user recognizes the end of the startup, etc., and performs the next operation, if the startup fails, the user does not know where and in which mode, so start up again. The loss of repeating from the beginning occurs. In addition, even if there is a cause of failure, simply starting over from the beginning simply repeats the same failure, resulting in poor efficiency and reduced system reliability.
[0024]
[Means for Solving the Problems]
In order to solve the above-described problems, the present invention enables the user to recognize the transition of the operation in the mode when performing the initial registration between the devices, so that the initial registration or the like fails. It becomes easier to take measures when repeating the same procedure, simplify the construction and shorten the time, and ultimately improve the reliability of the system.
[0025]
Therefore, a transition means A for causing the terminal device to shift to a registration operation for communicating with the communication device is displayed on the terminal device, and a progress status of the registration operation is displayed while the transition means A is operating. Display means A, and a transition operation B for causing the communication device to shift the terminal device itself to a registration operation for communicating with the terminal device, and a registration operation while the transition means B is operating. It is assumed that the initial registration system is provided with display means B for displaying the progress status.
[0026]
According to the above invention, it is possible to easily take measures when initial registration fails.
[0027]
DETAILED DESCRIPTION OF THE INVENTION
An initial registration system according to claim 1 of the present invention is an initial registration system provided with a terminal device integrated with or connected to a device and a communication device that communicates with the terminal device. Transition means A for causing the terminal device to shift to a registration operation for communicating with the communication device, and display means A for displaying the progress of the registration operation while the transition means A is operating Transition means B for causing the communication device to shift to a registration operation for communicating with the terminal device, and the progress of the registration operation while the transition means B is operating. Display means B for displaying, The display means A displays whether or not information necessary for communication is stored inside the terminal device as a registration operation progress status display, and the display means B displays the registration operation progress status display as the registration operation progress status display. Displays whether or not the information to be sent was successfully sent Is.
[0028]
And, since the user can easily determine which procedure of the initial registration each terminal device and communication device are currently proceeding to, and where the initial registration has failed, there is no mistake in the procedure. In addition to realizing highly reliable initial registration, it is possible to increase the probability of success in re-execution in the event of initial registration failure, improve system stability, and simplify the initial registration procedure / shorten the time. it can.
[0029]
In the initial registration system according to a second aspect of the present invention, at least one of the terminal device and the communication device has electric field strength measuring means for measuring the strength of the radio wave received from the other, and the display means is the electric field. The display contents are changed in accordance with the electric field intensity measured by the intensity measuring means.
[0030]
And, since the electric field strength can be measured in at least one of the terminal device and the communication device, it becomes easy to investigate the cause when the initial registration fails, and the success probability in the re-execution when the initial registration fails can be increased. It is possible to improve the stability of the system and to simplify / shorten the initial registration procedure.
[0036]
【Example】
Embodiments of the present invention will be described below with reference to the drawings.
[0037]
(Example 1)
FIG. 1 is a block diagram of a service system according to a first embodiment of this invention. In FIG. 1, reference numeral 1 denotes a communication device. 2 is a terminal device. Reference numeral 3 denotes a transition means A. Reference numeral 4 denotes transmission means A. Reference numeral 5 denotes a receiving means A. Reference numeral 6 denotes display means A. The transition unit A3, the transmission unit A4, the reception unit A5, and the display unit A6 are configured in the terminal device 1. Reference numeral 7 denotes a transition means B. Reference numeral 8 denotes transmission means B. Reference numeral 9 denotes receiving means B. Reference numeral 10 denotes display means B. The transition unit B7, the transmission unit B8, the reception unit B9, and the display unit B10 are configured in the communication device 2.
[0038]
In FIG. 1, the terminal device 2 is, for example, “security sensor”, “home appliance”, or “flow rate measuring device”. The “security sensor” here is, for example, a “window / door sensor” that is installed on a window or door in the home and that responds to an intruder from the outside and that makes an alarm sound or reports that fact. When the presence of a “human sensor” that prevents the intruder from outside by detecting the presence or absence of a person and intimidating or informing the person using an alarm sound or notification, This refers to an “emergency call button” that contacts a family member or medical institution by pressing a button. “Household appliances” refer to household appliances used at home such as “washing machines”, “microwave ovens”, “air conditioners”, “refrigerators”, “rice cookers”, “hot water heaters”, and the like.
[0039]
On the other hand, the communication device 1 uses a screen or voice to notify the user of an abnormality report from the “security sensor” or when a “failure information” or other report is received from the “home appliance”. It also serves to notify the external server device, mobile phone, personal computer, medical institution, service center, etc. The “flow rate measuring device” refers to an energy measuring device called a lifeline of each household, such as electricity, gas, and water. The communication device 1 may have a function of communicating with these “flow rate measuring devices”. That is, for example, the gas flow rate of each household is measured by a “flow rate measuring device” called a gas meter. The communication device 1 acquires meter reading data of the gas meter and sends the data to an external server device. The external server device cooperates with the gas supplier in advance, and the meter reading value of the household is sent to the gas supplier. The gas company charges the household a gas fee according to the amount of gas used.
[0040]
The gas meter measures the gas flow rate and also has various security functions. In other words, the gas meter has a shut-off function for shutting off the gas flow, and when the gas leak occurs in an earthquake or the like, the gas meter automatically shuts off the gas flow and notifies that effect. The report destination is the communication device 1. The communication device 1 notifies an alarm notification output by the gas meter, such as an interruption, to a gas service provider via an external server device. The gas service provider notifies the home of the abnormality by telephone, or in some cases, goes to the home and responds. At this time, the communication device 1 can also notify the user to that effect using a user interface such as a screen or voice.
[0041]
Further, when the gas meter is a gas meter for LP gas, for example, it has a function of detecting the remaining amount of the LP gas cylinder. That is, when the remaining amount of the LP gas cylinder falls below a predetermined level, or when the remaining amount is exhausted, the gas meter detects and notifies that fact. The reporting method is the same as in the case of the above-mentioned blocking. Upon receipt of the report, the gas service provider delivers the gas cylinder to the household and performs an exchange operation.
[0042]
Further, the communication device 1 sets / cancels various warning operations to, for example, the “security sensor”, controls ON / OFF of the power source of the “home appliance”, ON / OFF of the flow rate to the “flow rate measuring device”, etc. Also plays the role of controlling. Here, when the terminal device 2 is a “security sensor”, since it is difficult to supply AC power, the terminal device 2 generally operates with a battery. Further, when the “flow rate measuring device” is a gas meter or a water meter, the gas meter or the water meter is installed in the garden or the back side of each home and normally operates with a battery.
[0043]
On the other hand, when the terminal device 2 is a “home appliance”, the terminal device 2 operates by supplying AC power. As described above, the communication apparatus 1 and at least one terminal apparatus 2 constitute a system. For example, when the user goes out, the communication device 1, the “security sensor”, or the “home appliance” is used to set the “security sensor” in the alert mode at the entrance or to turn off the operation of the “home appliance”. Apart from this, there are systems with an “outing remote control”, but here, this “outing remote control” is also considered as a kind of “security sensor”. This “outing remote control” is also operated by a battery to be carried by the user.
[0044]
Here, when the communication device 1 communicates with an external server device, mobile phone, personal computer, medical institution, service center, etc., a line is used. Here, the line is an analog telephone line, ISDN line, ADSL line, FTTH line, cable TV line, or the like. This line uses the various line types introduced by the household. Depending on the line, the communication device 1 is connected via a modem such as a modem, T-NCU (Terminal Network Control Unit), TA, dial-up router, ONU (Optical Network Unit) or the like for connection to the line. Built-in. On the other hand, the communication device 1 and an external server device, a mobile phone, a personal computer, a medical institution, a service center, etc. may be connected by a direct circuit switching method, ISP (Internet Service Provider) or ASP (Application In some cases, it is connected via the Internet via a Service Provider. Furthermore, the communication protocol between the communication device 1 and an external server device, a mobile phone, a personal computer, a medical institution, a service center, etc. may be a non-procedure unique protocol determined in advance by this system, or may be TCP / IP, In some cases, an Internet protocol such as HTTP or HTTPS is used.
[0045]
Next, communication between the communication device 1 and the terminal device 2 of the “security sensor”, “home appliance”, and “flow rate measuring device” will be described. Here, the communication between the communication device 1 and the terminal device 2 of “security sensor” or “home appliance” is performed using, for example, a specific low-power radio in the 400 MHz band. That is, when the “window / door sensor” or “human sensor” detects an intrusion abnormality, when the “emergency call button” is pressed, or when various settings are made with the “outing remote control”, "Transmits that fact to the communication device 1 using the specific low-power radio. When notifying the meter reading value from a gas meter or water meter or when notifying the valve of the gas meter or water meter in the event of an abnormality, the “flow measurement device” uses the specific low-power radio to communicate that fact. Transmit to. In addition, when transmitting a signal indicating that the security device shifts to a warning operation from the communication device 1 or when remotely shutting off / returning a valve to a gas meter or a water meter, the “home appliance” The specific low-power radio is also used when transmitting an ON / OFF command for operation.
[0046]
In the system composed of the communication device 1 and the terminal device 2 described above, the user purchases this system at a store. That is, consider the case where the system is sold as a “take-out product”.
[0047]
For example, a user who purchases “various security sensors” and the communication device 1 attaches the system at home. In other words, "various security sensors" are installed in places such as windows where security is dangerous or where intruders from outside need to be alerted. The elderly also have an “emergency call button” and own a “going out remote control”. It is not necessary for the user to purchase the communication device 1 and the terminal device 2 that accompanies it first, and it is possible to additionally purchase “various security sensors” and incorporate them into the system as needed. For example, even if only one “window / door sensor” is purchased at the beginning, it is possible to purchase another “window / door sensor” at a later date and incorporate it into the system. It can also be purchased and integrated into the system. In any case, the communication device 1 is an indispensable device for the system.
[0048]
The same applies to the case of “home appliance”. In other words, there is no problem in purchasing “washing machine”, “microwave oven”, etc. individually to use their own functions, but communication is always required when remotely turning on / off or reporting a failure. The device 1 is essential. Even in this case, as in the case of the “security sensor”, a new “home appliance” purchased at a later date can be incorporated into the system.
[0049]
Here, in the system using the “security sensor”, the user attaches a battery to the “security sensor” in order to operate the “various security sensors”. Specifically, by attaching a battery to “various security sensors”, the “security sensor” automatically starts operation. That is, the “various security sensors” do not have a switch or the like for turning on / off the power.
[0050]
The operation of the system immediately after the battery is attached to the terminal device 2 will be described with reference to FIG. When the user attaches a battery to the terminal device 2, the following two cases are conceivable. That is, when using the system composed of the communication device 1 and the terminal device 2 for the first time, a battery is attached to the terminal device 2 and when the battery capacity of the terminal device 2 is reduced and the battery is replaced.
[0051]
Here, consider the case where the user uses this system for the first time. A series of sequences is shown in FIG. In this case, the user sets the communication apparatus 1 to the “registration mode” (1001 in FIG. 2). This is described, for example, in the “instruction manual” of the communication device 1 or the terminal device 2. As a method for setting the communication device 1 to the “registration mode”, for example, when a “registration switch” provided in the communication device 1 is turned on, or when the communication device 1 has a screen and key input means, A method for shifting the screen to the mode using the key input means, a method for automatically shifting the communication apparatus 1 to the “registration mode” when the communication apparatus 1 is first turned on, and the like are conceivable. In any case, the communication device 1 shifts to the “registration mode” by the shift means B7 by these operations.
[0052]
After the communication device 1 shifts to the “registration mode”, it receives a “request signal” of a registration information request from the terminal device 2 by the internal receiving means A4 (1002 in FIG. 2). Here, this “request signal” recognizes the communication device 1 that is a communication partner for the terminal device 2 when the communication device 1 and the terminal device 2 communicate with each other by radio. Registration information, “apparatus identification code”, “wireless system identification code” for confirming that the system is composed of the communication device 1 and the terminal device 2, and actual communication between the communication device 1 and the terminal device 2. This is a signal requesting “number of channels / channel group” that defines “channels” to be used when performing communication, “reception period” in which the communication apparatus 1 performs wireless reception, and the like. That is, when the user “Mr. A” purchases the communication device 1 and the terminal device 2 of this system, the communication partner of the terminal device 2 is the communication device 1 purchased by “Mr. A”. It is not the communication device 1 purchased by “B” in the next house. Therefore, in order for the terminal device 2 purchased by “Mr. A” to reliably communicate with the communication device 1 purchased by “Mr. A”, it is assigned to the terminal device 2 “wireless system identification”. Sign ". During normal operation, the terminal device 2 performs various communications using the allocated “device identification code”, “wireless system identification code”, “number of channels / channel group”, “reception cycle”, and the like.
[0053]
When such a “request signal” is received by the internal reception means B9 of the communication apparatus 1, the communication apparatus 1 uses the internal transmission means B8 to “equipment identification code” “radio system identification code” “number of channels / channels” The “group”, “reception cycle” and the like are transmitted to the terminal device 2 (1003 in FIG. 2). Here, “communication identification codes” assigned to the terminal devices 2 are stocked in the communication device 1 on the assumption that communication is performed with a plurality of terminal devices 2 in advance. In fact, as described above, one communication device 1 includes “security sensors” such as “window / door sensor”, “human sensor”, “emergency call button”, “washing machine”, “microwave oven”, “air conditioner”, “ It is assumed to communicate with “home appliances” such as a “refrigerator”, “rice cooker”, “hot water heater”. Among the stocked “device identification codes” that have not yet been assigned to the terminal device 2, for example, the communication device 1 assigns the smallest “device identification code” to itself. The terminal device 2 that has transmitted the “request signal” is transmitted together with the “wireless system identification code”, “number of channels / channel group”, “reception period”, and the like.
[0054]
The operation of transmitting the “identification code” in response to the “request signal” is an operation only when the communication device 1 is in the “registration mode”, and when the communication device 1 is not in the “registration mode”, the communication is performed. The device 1 does not transmit “apparatus identification code”, “wireless system identification code”, “number of channels / channel group”, “reception cycle”, or the like. In addition, as a method for the communication device 1 to exit from the “registration mode”, a user's key input, a certain period of time, or the like can be considered.
[0055]
On the other hand, the terminal device 2 starts operation when the user inserts a battery (1001 in FIG. 2). When the terminal device 2 starts operation, the terminal device 2 checks whether the “device identification code”, “wireless system identification code”, “number of channels / channel group”, “reception cycle”, and the like are stored in the internal nonvolatile memory. . When the user operates the system for the first time, of course, the “device identification code”, “wireless system identification code”, “number of channels / channel group”, “reception cycle”, etc. are not stored in the internal nonvolatile memory. Therefore, the terminal device 2 transmits a “request signal” to the communication device 1 using the transmission means A4 (1002 in FIG. 2). When a “device identification code”, “wireless system identification code”, “number of channels / channel group”, “reception cycle”, etc. are transmitted from the communication apparatus 1 to the “request signal” transmitted from the transmission means A4, the terminal The apparatus 2 receives the “device identification code”, “wireless system identification code”, “number of channels / channel group”, “reception cycle”, and the like by the internal reception means A5 (1003 in FIG. 2). When the reception unit A5 normally receives the “device identification code”, “wireless system identification code”, “number of channels / channel group”, “reception cycle”, etc. from the communication device 1, the received “device identification code” “wireless system identification code” "Number of channels / channel group", "reception cycle", etc. are stored in the internal nonvolatile memory (1005 in FIG. 2). That is, since the “device identification code”, “wireless system identification code”, “number of channels / channel group”, “reception cycle”, and the like are stored in the nonvolatile memory, the power of the terminal device 2 is turned off. Stored “device identification code”, “wireless system identification code”, “number of channels / channels” even when the battery capacity is exhausted or the user removes the battery from the terminal device 2 to replace the battery of the terminal device 2 “Group”, “Reception period”, etc. will not disappear. As a result, the terminal device 2 thereafter communicates with the communication device 1 using the “device identification code”, “wireless system identification code”, “number of channels / channel group”, “reception cycle”, etc. stored in the internal storage means 10. Is possible. Note that the terminal device 2 sends the “device identification code”, “wireless system identification code”, “number of channels / channel group”, “reception cycle”, and the like received from the communication device 1 to the communication device 1 with the meaning of reception confirmation. Transmission is performed via the transmission means A4 (1004 in FIG. 2). Note that 1004 may be performed after 1005.
[0056]
On the other hand, the communication device 1 transmits “apparatus identification code”, “wireless system identification code”, “number of channels / channel group”, “reception cycle”, etc. to the terminal device 2 via the internal transmission means B8. The “device identification code”, “wireless system identification code”, “number of channels / channel group”, and “reception cycle” from the terminal device 2 including the meaning of the above-described reception confirmation are received via the reception means B7 (FIG. 2). 1004).
[0057]
With the above, a state where wireless communication between the communication apparatus 1 and the terminal apparatus 2 can be achieved. On the other hand, at this stage, the communication device 1 cannot specify what kind of device the terminal device 2 is. That is, the communication device 1 cannot determine whether the terminal device 2 that has become communicable is a “security sensor”, a “washing machine”, or an “air conditioner”. This is because the aforementioned “device identification code”, “wireless system identification code”, “number of channels / channel group”, “reception cycle”, and the like do not include such information. Therefore, after the terminal device 2 becomes communicable with the communication device 1, the transmission device A4 transmits information (device identification information signal) including what kind of device it is to the communication device 1. (1006 in FIG. 2). The communication apparatus 1 receives this information via the receiving means B9. Thereafter, the communication device 1 transmits an internal state request signal to the terminal device 2 using the transmission means B8 in order to check what state the device, for example, the “washing machine” is currently in ( 1007 in FIG. The terminal device 2 that has received this request signal by the receiving means A5 is currently in a state immediately after startup, for example, “the operation of the washing machine is stopped” or “the fleece is set to be washed”. The internal state signal is transmitted to the communication apparatus 1 using the transmission means A4 (1008 in FIG. 2). The communication device 1 receives the internal state signal by the receiving means B9 (1009 in FIG. 2). When these series of operations are completed, the registration operation between the communication device 1 and the terminal device 2 is completed, and the “registration mode” is bypassed using the internal transition means A3 and the transition means B7, respectively ( 1010 in FIG.
[0058]
On the other hand, if the user has used the terminal device 2 up to now and the battery of the “security sensor” needs to be replaced for some reason, for example, or if the “microwave oven” is powered off, the power supply is cut off. The movement when returning will be described. In this case, as described above, the terminal device 2 checks whether or not “device identification code”, “wireless system identification code”, “number of channels / channel group”, “reception period”, and the like are stored in the internal nonvolatile memory. In this case, since the registration operation with the communication apparatus 1 has already been completed, “device identification code”, “wireless system identification code”, “number of channels / channel group”, “reception cycle”, etc. are stored in the internal nonvolatile memory. Is remembered. In this case, the terminal device 2 does not transmit a request signal for registration to the communication device 1. Then, the terminal device 2 considers that the communication with the communication device 1 is already possible, and transmits information including what kind of device it is to the communication device 1 as described above. Transmit using means A4. The communication apparatus 1 receives this information via the receiving means B9. Thereafter, the communication device 1 transmits an internal state request signal to the terminal device 2 using the transmission means B8 in order to check what state the device, for example, the “washing machine” is currently in. The terminal device 2 that has received this request signal at the receiving means A5 is currently in a state immediately after startup, for example, “the operation of the washing machine has stopped” or “a setting to wash the fleece”. Such a state is transmitted to the terminal device 1 using the internal transmission means A4. The terminal device 1 receives the state by the internal receiving means B9.
[0059]
The above is the movement after the terminal device 2 is powered on. Here, the communication device 1 is set to the “registration mode” and the power of the terminal device 2 is turned on for the first time. As described above, the procedure of the “registration mode” between the communication device 1 and the terminal device 2 is as follows. If it ends normally, there is no problem, but it may be assumed that the “registration mode” does not end normally for some reason, such as deterioration of the radio wave environment between the communication device 1 and the terminal device 2. For example, when the communication device 1 cannot receive the “registration request signal” transmitted from the terminal device 2 to the communication device 1 or when it cannot receive the internal state request signal transmitted from the communication device 1 to the terminal device 2. Etc. Here, when such a failure occurs, the user performs the registration operation again for the communication device 1 and the terminal device 2, but it becomes a problem from which procedure to start again. . First, as described above, assuming that the communication device 1 communicates with a plurality of terminal devices 2 in advance, the “device identification code” assigned to the terminal device 2 is stocked. A “device identification code” is assigned to the device 2. Here, when the registration operation has failed after the “device identification code” has already been assigned to the terminal device 2, if the user starts the registration operation again from the beginning, the newly-stocked “device identification” One of the “codes” is transmitted to the terminal device 2.
[0060]
That is, every time such a registration failure is repeated, the communication apparatus 1 assigns a new “device identification code”. The number of “device identification codes” that can be stocked is only as much as the memory capacity of the communication device 1, and the “device identification codes” assigned to the terminal device 2 may eventually be exhausted. In order to prevent this, it is necessary for the user to recognize “at which stage of the registration operation failed”. Therefore, the display unit B10 of the communication apparatus 1 displays the current registration operation transition status based on information from the transition unit B7 and the reception unit B9. If the registration operation fails midway, the process does not proceed to the subsequent state, so the content displayed on the display means B10 stops when the failure occurs. If the user determines that the registration operation has failed after the communication device 1 assigns the “device identification code” to the terminal device 2 based on the content displayed by the display means B10, The “device identification code” is deleted, and the “device identification code” is returned to the stock. Accordingly, even when such a registration failure occurs, it is possible to prevent the stock of “device identification code” stocked by the communication device 1 from being exhausted.
[0061]
On the other hand, the same method can be taken in the terminal device 2. That is, as described above, after the power is turned on, the “device identification code”, “wireless system identification code”, “number of channels / channel group”, “reception cycle”, etc. are stored in the internal nonvolatile memory. Since the transmission means A4 does not transmit the registration information request signal by A3, exchange of “device identification code”, “wireless system identification code”, “number of channels / channel group”, “reception cycle”, etc. with the communication apparatus 1 is normal. For example, when communication fails after exchanging initial information after completion, in order to start again from the beginning, the “device identification code” “wireless system identification code” “number of channels / channel group” “reception cycle” of the nonvolatile memory "Is not deleted, the terminal device 2 will never transmit the registration information request signal. Therefore, the terminal device 2 informs the user of how far the registration operation has progressed using the display means A6, and if the registration is not successful, the registration procedure can be reliably performed again. And it becomes easier to take measures when repeating the same procedure, the construction can be simplified and the time can be shortened, and finally the reliability of the system can be improved.
[0062]
Note that the display means B10 may be configured using a user interface such as a screen or sound, or may be a method of notifying the user in a display state such as an LED. In this case, it is good also as a structure which serves as the display means which communication apparatus 1 has uniquely. Then, it is not necessary to newly provide the display unit B10, and the cost of the communication device 1 can be reduced.
[0063]
In the above description, the role of the display unit B10 of the communication device 1 has been described. However, the display unit A6 of the terminal unit 2 can perform the same operation as shown in FIG. In this case, the display means A6 includes "security sensors" such as "window / door sensor", "human sensor", "emergency call button", "washing machine", "microwave oven", "air conditioner", "refrigerator", "rice cooker", " It may be configured to also serve as display means inherent to “home appliances” such as “water heater”. Then, it is not necessary to newly provide the display unit A6, and the cost of the terminal device 2 can be reduced.
[0064]
(Example 2)
FIG. 3 is a block diagram of a service system according to the second embodiment of the present invention. Those having the same functions as those in FIG. 1 will not be described. In FIG. 3, reference numeral 11 denotes electric field strength measuring means A. Reference numeral 12 denotes electric field strength measuring means B. The electric field strength measuring means A11 is inside the terminal device 2, and the electric field strength measuring means B12 is configured in the communication device 1.
[0065]
In FIG. 3, as in the case of the first embodiment, a case where the “registration mode” does not end normally for some reason between the communication device 1 and the terminal device 2 is considered. For example, this is a case where the communication device 1 cannot receive the “registration information request signal” transmitted from the transmission unit A4 of the terminal device 2 to the communication device 1. That is, in the communication device 1, when the receiving unit B9 is waiting to receive the “registration information request signal” from the terminal device 1 by the transition unit B7, the reception unit B9 is permanently waiting to receive the “registration information request signal”. Therefore, if a predetermined “timeout period” is provided and the “registration information request signal” from the terminal device 1 cannot be received during the “timeout period”, the receiving unit B9 will Is transferred to the transition means B7. Based on this, the transition unit B7 displays, through the display unit B10, “failed due to timeout of reception of registration information request signal”. This is an operation in the first embodiment. At this time, the electric field strength measuring unit B12 measures the electric field strength of the radio wave received by the communication device 1 through the receiving unit B9. Then, the received electric field strength is notified to the display means B12. As a result, the user can know that the “registration information request signal” has failed due to the reception waiting timeout ”and can also know the received electric field strength at that time. When the received electric field strength is extremely small compared to the case where the wireless communication is normally performed between the communication device 1 and the terminal device 2, the user can read “In the current position of the communication device 1 and the terminal device 2, The communication between the two does not work well. Therefore, the same “registration failure” can be prevented by changing the installation location of the communication device 1 or the terminal device 2. On the other hand, if the field strength received by the field strength measuring means B12 is somewhat large in the case of “failed due to reception waiting timeout of“ registration information request signal ””, the installation location of the communication device 1 or the terminal device 2 is bad. Rather, for example, it can be presumed that "registration information request signal" failed due to reception waiting timeout due to jamming waves from other devices, and the registration operation of the communication device 1 and the terminal device 2 succeeded by repeating the same procedure. There is a high possibility of doing. In this way, by displaying not only the “failure cause” but also the received electric field strength on the display means B10, when the communication fails, the user not only “how far and where has failed” Since it is possible to know information such as “the electric field strength is high but failed” and “the electric field strength is low, that is, it failed because the radio wave did not reach”, it becomes easier to take measures when repeating the same procedure. Simplification and reduction of time can be realized, and ultimately the reliability of the system can be further improved.
[0066]
The display means B10 may be configured to use a user interface such as a screen or sound as a method for displaying the electric field intensity measured by the electric field intensity measuring means B12, or as a method for notifying the user in the display state of the LED or the like. Also good. In this case, it is good also as a structure which serves as the display means which communication apparatus 1 has uniquely. Then, it is not necessary to newly provide the display unit B10, and the cost of the communication device 1 can be reduced.
[0067]
In the above description, the role of the electric field strength measuring unit B12 and the display unit B10 of the communication device 1 has been described. However, the electric field strength measuring unit A11 and the display unit A6 of the terminal unit 2 perform the same operation as shown in FIG. It is also possible to do. In this case, the display means A6 includes "security sensors" such as "window / door sensor", "human sensor", "emergency call button", "washing machine", "microwave oven", "air conditioner", "refrigerator", "rice cooker", " It may be configured to also serve as display means inherent to “home appliances” such as “water heater”. Then, it is not necessary to newly provide the display unit A6, and the cost of the terminal device 2 can be reduced.
[0068]
【The invention's effect】
As described above, the present invention recognizes a partner of wireless communication between the terminal device and the communication device in a system including the terminal device and a communication device that performs notification from the terminal device and control of the terminal device. In the registration work, the terminal device informs the user how far the registration operation has progressed, and if the registration is not successful, the registration procedure can be reliably performed again. And it becomes easier to take measures when repeating the same procedure, the construction can be simplified and the time can be shortened, and finally the reliability of the system can be improved.
[Brief description of the drawings]
FIG. 1 is a block diagram of an entire system according to a first embodiment of the present invention.
FIG. 2 is a registration communication sequence diagram between the terminal device and the communication device according to the first embodiment of the present invention.
FIG. 3 is a block diagram of the entire system in Embodiment 2 of the present invention.
FIG. 4 is a system configuration diagram of a conventional example.
FIG. 5 is a diagram showing a software hierarchy in an information processing terminal in a conventional example.
FIG. 6 is a diagram showing operations at the time of starting up a facsimile apparatus and an information processing terminal in a conventional example.
[Explanation of symbols]
1 Communication device
2 Terminal equipment
3 Transfer means A
4 Transmission means A
5 Receiving means A
6 Display means A
7 Transition means B
8 Transmission means B
9 Receiving means B
10 Display means B
11 Field strength measuring means A
12 Field strength measuring means B

Claims (2)

An initial registration system including a terminal device integrated with or connected to a device and a communication device that communicates with the terminal device,
Transition means A for causing the terminal device to shift to a registration operation for communicating with the communication device, and a display for displaying the progress of the registration operation while the transition means A is operating Means A are provided,
Transition means B for causing the communication device to shift to a registration operation for communicating with the terminal device, and a display for displaying the progress of the registration operation while the transition means B is operating Means B are provided,
The display means A displays whether or not information necessary for communication is stored inside the terminal device as a progress status display of the registration operation,
The display means B is an initial registration system that displays whether or not information to be transmitted to the terminal device has been successfully transmitted as a progress status display of a registration operation .   At least one of the terminal device and the communication device has electric field strength measuring means for measuring the strength of radio waves received from the other, and the display means displays contents according to the electric field strength measured by the electric field strength measuring means. The initial registration system according to claim 1, wherein the initial registration system is configured to change the value.

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