JP2004048666A - Catv monitor controller, and catv system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To report the state of a CATV system in response to a request from a manager in a CATV monitor controller which monitors the operation state of an electronic apparatus constituting the system, and performs a report to the telephone terminal of the manager when an abnormality occurs. <P>SOLUTION: The CATV monitor controller includes a measuring instrument 10 for measuring a signal output level from a head amplifier, a controller 20 for determining whether the measurement result of the measuring instrument 10 is correct or not, and a reporting device 30 for reporting the system abnormality to the monitor telephone terminal of the manager in response to a result determined by the controller 20. The reporting device 30 authenticates the monitor telephone terminal when called out from the terminal, receives the request from the terminal, transmits a monitor result by the controller 20 in response to the request, re-starts the controller 20, and, then, discharges the incorporated battery of a backup power source 38, etc. Thus, the manager easily confirms the monitor result again, and also checks the operation of the monitor controller. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a CATV monitoring and control device that monitors the operation state of various electronic devices such as a head amplifier provided at the head end of a CATV system and an amplifier disposed on a transmission line, and notifies a system administrator of the situation when an abnormality occurs. And a CATV system provided with the device.
[0002]
[Prior art]
Conventionally, this type of CATV monitoring and control device measures the output level of a CATV system amplifier, and when the output level is out of a set range, an abnormal signal indicating that fact can be transmitted through the CATV system. 2. Description of the Related Art There has been known an apparatus that transmits data to a terminal by using a vacant channel among various broadcast channels (for example, see Patent Document 1).
[0003]
[Patent Document 1]
JP-A-54-11629
[0004]
[Problems to be solved by the invention]
However, in such a monitoring and control device, the administrator of the CATV system must constantly monitor an available channel to monitor whether there is any abnormality in the amplifier or the like of the CATV system, and the monitoring is extremely troublesome.
[0005]
If the CATV system administrator is not resident in the CATV system service area, the system administrator has no choice but to wait for a report from a subscriber who happens to select a broadcast channel for an abnormal signal. There is also a problem that the user cannot quickly know the abnormality of the amplifier or the like.
[0006]
On the other hand, such a problem can be solved by providing a telephone terminal in the monitoring and control device and, when an amplifier or the like is abnormal, reporting the abnormality directly to the telephone terminal of the system administrator via the telephone line.
However, since the conventional CATV monitoring and control device unilaterally reports the abnormality of the amplifier or the like to the system administrator, even if the abnormality is directly reported to the system administrator using a telephone line. If the system administrator is not near the telephone terminal or if the report cannot be confirmed even near the telephone terminal, the system administrator cannot be notified of the system abnormality.
[0007]
The present invention has been made in view of such a problem, and a CATV monitoring and control apparatus that monitors an operation state of an electronic device included in a CATV system and notifies an administrator of a telephone terminal when an abnormality occurs. It is an object of the present invention to be able to report the status of a monitored device in response to a request.
[0008]
Means for Solving the Problems and Effects of the Invention
In the CATV monitoring and control apparatus according to the first aspect of the present invention, an electronic device (a head amplifier provided at a head end, an amplifier provided on a transmission line, or the like) constituting a CATV system is provided. Of the electronic device to determine whether the electronic device is operating normally. When an abnormality of the electronic device is determined by the monitoring unit or the determination result by the monitoring unit changes, the notification control unit transmits information indicating the fact from the notification telephone terminal to the monitoring telephone terminal on the system administrator side. To be sent.
[0009]
For this reason, according to the CATV monitoring and control apparatus of the present invention, the system administrator uses the monitoring telephone terminal to perform the abnormality (or the abnormality and the return from the abnormality to the normal state) of the electronic device (and the CATV system). It is possible to promptly detect and promptly make arrangements for system recovery.
[0010]
However, since the notification control means only unilaterally sends information indicating that to the monitoring telephone terminal of the system administrator when an abnormality occurs in the system, the system administrator Without confirmation, the system administrator cannot be notified of the system abnormality.
[0011]
Therefore, in the present invention, the CATV monitoring and control device is further provided with an incoming call control means so that the system administrator can check the state of the system as needed.
That is, when the notification telephone terminal receives a call from the external telephone terminal via the telephone line, the incoming call control means determines whether the external telephone terminal is a monitoring telephone terminal on the system administrator side, If the telephone terminal is a monitoring telephone terminal, information indicating a monitoring result by the monitoring means is transmitted from the reporting telephone terminal to the monitoring telephone terminal.
[0012]
As a result, even if the system administrator cannot confirm the notification from the CATV monitoring control device or is away from the monitoring telephone terminal, the system administrator can use the monitoring telephone terminal to transmit the notification telephone on the CATV monitoring control device side. By making a call to the terminal, the monitoring result (that is, the current system state) by the monitoring means can be easily known.
[0013]
Further, according to the present invention, the system administrator can grasp the state of the system without going to the place where the CATV monitoring and control device is installed (generally, the head end), which is extremely convenient. In a unidirectional CATV system constructed to prevent radio interference, the effect can be extremely effectively exerted.
[0014]
In other words, in such a unidirectional CATV system, since the head end including the CATV monitoring and control device is installed in a remote place such as a mountaintop, the system administrator goes to the head end and checks the operation state of the head amplifier and the like. However, if the present invention is applied to such a system, the system administrator can check the operation state of the head amplifier and the like at any time without going to the head end. This can be performed very easily, and the cost required for managing the CATV system can be reduced.
[0015]
Also, when the reporting telephone terminal receives a call from an external telephone terminal via a telephone line, the incoming call control means determines whether the external telephone terminal is a monitoring telephone terminal on the system administrator side. Specifically, when the reporting telephone terminal receives a call from an external telephone terminal via a telephone line, the reporting telephone terminal is connected to the external telephone terminal as described in claim 2, and thereafter, from the external telephone terminal, It may be determined whether or not the external telephone terminal is a monitoring telephone terminal on the system administrator side based on the transmitted identification information, or the external telephone terminal may be connected to the external telephone terminal. Instead, based on the calling time, it may be determined whether or not the external telephone terminal is a monitoring telephone terminal on the system administrator side.
[0016]
By doing so, it is possible to reliably prevent the CATV monitoring and control device from being operated by anyone other than the system administrator.
In particular, with the CATV monitoring and control apparatus according to the third aspect, it is determined whether or not the external telephone terminal is a monitoring telephone terminal based on the calling time, even if the operation is from an external telephone terminal that cannot transmit identification information. Therefore, it is possible to reliably determine whether or not the external telephone terminal that called the reporting telephone terminal is a monitoring telephone terminal on the system administrator side.
[0017]
By the way, according to the present invention, when the monitoring means cannot perform the monitoring operation properly due to some abnormality, the system administrator makes an erroneous notification from the CATV monitoring control device or makes a telephone call to the CATV monitoring control device. This can be detected from the obtained information. Then, when the abnormality of the CATV monitoring and control device is detected in this way, the system administrator goes to the place where the CATV monitoring and control device is installed, and restores the CATV monitoring and control device normally.
[0018]
However, a malfunction of the monitoring means is caused not only by a hardware failure of the monitoring means such as breakage of an electronic component constituting the monitoring means or a disconnection of a signal line, but also by mixing of noise into a logic circuit constituting the monitoring means. Alternatively, it is caused by a runaway of the CPU constituting the monitoring means. If the monitoring means malfunctions due to noise contamination or runaway of the CPU, the problem can be solved by restarting the monitoring means by turning on the power to the monitoring means again.
[0019]
Accordingly, when the system administrator detects an erroneous operation of the CATV monitoring and control device (specifically, monitoring means) from information obtained by making an erroneous notification from the CATV monitoring and control device or calling the CATV monitoring and control device, the monitoring telephone is used. It is preferable that the monitoring means can be restarted by using a terminal. For this purpose, as described in claim 4, the incoming call control means includes a telephone terminal determination means, a command content identification means, and an information transmission means. And restart means.
[0020]
That is, in the CATV monitoring and control apparatus according to claim 4, when the notification telephone terminal is called from the external telephone terminal, first, the telephone terminal determination means determines that the external telephone terminal is the monitoring telephone terminal. Determine whether or not there is, if the external telephone terminal is a monitoring telephone terminal, by the command content identification means, then, the communication time between the monitoring telephone terminal and the reporting telephone terminal, or from the monitoring telephone terminal Based on the transmitted request signal, the contents of the command from the system administrator are identified. If the command content identified by the command content identification means is an information transmission command, the operation of the information transmission means causes the information indicating the result of monitoring by the monitoring means to be transmitted from the reporting telephone terminal to the monitoring telephone terminal. If the command content is a restart command, the monitoring means is restarted by the restart means to initialize the monitoring result.
[0021]
Therefore, according to the CATV monitoring and controlling apparatus according to the fourth aspect, the system administrator operates the monitoring telephone terminal and transmits a restart command to the reporting telephone terminal on the CATV monitoring and controlling apparatus side, so that the CATV monitoring and control apparatus can be operated. The monitoring means on the monitoring control device side can be restarted.
[0022]
In other words, the system administrator can restart the monitoring means by remote control when detecting an erroneous notification from the CATV monitoring control apparatus or a malfunction of the monitoring means from information obtained by calling the CATV monitoring control apparatus. Only when the monitoring means does not return to normal even after this restart, it is only necessary to go to the installation location of the CATV monitoring and control device for repair, and it is possible to efficiently perform the recovery work of the CATV monitoring and controlling device. Become.
[0023]
As described in claim 4, when the system administrator restarts the monitoring means by remote control, it is preferable that the system administrator can confirm the result of the restart. The monitoring control device may be configured as described in claim 5.
[0024]
In other words, in the CATV monitoring and control apparatus according to the fifth aspect, the notification control means causes the notification telephone terminal to transmit information indicating the fact to the monitoring telephone terminal after the activation of the monitoring means. Therefore, the system administrator sends a restart command from the monitoring telephone terminal to the reporting telephone terminal to restart the monitoring unit, and then waits for a response from the reporting telephone terminal. It is possible to confirm whether or not the restart has been achieved, and it is possible to provide a CATV monitoring and control device that is more convenient for the system administrator.
[0025]
On the other hand, when the CATV monitoring and control device becomes inoperable due to a power failure, it may be possible to notify the system administrator of the fact. For this purpose, the CATV monitoring and control device may be configured as described in claim 6 or 7. , A backup power supply is provided in the CATV monitoring and control device, and when the power supply from the external power supply to the device is cut off, the notification control means sends information indicating the fact (that is, power failure) from the notification telephone terminal to the monitoring telephone terminal. May be transmitted.
[0026]
In other words, if the CATV monitoring and control device is configured in this way, the system administrator can detect a power failure in the area where the CATV monitoring and control device is installed by a notification from the CATV monitoring and control device or an inquiry to the CATV monitoring and control device. If the subscriber of the CATV system has a complaint such as not being able to watch television, it is possible to appropriately explain the reason (such as interruption of a transmission signal due to a power outage), which is convenient for the system administrator. The CATV monitoring and control device can be realized.
[0027]
By the way, when the backup power supply is provided in the CATV monitoring and control apparatus, the battery constituting the backup power supply deteriorates, and if the backup power that can be stored in the backup power supply decreases, the function of the backup power supply cannot be sufficiently exhibited. In some cases, the power failure cannot be reported to the monitoring telephone terminal on the system administrator side.
[0028]
Therefore, in the CATV monitoring and control apparatus according to claim 7, as in claim 8, the incoming call control means includes a telephone terminal determination means, a command content identification means, an information transmission means, and a battery power supply. It is preferable that the notification control means be configured to cause the notification telephone terminal to transmit the information indicating that the battery power has been discharged by the battery power supply interrupting means from the notification telephone terminal to the monitoring telephone terminal.
[0029]
In other words, in the CATV monitoring and control apparatus according to the eighth aspect, the incoming call control means, when the notification telephone terminal is called from the external telephone terminal, as in the fourth aspect, first, the telephone terminal determination means. Determines whether or not the external telephone terminal is a monitoring telephone terminal, and if the external telephone terminal is a monitoring telephone terminal, the command content identification means causes communication between the monitoring telephone terminal and the reporting telephone terminal. Based on time or a request signal transmitted from the monitoring telephone terminal, a command content from the system administrator is identified. If the command content identified by the command content identification unit is an information transmission command, information transmission is performed. By the operation of the means, the information indicating the result of monitoring by the monitoring means is transmitted from the reporting telephone terminal to the monitoring telephone terminal.
[0030]
Also, if the command content identified by the command content identification means is a battery capacity confirmation command, the incoming call control means shuts off the power supply path to the backup power supply by the operation of the battery power supply cutoff means and discharges the battery. Let it. Then, when the battery power supply cutoff means cuts off the power supply path to the backup power supply, the battery discharge monitoring control means monitors that the notification telephone terminal is in an operation stop state due to the discharge of the battery, and When the terminal stops operating, the power supply path to the backup power supply is connected to return the reporting telephone terminal to the operating state, and further, information indicating that the battery has been discharged from the reporting telephone terminal is transmitted to the monitoring telephone terminal. To be sent.
[0031]
For this reason, according to the CATV monitoring and control apparatus of the eighth aspect, when the system administrator wants to check the capacity of the battery built in the backup power supply, he operates the monitoring telephone terminal to perform the CATV monitoring and control. What is necessary is just to transmit the capacity confirmation command to the reporting telephone terminal on the device side. That is, in this case, the power supply to the backup power supply is cut off on the CATV monitoring and control device side, and the discharge of the battery is started. After the completion of the discharge of the battery, information indicating that fact is transmitted to the notification telephone terminal. The system administrator transmits a battery capacity confirmation command to the CATV monitoring and control apparatus, and then transmits information indicating the completion of discharge from the CATV monitoring and control apparatus. By measuring the time until the battery is discharged, it is possible to check the time required for discharging the battery, that is, the capacity of the battery.
[0032]
Therefore, according to the CATV monitoring and control apparatus of the eighth aspect, the system administrator can check the capacity of the battery built in the backup power supply by remote control, which makes it very easy to replace the battery. Can be predicted.
[0033]
It should be noted that the inventions described in claims 4 and 5 and the invention described in claim 8 can be combined with each other. If these are combined, the above-mentioned effects that can be exerted individually in each of these inventions can be realized by one CATV monitoring and control device.
[0034]
On the other hand, in the present invention (claims 1 to 8), the telephone terminal for notification may use a telephone terminal connected to a public telephone line by wire, but more preferably, As described above, the reporting telephone terminal may be configured by a wireless telephone terminal that communicates with an external telephone terminal via a wireless telephone line.
[0035]
That is, in this way, the reporting telephone terminal (and the CATV monitoring and control device of the present invention) can be installed anywhere, and the present invention can be easily realized.
For example, in a system in which the headend is installed at a position far from the public telephone line, such as the above-described unidirectional CATV system for preventing radio interference, the reporting telephone terminal is connected to the public telephone line by wire. In such a case, the CATV monitoring and control device cannot be installed near the head end. However, if a wireless telephone terminal is used as the notification telephone terminal, the CATV monitoring and control device is incorporated in the head end and output from the head amplifier. It is possible to accurately detect an abnormality of the transmitted signal (in other words, an abnormality of the head end).
[0036]
Further, the reporting telephone terminal only needs to be able to report information to the monitoring telephone terminal on the system administrator side. For example, using a so-called e-mail transmission function of a mobile phone, the information is system-managed in character data. It may be transmitted to the monitoring telephone terminal of the user, but in this case, when the system administrator calls the reporting telephone terminal of the CATV monitoring and control device in order to confirm the state of the system, However, once the user hangs up the telephone and waits for the e-mail to arrive from the CATV monitoring and control device, the confirmation work becomes cumbersome. Also, when information indicating the status of the system is notified to the system administrator by e-mail, the information cannot be transmitted until the system administrator sees the e-mail. It may take some time for a person to detect that.
[0037]
Therefore, the reporting telephone terminal is provided with a storage medium in which a voice message is stored as information to be transmitted to the monitoring telephone terminal, and the reporting telephone terminal is used for monitoring by the system administrator. When transmitting the information to the telephone terminal, the voice message stored in the storage medium may be reproduced.
[0038]
In other words, this makes it possible to notify the system administrator of the status of the system by voice, and the system administrator can quickly and reliably acquire the information.
Next, an invention according to claim 11 relates to a CATV system including the CATV monitoring and control device according to any one of claims 1 to 10 described above.
[0039]
According to the CATV system, when an abnormality occurs in an electronic device (a head amplifier, an amplifier disposed on a transmission line, or the like) provided with the CATV monitoring and control device, the fact is immediately notified to a system administrator. In addition to this, the system administrator can very easily check the operation state and the like of the electronic device.
[0040]
Therefore, according to the CATV system according to the eleventh aspect, the system administrator can efficiently perform inspection and repair of various electronic devices constituting the CATV system, and stably operate the CATV system. It becomes possible to operate.
[0041]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[Example 1]
FIG. 1 is a block diagram showing the overall configuration of a CATV monitoring and control apparatus according to an embodiment to which the present invention is applied.
[0042]
The CATV monitoring and control apparatus according to the present embodiment monitors the operation state of a head amplifier in a unidirectional CATV system that distributes a television broadcast signal to a subscriber in an area where television broadcast waves are difficult to reach, such as a mountain area. It is used for
That is, the head end of the unidirectional CATV system generally separates a receiving antenna (receiving equipment) for receiving television broadcast waves (terrestrial waves) such as VHF and UHF and a signal received from the receiving antenna for each broadcast channel. A channel for frequency-converting a received signal of each broadcast channel into a system-specific broadcast channel such as a VHF-Low channel (channels 1 to 3), a VHF-High channel (channels 4 to 12), a CATV channel (so-called C channel), or the like. A plurality of head amplifiers each amplifying the received signal of each broadcast channel that has passed through the converter and the channel converter to a desired level, and an output (received signal of each broadcast channel) from each head amplifier is mixed and transmitted. It is composed of a mixer that transmits on the line, and is located in a place where radio waves can easily reach, such as the summit. From being location, even CATV monitoring control apparatus of the present embodiment is disposed outdoors of the head end vicinity.
[0043]
In the CATV monitoring and control apparatus according to the present embodiment, as shown in FIG. 1, a part of the transmission signal transmitted from the head end to the transmission line of the CATV system is fetched via the measurement input terminal Tin, and the signal level is obtained. Is measured for each broadcast channel using the measuring device 10. The measuring device 10 can externally set the broadcast channel of the transmission signal to be measured by the measurement channel setting switch 16, and the broadcast signal of each broadcast channel set via the measurement channel setting switch 16 Are sequentially selected, and a level measuring section 12 for measuring the signal level thereof, and a display section 14 for displaying the signal level measured by the level measuring section 12 for each broadcast channel are provided.
[0044]
Further, the CATV monitoring and control device captures the signal level of each broadcast channel measured by the measuring device 10 in addition to the measuring device 10, and determines whether or not the signal level is within a predetermined normal range. (In other words, whether or not the signal level is normal), a control device 20 for monitoring and controlling the operation state of the CATV monitoring and control device itself, and a signal level or abnormality of the device in the control device 20. Is determined, or when a return from an abnormal state to a normal state is determined, the fact is reported to a specific monitoring telephone terminal owned by the system administrator using a wireless telephone line. The notification device 30, a power supply device 40 for supplying power to these components, and a case (not shown) containing the CATV monitoring and control device are assembled to discharge air in the case to the outside. Both and a blower 50 for introducing outside air into the case.
[0045]
Here, first, the control device 20 sets a time zone (that is, a level measurement time) for capturing the signal level of the transmission signal measured by the measurement device 10 for each broadcast channel (hereinafter, a switch is referred to as a switch). SW) 22, a temperature sensor 24 for detecting the temperature in the case of the CATV monitoring and control device, and a desired voice registered (recorded) in a voice data storage unit 36 described later provided in the notification device 30. A key input unit 26 for manual operation for switching the operation mode of the control device 20 from the normal monitoring mode to another operation mode such as a voice recording mode, and a measurement by the measuring device 10 in the monitoring mode. A monitoring process described later is performed based on the result and a detection signal from the temperature sensor 24. In the voice recording mode, the voice input by the user is converted into digital data. To, by outputting to the reporting device 30, executes the speech registration process for registering the voice data to the voice data storage unit 36 in the notification apparatus 30, and a monitoring control unit 28 for a microcomputer.
[0046]
Next, the notification device 30 has a function as a so-called mobile phone, and controls the wireless telephone terminal 32 that communicates with the wireless telephone base station via the antenna 32a, and controls the wireless telephone terminal 32. A report control unit 34 composed of a microcomputer and various voice data for reporting are stored under the control of the report control unit 34 so that a system administrator can be notified by voice of a head amplifier abnormality or the like. (For example, a tape capable of storing an analog audio signal or a memory capable of storing a digital audio signal, a memory card, a magnetic disk, an optical disk, a magneto-optical disk, etc.) 36 and a power supply from a power supply device 40 A backup power supply 3 that supplies power to the above-described units so that a notification using the wireless telephone terminal 32 can be performed even when the supply is interrupted (that is, at the time of a power failure) And, equipped with a.
[0047]
In this embodiment, the wireless telephone terminal 32 provided in the reporting device 30 corresponds to the reporting telephone terminal of the present invention. Further, the monitoring unit of the present invention is realized by the monitoring device described below and the monitoring process executed by the control device 20, and the notification control unit of the present invention is realized by the notification process described below executed by the notification device 30. The incoming call control means of the present invention is realized by the incoming call processing described later, which is also executed by the notification device 30, and the battery discharge monitoring control means of the present invention is realized by the later-described monitoring stop processing executed by the control device 20. Is done.
[0048]
On the other hand, the power supply device 40 takes in a commercial power supply (for example, AC 100 V) through a power outlet, rectifies and smoothes the power, and supplies a DC voltage for operation of the measuring device 10, the control device 20, and the notification device 30 described above. It comprises a main power supply section 42 for generating a voltage, and a sub power supply section 44 composed of a solar cell assembled in the case of the CATV monitoring and control device.
[0049]
On a power supply path from the main power supply section 42 to the measurement device 10 and the notification device 30, a normally closed power supply SW 46 that can be controlled by the control device 20 is provided. Is used to measure the internal temperature of the CATV monitoring and control device. When the internal temperature is out of the operable temperature range of the measuring device 10, the power supply SW 46 is turned off for the purpose of protecting the measuring device 10, and the measuring device 10 Stop the operation.
[0050]
The backup power supply 38 in the notification device 36 is connected to the main power supply unit 42 via the power supply SW 46, and the backup power supply 38 is connected to the main power supply unit 42 when power is supplied via the power supply SW 46. By supplying the supplied power as it is to the notification device 30 and charging the internal battery with the supplied power, the power supply SW 46 is turned off, or the power supply from the outside to the main power supply unit 42 is cut off due to a power failure, When power is not supplied to the backup power supply 38 from the outside, the power supply to the notification device 30 is continued by the power stored in the internal battery.
[0051]
Further, the sub power supply unit 44 is used to generate electric power for driving the blower 50. That is, the blower 50 is provided with a blower drive switch (blower SW) 48 that is turned on and off by the control device 20, and the control device 20 detects the temperature inside the device detected by the temperature sensor 24. If the temperature exceeds the set temperature, it is determined whether the power supply voltage obtained by the sub power supply section 44 is equal to or higher than the set level, and if the temperature is equal to or higher than the set level, the output (power voltage) from the sub power supply section 44 is supplied to the blower 50. On the other hand, when the power supply voltage obtained by the sub power supply unit 44 does not reach the set level, the output voltage from the main power supply unit 42 is supplied to the blower 50 to rotate the blower 50.
[0052]
Next, a monitoring process executed by the control device 20 (specifically, the monitoring control unit 28) when the control device 20 is operating in the monitoring mode, and a monitoring process executed by the notification device 30 (specifically, the notification control unit 34). The reporting process will be described.
First, FIG. 2 is a flowchart illustrating a monitoring process performed by the control device 20.
[0053]
This monitoring process is a process that is repeatedly executed by the monitoring control unit 28 after the control device 20 is activated by turning on the power. When the process is started, the notification device is set in S100 (S indicates a step). An “activation” signal indicating that the device has been activated is output to 30. When receiving the "start" signal, the notification device 30 calls a pre-registered monitoring telephone terminal of the system administrator by a notification process described later, and the device is notified to the system administrator. Notify by voice that it has started.
[0054]
Next, in S110, a broadcast channel (that is, a broadcast channel currently being monitored) from which the signal level is to be taken from the measuring device 10 is specified based on the level measurement time set by the time SW 22, and the broadcast channel of the broadcast channel is specified. The signal level is read from the measuring device 10. Then, in S120, it is determined whether or not the read signal level of each broadcast channel is within a predetermined normal level range (that is, whether or not there is a level abnormality).
[0055]
If it is determined in S120 that there is a level abnormality, the process proceeds to S130, and the broadcast channel (hereinafter, referred to as a level abnormality channel) of the transmission signal for which the level abnormality has been determined is set to the VHF-Low described above. Channel, VHF-High channel, and CATV channel, and then in S140, the system administrator is notified of the signal level by the system administrator for each channel group including the abnormal channel level grouped in S130. A “level abnormality” signal for reporting the abnormality is output to the notification device 30. By this processing, the notification device 30 calls the monitoring telephone terminal on the system administrator side, and notifies the system administrator that there is an abnormality in the transmission signal of the channel group including the level abnormal channel.
[0056]
On the other hand, if it is determined in step S120 that there is no level abnormality, the process proceeds to step S145, in order to notify the system administrator that all transmission signals of each broadcast channel output from the head amplifier are normal. A “level normal” signal is output to the notification device 30. By this processing, the notification device 30 calls the monitoring telephone terminal on the system administrator side and notifies the system administrator that all transmission signals of each broadcast channel output from the head amplifier are normal. I do.
[0057]
When the processing of S140 or S145 is executed in this way, the process proceeds to S150, and the current temperature (internal temperature) in the apparatus detected by the temperature sensor 24 is read. Then, in S160, it is determined whether or not the read internal temperature is equal to or higher than a temperature at which the blower 50 should be driven (blower drive temperature). If the internal temperature has not reached the blower drive temperature, the process proceeds to S200. Then, the drive of the blower 50 is stopped by turning off the blower SW 48.
[0058]
Conversely, if the internal temperature has reached the blower driving temperature, the flow shifts to S170 to determine whether or not the output (electric power) from the sub power supply unit 44 is normal (in other words, a level sufficient to drive the blower 50). It is determined whether or not the power has reached the power level. If the output of the sub power supply unit 44 is normal, the process proceeds to S180, the blower SW 48 is switched to the sub power supply unit 44 side, and the blower 50 is On the other hand, if the output of the sub power supply unit 44 is not normal, the process proceeds to S190, the blower SW 48 is switched to the main power supply unit 42 side, and the blower 50 is driven by the output from the main power supply unit 42. .
[0059]
Next, in S210, it is determined whether or not the internal temperature read in S150 is within a preset temperature range (specifically, within an operable temperature range of the measuring device 10). If the internal temperature is not within the set temperature range, the operation of the measuring device 10 is stopped by turning off the power supply SW 46 in S220, and the system administrator is notified of the fact in S230. Then, an “temperature abnormality” signal is output to the notification device 30. By this processing, the notification device 30 calls the monitoring telephone terminal on the system administrator side, and notifies the system administrator that the level monitoring has been interrupted due to abnormal temperature.
[0060]
On the other hand, when it is determined in S210 that the internal temperature is within the set temperature range, the power supply SW 46 is turned on in S240 to operate the measuring apparatus 10, and in S250 that follows. In order to notify the system administrator, a “normal temperature” signal is output to the notification device 30. By this processing, the notification device 30 calls the monitoring telephone terminal on the system administrator side, and notifies the system administrator that the level monitoring has been restarted.
[0061]
Then, after ending the process of S230 or S250, the control device 20 shifts to S110, and repeatedly executes the series of processes of S110 to S240.
Next, FIG. 3 is a flowchart illustrating a notification process performed by the notification device 30 (specifically, the notification control unit 34).
[0062]
This notification process is a process that is repeatedly executed by the notification control unit 34 after the notification device 30 is activated by turning on the power. When the process is started, the output from the control device 20 is read in S300. Then, in S310, it is determined whether or not an operation signal output during normal operation is output from the control device 20 to determine whether or not the control device 20 is operating normally. If the control device 20 is operating normally, the process proceeds to S320. If the control device 20 is not operating normally, the process proceeds to S360.
[0063]
In S320, the operation status of the device to be notified to the system administrator is identified based on the above-described various status signals currently output from the control device 20. Then, in S330, it is determined whether the identified operation state includes information that has not been reported to the system monitor. If all the operation states have been reported to the system administrator, the process returns to S300. Conversely, if it is determined in S330 that the operation state currently output from the control device 20 includes information that has not been reported to the system administrator, the process proceeds to S340, and the process proceeds to S340. From the various voice messages registered in advance, a voice message corresponding to the unreported operation state is selected, and the process proceeds to S350.
[0064]
In step S340, for example, if the "start" signal has been output from the control device 20 and the content has not been reported to the system administrator yet, the "CAT system monitoring and control device of the XX system" is read from the storage medium. Has been launched. "
[0065]
Similarly, when the “level abnormality” signal is output from the control device 20, audio data representing a level abnormality channel group, for example, “a level drop has occurred in the VHF-High channel of the XX system” from the storage medium. If a "normal" signal is output from the control device 20 when a voice message such as "That was done" is selected, "the level of the transmission signal of the XX system has returned to normal" from the storage medium. Choose a voice message like
[0066]
Similarly, when the “temperature abnormality” signal is output from the control device 20, the “CAT system monitoring / control device of the XX system stops the signal level monitoring operation due to the temperature abnormality, for example, from the storage medium. When a voice message such as "in progress" is selected and the "normal temperature" signal is output from the control device 20, the CATV monitoring and control device of the XX system returns from the storage medium to the normal temperature. Therefore, the signal level monitoring operation has been restarted. "
[0067]
On the other hand, when it is determined in S310 that the control device 20 is not operating normally, it is determined that the control device 20 is not operating due to a power failure, and the process proceeds to S360. Then, in S360, it is determined whether or not the power failure has been reported to the system administrator. If the “power failure” has already been reported, the process directly proceeds to S300, and the “power failure” If not yet notified, the process proceeds to S370, and from among various voice messages registered in advance in the storage medium, a voice message for notifying that the device is currently out of power, for example, “ The CATV monitoring and control apparatus of the XX system has stopped the monitoring operation due to a power failure ", and the process proceeds to S350.
[0068]
In step S350, a monitoring telephone terminal registered in advance by the system administrator is called via the wireless telephone line. In step S380, it is determined whether an incoming signal has been transmitted from the monitoring telephone terminal. I do. If no incoming signal is transmitted, it is determined in S410 whether or not the time during which the monitoring telephone terminal is being called has exceeded a set time (for example, several tens of seconds to several minutes). If not, the flow returns to S380 to wait for an incoming signal to be transmitted from the monitoring telephone terminal.
[0069]
In performing the determination process in S410, the calling time of the monitoring telephone terminal may be measured using a timer (a software timer or the like), or the number of ringing sounds for calling the monitoring telephone terminal may be determined. The calling time may be measured (counted) by counting.
[0070]
Next, in S380, when it is determined that an incoming signal has been transmitted from the monitoring telephone terminal, the process proceeds to S390, where the voice message selected in S340 or S370 is reproduced, and Send a voice message. As a result, the system administrator can know from the reproduced voice message that the transmission signal level has dropped, the transmission signal has returned to a normal level, or a change in the operation state of the CATV monitoring and control device. Accordingly, the headend in which the CATV monitoring and control device is installed can be inspected and repaired.
[0071]
Further, after the voice message is reproduced in S390, the operation state corresponding to the reproduced voice message is stored in the memory in the subsequent S400 as being notified that the voice message has been reported. The telephone line connected to call the terminal is cut off, and the process returns to S300. The processing of S420 is also executed when it is determined in S410 that the calling time of the monitoring telephone terminal has reached the set time.
[0072]
As described above, in the CATV monitoring and control apparatus according to the present embodiment, the signal level of the transmission signal transmitted from the head end onto the transmission line of the CATV system is measured for each broadcast channel, and the signal level is changed from the normal level. When it comes off or returns to the normal level, it notifies the system administrator of this fact using a wireless telephone line. For this reason, the system administrator appropriately determines whether the headend (head amplifier or receiving equipment) should be inspected or repaired promptly based on the information reported from the CATV monitoring and control device to the monitoring telephone terminal. This makes it possible to judge, and the maintenance of the CATV system can be performed optimally.
[0073]
Further, the CATV monitoring and control apparatus of the present embodiment monitors not only the signal level of the transmission signal output from the head end but also its own operation state, and the apparatus can perform a normal monitoring operation due to a power failure or abnormal temperature. If it has disappeared or has returned to normal operation, it is notified to the system administrator using a wireless telephone line. For this reason, the system manager can not only grasp the state of the transmission signal output from the head amplifier, but also grasp the state of the CATV monitoring and control device itself, and can more appropriately operate the CATV system. Can be determined.
[0074]
Further, the CATV monitoring and control apparatus according to the present embodiment performs various kinds of notifications to the monitoring telephone terminal on the system administrator side by voice. For this reason, the system administrator can reliably receive the notification. In addition, since the system administrator only has to listen to the voice message by ear, the contents of the report can be grasped very easily.
[0075]
By the way, each of the above-described processes is a process of unilaterally reporting the status of the head amplifier and the CATV monitoring and control device from the CATV monitoring and control device side to the monitoring telephone terminal of the system administrator. However, the system administrator cannot confirm the status of the CATV system as necessary.
[0076]
In view of this, the CATV monitoring and control apparatus according to the present embodiment allows the system administrator to check the state of the CATV system by requesting desired information from the notifying apparatus 30 using the monitoring telephone terminal. The notification device 30 itself can be remotely operated.
[0077]
Hereinafter, an incoming call process performed by the notification device 30 (specifically, the notification control unit 34), and a monitoring stop process performed by the control device 20 (specifically, the monitoring control unit 28) as a result of the incoming call process. Will be described.
First, FIG. 4 is a flowchart illustrating an incoming call process performed by the notification device 30.
[0078]
This incoming call process is a process executed when the wireless telephone terminal 32 constituting the notification device 30 receives a call from an external telephone terminal. When the process is started, the telephone line is disconnected in S500. Connect and request an identification code from the external telephone terminal. This request is made, for example, by a voice message such as "Please input your password".
[0079]
Then, if the person who called the notification device 30 is a system administrator, the system administrator operates the external telephone terminal according to this message and inputs a password, and from the external telephone terminal to the notification device 30, Since a tone signal corresponding to the personal identification number is transmitted, in S510, an identification code (personal identification number) is recognized from the tone signal and whether or not the identification code belongs to a preset system administrator is determined. Is determined.
[0080]
In the present embodiment, whether the person who called the notification device 30 is a system administrator is identified by a tone signal (personal identification number) transmitted by operating the external telephone device by the system administrator. However, it may be determined from the telephone number transmitted from the external telephone terminal whether the external telephone terminal is a monitoring telephone terminal on the system administrator side. Then, in the present embodiment, the processing of S500 and S510 functions as the telephone terminal determination means of the present invention.
[0081]
Next, in S510, if it is determined that the pre-registered identification code could not be obtained from the external telephone terminal, the flow shifts to S520, where an operation disapproval message indicating that the CATV monitoring and control device cannot be remotely operated is sent. After the transmission to the external telephone terminal, the telephone line is cut off in S690, and the incoming call processing ends.
[0082]
On the other hand, if it is determined in S510 that the formal identification code has been obtained from the external telephone terminal (identification code OK), the external telephone terminal that called the reporting device 30 is the monitoring telephone terminal of the system administrator. Then, the process shifts to S530 to transmit an operation permission message to the external telephone terminal.
[0083]
The operation disapproval message may be, for example, a voice message such as “authentication is not possible” or a predetermined buzzer sound such as “boo”. Similarly, the operation permission message may be, for example, a voice message such as “Authentication has been completed. Please enter a control code” or a predetermined buzzer sound such as “Pee”.
[0084]
Next, when the operation permission message is transmitted in S530, the system administrator operates the external telephone terminal (in this case, the monitoring telephone terminal) to input a control code preset for an operation command, Since a tone signal corresponding to the control code is transmitted from the monitoring telephone terminal to the notifying device 30, at S540, it is determined whether a tone signal indicating the control code has been transmitted from the monitoring telephone terminal (in other words, whether or not a tone signal indicating the control code has been transmitted). Then, it is determined whether an operation command has been input.
[0085]
Then, if the operation command has not been input, it is determined whether or not a predetermined time (for example, one minute) has elapsed after the transmission of the operation permission message in subsequent S550. If the predetermined time has not elapsed, the process returns to S540 again. By shifting, waiting for an operation command to be input, and when a predetermined time has elapsed after the transmission of the operation permission message, there is no request from the system administrator to the CATV monitoring and control device, and the telephone line is determined in S690. Is interrupted, and the incoming call processing ends.
[0086]
On the other hand, when it is determined in S540 that an operation command has been input, in S560, the content of the command from the system administrator is identified based on the received control code. In the present embodiment, as the control code, a transmission command for reporting again the latest information (voice message) transmitted to the monitoring telephone terminal of the system administrator in the above-described reporting process, and the control device 20 is reset and restarted. The three types of control codes corresponding to the three types of commands, that is, the restart command to be executed and the capacity check command for checking the capacity of the built-in battery of the backup power supply 38 are set in advance. In S560, the received control code is It is determined which of these commands corresponds to the control code. Note that the processing of S560 corresponds to the command content identification means in the incoming call control means of the present invention.
[0087]
Next, in S570, the command content identified in S560 is the information transmission command, and it is determined whether or not the information (voice message) previously reported in the reporting process is to be retransmitted.
If it is determined in step S570 that the command content from the system administrator is an information transmission command, the process proceeds to step S580, and the operation state stored in the memory as notified in step S400 of the notification process. The latest operation state is read from among them, and in S590, a voice message corresponding to the operation state is selected from various voice messages registered in advance in the storage medium, and the voice message is reproduced in S600. Thereby, the voice message is transmitted to the monitoring telephone terminal. As a result, the system administrator can detect (or reconfirm) the current operating state of the CATV monitoring and control device from the reproduced voice message. The processing of S580 to S600 corresponds to the information transmitting means in the incoming call control means of the present invention.
[0088]
On the other hand, if it is determined in S570 that the command content from the system administrator is not an information transmission command, the flow shifts to S630, where the command content from the system administrator is a battery capacity confirmation command. It is determined whether or not there is. Then, in S630, when it is determined that the command content from the system administrator is a capacity confirmation command, the process proceeds to S640, in which the power supply SW 46 is turned off to the control device 20 and the CATV monitoring control device The monitoring stop command to stop the monitoring operation is output. Then, in S650, a standby message indicating that the command has been received is transmitted to the monitoring telephone terminal on the system administrator side, and the flow shifts to S680.
[0089]
The process of S640 is a process for forcibly turning off the power supply SW 46 to the control device 20 by outputting a monitoring stop command to the control device 20. It corresponds to a means. Further, when receiving a monitoring stop command from the notification device 30, the control device 20 executes a monitoring stop process shown in FIG. 5, which will be described later.
[0090]
Next, in S630, when it is determined that the content of the command from the system administrator is not a capacity confirmation command, the process proceeds to S660, and the content of the command from the system administrator is reset by the controller 20. It is determined whether it is a start command. Then, in S660, when it is determined that the command content from the system administrator is a restart command, the process proceeds to S670, in which a reset signal is output to the microcomputer constituting the control device 20. Then, the control device 20 is reset (restarted), and in S650, after transmitting a standby message indicating that the command has been received to the monitoring telephone terminal on the system administrator side, the process proceeds to S680.
[0091]
Note that the process of S670 corresponds to a restart unit in the incoming call control unit of the present invention. After the execution of the process of S670, the control device 20 is restarted, so that the system administrator cannot obtain information from the CATV monitoring control device because the microcomputer constituting the control device 20 runs away. In such a case, by transmitting a restart command to the CATV monitoring and control device using the monitoring telephone terminal, the control device 20 can be initialized by remote control, and the CATV monitoring and control device can be returned to normal operation. .
[0092]
In addition, the control device 20 outputs the “start” signal indicating that the device has been activated to the notification device 30 by executing the above-described processing of S100 immediately after the activation, so that the notification device 30 A voice message indicating that the device has been activated is transmitted to the telephone terminal. For this reason, after transmitting the restart command to the CATV monitoring and control device, the system administrator can confirm that the control device 20 has been actually reset and restarted.
[0093]
Next, when the message reproduction processing in S600 and S650 is completed, or when it is determined in S660 that the command content from the system administrator is not a restart command (that is, a command from the system administrator). If the content cannot be identified), the flow shifts to S680, and whether or not the monitoring telephone terminal on the system administrator side has cut off the telephone line (in other words, whether or not the system administrator has disconnected the telephone). Judge.
[0094]
If the system administrator has not hung up the telephone, the flow shifts to S530 again, and the processing of the shift to S530 is executed again. Conversely, if it is determined in S680 that the system administrator has hung up the telephone, the flow returns to S690. Then, the notification device 30 also cuts off the telephone line and terminates the incoming call processing.
[0095]
Next, a description will be given of a monitoring stop process executed by the control device 20 (specifically, the monitoring control unit 28) when the notification device 30 outputs a monitoring stop command in the process of S640.
As shown in FIG. 5, in the monitoring stop processing, first, in step S710, the power switch 46 is turned off. Then, the power supplied from the external power supply to the backup power supply 38 via the main power supply unit 42 is cut off, so that the power is supplied from the backup power supply 38 to the notification device 30 from the internal battery of the backup power supply 38. After that, the discharge of the built-in battery is continued. When the power for operation cannot be supplied from the backup power supply 38 to the notification device 30 due to the discharge, the notification device 30 stops operating.
[0096]
Therefore, in subsequent S720, by monitoring the output signal from the notification device 30 to the control device 20, it is determined whether or not the notification device 30 has stopped operating, so that the notification device 30 stops operating. wait. When it is determined in S720 that the notification device 30 has stopped operating (in other words, when the internal battery of the backup power supply 38 is discharged until the notification device 30 cannot be driven), the process proceeds to S730. Then, the power switch 46 is turned on to return the notification device 30 to the normal operation.
[0097]
Note that the power supply to the measuring device 10 is also cut off from the time when the power supply switch 46 is turned off in S710 to the time when the power supply switch 46 is turned on in S730, and during this time, the monitoring operation by the CATV monitoring and control device is stopped. .
In this manner, when the power switch 46 is turned on in S730 to return the notification device 30 to the normal operation, the process proceeds to S740. Is output, and the process ends. As a result, the notification device 30 calls the monitoring telephone terminal on the administrator side by the above-described notification process, and notifies the system administrator that the device has been activated.
[0098]
Therefore, the system administrator uses the monitoring telephone terminal to transmit a battery capacity confirmation command to the CATV monitoring and control apparatus, and then measures the time until a voice message indicating that the CATV monitoring and control apparatus has started is received. Thus, the time during which the notification device 30 can be driven by the built-in battery of the backup power supply 38, in other words, the capacity of the built-in battery can be confirmed, and the time for replacing the built-in battery can be predicted.
[0099]
As described above, the CATV monitoring and control device of the present embodiment not only unilaterally reports the status of the head amplifier and the CATV monitoring and control device to the monitoring telephone terminal of the system administrator side, but also transmits the status from the system administrator side. In accordance with a command transmitted using the monitoring telephone terminal, the status of the head amplifier and the CATV monitoring and control device is retransmitted, the control device 20 is restarted, and the internal battery of the backup power supply 38 is forcibly discharged. Further, after the control device 20 is restarted, the fact is notified to the monitoring telephone terminal, and after the discharge of the built-in battery, the power supply to the backup power supply 38 is restarted to return the notification device 30 to the normal operation. To the monitoring telephone terminal.
[0100]
Therefore, according to the CATV monitoring and control device of the present embodiment, the system administrator can check the status of the head amplifier and the CATV monitoring and control device at any time, restart the control device 20 and check the battery of the backup power supply 38. Can be easily performed by remote control using a monitoring telephone terminal. Therefore, according to the CATV monitoring and control apparatus of the present embodiment, an optimal CATV monitoring and control apparatus that enables the system administrator to easily and efficiently manage the CATV system.
[0101]
As mentioned above, although one Example of this invention was described, this invention is not limited to the said Example, A various aspect can be taken.
For example, in the above embodiment, when the monitoring telephone terminal of the system administrator is called in the notification process (FIG. 3), an incoming signal is transmitted from the monitoring telephone terminal even if the calling time has elapsed for a set time or more. If not, the telephone line will be cut off as it is, so if the system administrator does not answer the phone even if the supervisory phone terminal is called to send a message, then the system administrator will answer the phone. Until the message can be transmitted, the processes from S350 onward for calling the monitoring telephone terminal are executed many times.
[0102]
Therefore, in the above embodiment, if the system administrator temporarily leaves the monitoring telephone terminal, the system administrator can answer the telephone by calling the monitoring telephone terminal again, which causes a problem. However, for example, even if the system administrator confirms the ringing tone, it is not possible to answer the telephone for any reason, or the system administrator has intentionally turned off the power of the monitoring telephone terminal. In such a case, the process of calling the monitoring telephone terminal is repeatedly executed for a long time, so that the calling process of the monitoring telephone terminal is not only useless, but in some cases, the It may be uncomfortable.
[0103]
For this reason, in the above embodiment, the number of times the system administrator calls the monitoring telephone terminal when the system administrator does not answer the telephone (the number of retries) is limited, and when the number of retries reaches a predetermined number, the monitoring telephone Calling the terminal is prohibited, and then the contents of the abnormality change and call the monitoring telephone terminal, or if there is a call from the system administrator, the administrator telephone terminal reports via the telephone line. When connected to the device 30, the report disabling information indicating that the message could not be reported in the past, for example, a message such as “A report was made around ○ month × day △ but there was no response”, or , Or a combination of these electronic sounds and messages may be transmitted to the system administrator.
[0104]
In order to realize such a notification operation, a part of the notification processing (FIG. 3) and the reception processing (FIG. 4) executed by the notification device 30 may be changed as shown in FIGS. Good.
That is, in the notification process shown in FIG. 6, when the telephone line is cut off in S420, the process proceeds to the subsequent S430, and by executing the processes of S380 to S410, a predetermined message is sent to the management telephone terminal. It is determined whether or not the transmission has been completed (whether or not the notification has been completed). If the notification has not been completed, it is determined in S440 whether or not the management telephone terminal has been called at least a predetermined number of times.
[0105]
If the management telephone terminal has not been called more than a predetermined number of times (in other words, if the number of retries described above has not reached the limit value), the process proceeds to S350, and the processes after S350 are executed again. If the number of retries has reached the limit value, the operation state corresponding to the voice message to be transmitted to the management telephone terminal this time is stored in S450 as non-reportable contents, and the report is made in S460. After setting the disable flag, the process proceeds to S300. If it is determined in S430 that the notification has been completed, the notification disable flag is reset in S470, and the process proceeds to S300.
[0106]
Further, in the notification processing shown in FIG. 6, the processing from reading the output from the control device 20 in S300 to selecting the voice message for notification in S340 or S370 is basically the same as the notification processing shown in FIG. However, when it is determined in S330 or S360 whether the operation state or the power failure state identified to be reported is the content that has already been reported to the system monitor, the process proceeds to S400. It is determined that not only the stored report content (actually reported operating state) but also the report disabled content stored in S450 is the reported operating state.
[0107]
As a result, if the system administrator does not answer the telephone even if the management telephone terminal is called a predetermined number of times, re-reporting of the report content is prohibited, and thereafter, when the operation state of the device further changes. The processing of S340 or S370 is executed only for.
[0108]
Further, when the processing of S340 or S370 is executed and a new voice message to be transmitted to the management telephone terminal is selected, it is determined in S342 whether the report disable flag is set or reset. If the report disable flag has been reset, all operation states determined to be required to be reported in the past have already been reported, so the process directly proceeds to S350 for transmitting voice messages after S350. (S380-S410). Conversely, if the report disable flag is set, the voice message that has been determined to be reported in the past is still reported because the system administrator is not on the phone. Since the process has not been completed, the process proceeds to S340, and the above-mentioned report disable information indicating that the message could not be reported in the past is added to the voice message (selected message) selected in S340 or S370, and then the process proceeds to S350. I do.
[0109]
As a result, in the processing after S350, when the system administrator picks up the telephone of the management telephone terminal (in other words, when the telephone is answered), the report disable information (message or electronic mail) indicating that the message could not be transmitted in the past. Sound or a combination thereof) is transmitted to the system administrator, and the system administrator can know the previous notification.
[0110]
Next, in the incoming call processing shown in FIG. 7, in S500, an identification code is requested to the external telephone terminal, and in S510, the external telephone terminal is identified by the system administrator from the password transmitted from the external telephone device. When it is determined that the terminal is the monitoring telephone terminal on the side, by executing S512, it is determined whether the report disable flag is currently set or reset.
[0111]
If the report disable flag is reset, all operation states determined to be required to be reported in the past have already been reported, so the process directly proceeds to S530, and the above-described processes after S530 are executed. Conversely, if the report disable flag is set, the voice message determined to be reported in the past has not been reported yet because the system administrator is not on the phone, so the process proceeds to S514. Then, the above-mentioned message disabling information indicating that the message could not be reported in the past is transmitted, and in step S516, the message disabling flag is reset. Then, the process shifts to S530 to execute the above-described processes after S530. I do.
[0112]
As a result, even when the system administrator calls the device, if there is a voice message that could not be reported in the past, the fact can be reported to the system administrator. Further, when the report disable information is transmitted in the incoming call process, the report disable flag is reset, so that the report disable information transmitted this time is not transmitted again by the subsequent report process.
[0113]
As described above, if the notification processing and the reception processing performed by the notification device 30 are changed as shown in FIGS. 6 and 7, the number of retries for calling the management telephone terminal on the system administrator side is limited, Unnecessary calling of the management telephone terminal can be prevented, and if the system administrator cannot answer the telephone when calling the management telephone terminal, the management telephone terminal is repeatedly called. This can prevent the system administrator from feeling uncomfortable.
[0114]
Further, even if the system administrator cannot answer the telephone, when the notification device 30 is connected to the management telephone terminal on the system administrator side, the system disables the notification disable information indicating that fact. Can be transmitted to the user, so that the system administrator can know from the report disable information that a report has been made in the past. In this case, the past status can be reported to the system administrator by transmitting not only the report date and time but also the message scheduled to be reported at that time as the report disable information, so that the system administrator can be notified. Can perform more optimal system management.
[0115]
Next, in the above embodiment, when the system administrator sends a battery capacity confirmation command to the device via the monitoring telephone terminal, the power supply SW 46 is turned off, so that the backup power supply 38 and the measuring device 10 The power supply line from the main power supply unit 42 to the backup power supply 38 and the power supply line from the main power supply unit 42 to the measurement device 10 are described as shown in FIG. Power supply switches 46a and 46b are provided, respectively, and when the system administrator sends a battery capacity check command to the apparatus, only the power supply to the backup power supply 38 is cut off by turning off only the power supply switch 46a. You may make it.
[0116]
In this case, during the check of the battery capacity, not only the control device 20 but also the measuring device 10 can operate normally. Therefore, the control device 20 performs the monitoring stop process shown in FIG. After the power switch 46a is turned off (S710), the monitoring process shown in FIG. 2 is separately executed during the waiting period until the notification device 30 stops operating (when S720 is repeatedly executed). When it is determined in the processing that the apparatus is abnormal, the power switch 46a may be turned on to cause the notification apparatus 30 to operate normally.
[0117]
In this way, even while checking the capacity of the battery, monitoring using the measuring device 10 can be continued, and in the event of an abnormality, the fact can be promptly notified to the system administrator. In this case, it is preferable to transmit a message indicating that the battery capacity check has been interrupted when the abnormality is notified.
[0118]
On the other hand, in the above embodiment, the case where the CATV monitoring and control apparatus of the present invention is applied to a unidirectional CATV system has been described. However, the CATV monitoring and control apparatus of the present invention is applicable to a bidirectional CATV system which is a so-called urban type system. Can be similarly applied. Then, in the bidirectional CATV system, not only an abnormality of the head amplifier (specifically, an abnormality of a transmission signal output from the head amplifier for each broadcast channel) but also an uplink transmission signal is used to provide a transmission line. If the present invention is applied to a CATV monitoring and control device for a bidirectional CATV system, the system administrator can use a monitoring telephone terminal to monitor the status of the head amplifier. In addition to this, it is possible to check the status of various transmission devices arranged on the transmission line.
[0119]
Further, in the above embodiment, the control device 20 determines the level of the transmission signal and the operation state of the device, and continuously outputs the determination result. The voice message is specified and reported to the system administrator. Further, the response to the request from the monitoring telephone terminal on the system manager side is described as being executed by the reporting device 30 except for driving the power switch 46. However, by configuring the notification device 30 as a simple mobile phone, the notification device 30 can be used as a relay device with a monitoring telephone terminal on the system administrator side, and it is necessary to transmit a notification voice message or a voice message. Alternatively, all the processing for the request from the monitoring telephone terminal on the system administrator side may be performed centrally on the control device 20 side. However, in this case, it is necessary to supply power from the backup power supply 38 to the control device 20.
[Example 2]
Next, another type of CATV monitoring and control apparatus will be described.
[0120]
In the CATV monitoring and control apparatus described in detail in the first embodiment, in the incoming call processing (see FIG. 4), whether the person who called the wireless telephone terminal 32 is a system administrator determines whether or not the person who made the call is the system administrator. This was performed by recognizing an identification code (personal identification number) from a tone signal transmitted by a telephone terminal operated by the person making the call. After the recognition of the identification code, the control code was recognized from the tone signal transmitted from the telephone terminal operated by the system administrator, and the battery capacity was confirmed, the control device 20 was restarted, and the like.
[0121]
However, since there are many telephone terminals that cannot be used to transmit tone signals, there is a possibility that the above-mentioned incoming call processing (see FIG. 4) cannot be performed depending on the telephone terminals used by the system administrator. Can be Therefore, a CATV monitoring and control apparatus according to a second embodiment, which will be described in detail below, is capable of performing an incoming call process even for a telephone terminal that cannot transmit a tone signal.
[0122]
Here, the CATV monitoring and control device described in detail in the first embodiment differs from the CATV monitoring and control device in the present embodiment (second embodiment) in the incoming call processing (the flowchart in FIG. 4) executed by the notification device 30. Only the other configuration is the same. Therefore, the same parts as those of the CATV monitoring and control apparatus according to the first embodiment are denoted by the same reference numerals, and description thereof will be omitted, and only different parts will be described in detail.
[0123]
The incoming call processing in the present embodiment (Embodiment 2) will be described with reference to FIG. FIG. 9 is a flowchart showing the incoming call processing executed by the notification device 30.
In the incoming call process shown in FIG. 9, in S800, it is determined whether or not the wireless telephone terminal 32 included in the notification device 30 receives a call from an external telephone terminal. If it is determined that a call has not been received from an external telephone terminal, S800 is repeated. If it is determined that a call has been received from an external telephone terminal, the process proceeds to S810.
[0124]
In S810, the call time during which the wireless telephone terminal 32 is called is monitored without connecting to an external telephone terminal. Then, when this call is completed, the process shifts to S820 to determine whether the call time is within the allowable range.
If it is determined in S820 that the call time is not within the allowable range, the process returns to S800, and if it is determined that the call time is within the allowable range, the process proceeds to S830.
[0125]
Note that the details of the process of S820 will be collectively described later, and thus the description thereof will be omitted.
In S830, it is determined whether or not a certain time has elapsed since the end of the monitoring of the call time performed in S810, and it is determined that a certain time (for example, 3 minutes + the call time set in S840) has elapsed. Returning to S800, if it is determined that the predetermined time has not elapsed, the process proceeds to S840.
[0126]
Next, the processing of S840 to S870 is a repetition of the processing of S800 to S830, and in S840, it is determined whether or not the wireless telephone terminal 32 constituting the notification device 30 receives a call from an external telephone terminal. I do.
If it is determined that a call has not been received from an external telephone terminal, the process returns to S830, and if it is determined that a call has been received from an external telephone terminal, the process proceeds to S850.
[0127]
In S850, the call time during which the wireless telephone terminal 32 is called is monitored without connecting to an external telephone terminal. Then, when this call is completed, the process shifts to S860 to determine whether or not the call time is within the allowable range.
If it is determined in S860 that the call time is not within the allowable range, the process returns to S800, and if it is determined that the call time is within the allowable range, the process proceeds to S870.
[0128]
In S870, it is determined whether or not a fixed time has elapsed since the end of the monitoring of the call time performed in S850, and if it is determined that the fixed time (for example, 3 minutes + the call time set in S880) has elapsed. , S800, and if it is determined that the predetermined time has not elapsed, the process proceeds to S880.
[0129]
Here, the processing of S800 to S870 in the present embodiment (Example 2) functions as the telephone terminal determination unit of the present invention, and determines whether the person who called the wireless telephone terminal 32 is a system administrator. Is going.
Further, in the present embodiment (Embodiment 2), a password for authenticating that the person who called the wireless telephone terminal 32 is a system administrator is set in advance by a four-digit number. The administrator may authenticate the personal identification number using the number of calls when calling the wireless telephone terminal 32 as a guide. When authenticating a four-digit password, the first call corresponds to the previous two digits, and the second call corresponds to the two digits of the sound.
[0130]
More specifically, the method of authenticating the personal identification number will be described. For example, assuming that the personal identification number is “0103”, the system administrator first makes a call to the wireless telephone terminal 32 and generates a ringing tone (Tuluru ...). Immediately after listening once, the telephone is disconnected (S800-S810). In this way, the preceding two digits “01” of the four-digit password are authenticated (S820).
[0131]
Then, within a certain period of time after the call is cut off (S830), a call is made to the wireless telephone terminal 32 again, and the call is cut off immediately after hearing the ringing tone (Tulle ...) three times (S840-S850). In this way, the last two digits “03” of the four-digit password are authenticated (S860).
[0132]
Here, the system administrator authenticates the personal identification number based on the number of calls when calling the wireless telephone terminal 32. In practice, however, the notification device 30 authenticates the personal identification number based on the calling time (call time). . Further, the ringing tone heard by the system administrator includes a sound part (for one second) and a silent part (for two seconds), and it cannot be specified from which part the call starts. Under such circumstances, in order to surely perform the authentication of the personal identification number, the allowable range T of the call time monitored by the notification device 30 has a certain width, and the allowable range T of the call time (S820 and S860) is For example, the setting may be made as follows.
[0133]
T = 3n ± 2 (sec)
Here, n is the number of calls (one time for a sound part (one second) and one for a silent part (two seconds)).
For example, in order to authenticate the personal identification number “0103”, when calling the wireless telephone terminal 32 for the first time, disconnect the telephone during 1 to 5 seconds, and when calling the wireless telephone terminal 32 for the second time, , 7 to 11 seconds, the system administrator may listen to the ringing tone for the number of calls corresponding to the personal identification number without worrying about this time, and then hang up.
[0134]
By setting the allowable range T of the call time in this way, the system administrator can reliably authenticate the password without measuring the call time with a clock or the like. Also, in S830 and S870, the system is configured to return to S800 after a certain period of time from the end of the previous call, so that the number to be authenticated next cannot be determined due to an unexpected password error or the like. Impossibility can be prevented.
[0135]
Next, the operation after S880 in the incoming call processing of FIG. 9 will be described.
In S880, it is determined whether or not the wireless telephone terminal 32 constituting the notification device 30 receives a call from an external telephone terminal. If it is determined that a call has not been received from an external telephone terminal, the process returns to S870. If it is determined that a call has been received from an external telephone terminal, the process proceeds to S890.
[0136]
In S890, the call time at which the wireless telephone terminal 32 is called is monitored, and after a predetermined time has elapsed (for example, after 18 seconds), the telephone line is connected to an external telephone terminal.
Next, in S900, monitoring of the communication time is started, and the process proceeds to S910. In S910, the incoming message stored in the voice data storage unit 36 is reproduced.
[0137]
This incoming message is, for example, "This is XX". For example, even if it is a sound such as "Peepy", if it can be confirmed that the wireless telephone terminal 32 is connected to the telephone line, It may be sound. This message has a maximum of about 10 seconds and is reproduced twice.
[0138]
Next, the flow shifts to S920, where it is determined whether 25 seconds have elapsed since the wireless telephone terminal 32 was connected to the telephone line. If it is determined that 25 seconds have not elapsed since the wireless telephone terminal 32 was connected to the telephone line, S920 is repeated. If it is determined that 25 seconds have elapsed since the wireless telephone terminal 32 was connected to the telephone line, the process returns to S930. Transition.
[0139]
In S930, it is determined whether or not the system administrator has already disconnected the telephone line. If it is determined that the system administrator has disconnected the telephone line, the process returns to S800, and the incoming call processing is repeated. If the system administrator determines that the telephone line has not been interrupted, the process shifts to S940, and the monitoring stop command for turning off the power SW 46 to stop the monitoring operation by the CATV monitoring control device is given to the control device 20. Is output, and the monitoring stop processing (see FIG. 5) is started. The process of S940 is a process for forcibly turning off the power supply SW 46 to the control device 20 by outputting a monitoring stop command to the control device 20. It corresponds to a means.
[0140]
Next, in S950, a standby message indicating that the command has been received is transmitted to the monitoring telephone terminal on the system administrator side, and the flow shifts to S960. The standby message here may be, for example, a content such as "Please hang up when checking the battery", and a message of a maximum of 10 seconds is reproduced twice.
[0141]
Next, in S960, it is determined whether 50 seconds have elapsed since the wireless telephone terminal 32 was connected to the telephone line. If it is determined that 50 seconds have not elapsed since the wireless telephone terminal 32 was connected to the telephone line, S960 is repeated. If it is determined that 50 seconds have elapsed since the wireless telephone terminal 32 was connected to the telephone line, the process returns to S970. Transition.
[0142]
In S970, it is determined whether or not the system administrator has already disconnected the telephone line. If it is determined that the system administrator has disconnected the telephone line, the process returns to S800, and the incoming call processing is repeated. If the system administrator determines that the telephone line has not been interrupted, the process proceeds to S980, and the power supply switch 46 is turned on so that the monitoring operation by the CATV monitoring and control device stopped in S940 is restarted. Set. At this time, the monitoring stop processing (see FIG. 5) is interrupted.
[0143]
Then, the process proceeds to S990, in which the control device 20 is reset (restarted) by outputting a reset signal to the microcomputer constituting the control device 20. Note that the process of S990 corresponds to a restart unit in the incoming call control unit of the present invention.
[0144]
Thereafter, in S1000, the telephone line is cut off, and the incoming call processing from S800 is repeated.
Here, when the control device 20 is reset (S990), the telephone line is cut off without reproducing the message (S1000). However, when the control device 20 is restarted, a notification process (see FIG. 3) is performed. , The system administrator can be notified of that fact, so that the system administrator can confirm whether or not the control device 20 has been normally reset.
[0145]
As described above, even with the CATV monitoring and control device described in detail in the present embodiment (the second embodiment), the same effects as those of the CATV monitoring and control device of the first embodiment can be obtained, and similar modifications can be considered. .
Further, in the case of the CATV monitoring and control device described in detail in the present embodiment (second embodiment), the authentication of the personal identification number is determined based on the call time, and the capacity of the battery of the present device (CATV monitoring and control device) is confirmed and re-checked. Since the operation such as activation is performed based on the communication time, even if the operation is performed from an external telephone terminal that cannot transmit a tone signal (identification information), the external telephone terminal that has called the notification telephone terminal is operated by the system administrator. It is possible to reliably determine whether the terminal is a monitoring telephone terminal.
[0146]
In the present embodiment (Embodiment 2), a message of up to 10 seconds is repeatedly played twice, and furthermore, in order to set a spare time for subsequent operations to 5 seconds, an external telephone terminal is connected. The battery capacity is confirmed and the control device 20 is restarted in 25 seconds and 50 seconds. However, it is not necessary to do so, and these times are adjusted according to the message playback time and the like. Is also good.
[0147]
Further, the CATV monitoring and control device of the present embodiment (the second embodiment) and the CATV monitoring and control device of the first embodiment can be combined. For example, the authentication of the personal identification number is performed based on the calling time ( After the connection with the external telephone terminal, the communication time and the tone signal transmitted from the external telephone terminal may be used for operation.
[0148]
Even in the case described above, the same effects as those of the above-described CATV monitoring and control device can be obtained.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of an entire CATV monitoring and control device according to an embodiment.
FIG. 2 is a flowchart illustrating a monitoring process performed by the control device according to the embodiment.
FIG. 3 is a flowchart illustrating a notification process performed by the notification device according to the embodiment.
FIG. 4 is a flowchart illustrating an incoming call process performed by the notification device according to the embodiment.
FIG. 5 is a flowchart illustrating a monitoring stop process performed by the control device according to the embodiment.
FIG. 6 is a flowchart illustrating a modification of the notification process illustrated in FIG.
FIG. 7 is a flowchart showing a modification of the incoming call processing shown in FIG.
FIG. 8 is a block diagram illustrating another configuration example of the CATV monitoring and control device illustrated in FIG.
FIG. 9 is a flowchart illustrating an incoming call process according to the second embodiment.
[Explanation of symbols]
Tin: Measurement input terminal, 12: Level measurement unit, 14: Display unit, 16: Measurement channel setting switch, 20: Control device, 22: Time SW, 24: Temperature sensor, 26: Key input unit, 28: Monitoring control unit Reference numeral 30, a reporting device, 32, a wireless telephone terminal, 32a, an antenna, 34, a reporting control unit, 36, a voice data storage unit, 38, a backup power supply, 40, a power supply device, 42, a main power supply unit, 44, a sub power supply unit (Solar cells), 46, 46a, 46b: power switch, 48: blower SW, 50: blower.

Claims (11)

Monitoring means for monitoring an operation state of an electronic device constituting the CATV system and determining whether or not the electronic device is operating normally;
A reporting telephone terminal capable of communicating with another telephone terminal via a public telephone line;
When an abnormality of the electronic device is determined by the monitoring unit or when a determination result by the monitoring unit changes, a notification indicating that information is transmitted from the notification telephone terminal to the monitoring telephone terminal of the system administrator side. Control means;
When the notification telephone terminal receives a call from an external telephone terminal via a telephone line, it is determined whether or not the external telephone terminal is the monitoring telephone terminal on the system administrator side. If the terminal, incoming control means for transmitting information representing the result of monitoring by the monitoring means from the reporting telephone terminal to the monitoring telephone terminal,
A CATV monitoring and control device comprising: The receiving control means, when the notification telephone terminal receives a call from an external telephone terminal via a telephone line, connects to the external telephone terminal, and thereafter, based on the identification information transmitted from the external telephone terminal, The CATV monitoring and control apparatus according to claim 1, wherein it is determined whether or not the telephone terminal is a monitoring telephone terminal on the system administrator side. When the notification telephone terminal receives a call from an external telephone terminal via a telephone line, the incoming call control means determines whether or not the external telephone terminal is the monitoring telephone terminal on the system administrator side based on the call time. The CATV monitoring and control device according to claim 1, wherein the determination is performed. The incoming call control means,
Telephone terminal determination means for determining whether the external telephone terminal that called the reporting telephone terminal is the monitoring telephone terminal,
When the telephone terminal determining means determines that the external telephone terminal is the monitoring telephone terminal, thereafter, the communication time between the monitoring telephone terminal and the reporting telephone terminal, or from the monitoring telephone terminal Command content identification means for identifying the content of a command from the system administrator based on the transmitted request signal;
Information transmitting means for transmitting, from the reporting telephone terminal to the monitoring telephone terminal, information representing the result of monitoring by the monitoring means when the instruction content identified by the instruction content identifying means is an information transmission instruction; When,
When the command content identified by the command content identification unit is a restart command, a restart unit that restarts the monitoring unit and initializes the monitoring result,
The CATV monitoring and control device according to any one of claims 1 to 3, further comprising: The CATV monitoring and control apparatus according to claim 4, wherein the notification control means causes the notification telephone terminal to transmit information indicating the activation to the monitoring telephone terminal after the activation of the monitoring means. A built-in battery that is charged by power supplied from the external power supply when power is supplied to the device from an external power supply, and when the power supply from the external power supply to the device is cut off, power is supplied from the battery. By means of at least the reporting telephone terminal, the reporting control means, and a backup power supply to operate the incoming call control means,
The power supply device according to claim 4, wherein when the power supply from the external power supply to the device is cut off, the notification control unit causes the notification telephone terminal to transmit information indicating the interruption to the monitoring telephone terminal. The CATV monitoring and control device according to claim 5. A built-in battery that is charged by power supplied from the external power supply when power is supplied to the device from an external power supply, and when the power supply from the external power supply to the device is cut off, power is supplied from the battery. By means of at least the reporting telephone terminal, the reporting control means, and a backup power supply to operate the incoming call control means,
The power supply device according to claim 1, wherein when the power supply from the external power supply to the device is interrupted, the notification control unit causes the notification telephone terminal to transmit information indicating the interruption to the monitoring telephone terminal. The CATV monitoring and control device according to claim 3. The incoming call control means,
Telephone terminal determination means for determining whether the external telephone terminal that called the reporting telephone terminal is the monitoring telephone terminal,
When the telephone terminal determining means determines that the external telephone terminal is the monitoring telephone terminal, thereafter, the communication time between the monitoring telephone terminal and the reporting telephone terminal, or from the monitoring telephone terminal Command content identification means for identifying the content of a command from the system administrator based on the transmitted request signal;
Information transmitting means for transmitting, from the reporting telephone terminal to the monitoring telephone terminal, information representing the result of monitoring by the monitoring means when the instruction content identified by the instruction content identifying means is an information transmission instruction; When,
When the command content identified by the command content identification means is a capacity confirmation command of the battery, a power supply path to the backup power supply is cut off, and a battery power supply cutoff means for discharging the battery,
And,
When the battery power supply cut-off means cuts off the power supply path to the backup power supply, it monitors that the notification telephone terminal is in an operation stop state due to discharge of the battery, and the notification telephone terminal is in an operation stop state. Then, a power supply path to the backup power supply is connected, the notification telephone terminal is returned to the operating state, and information indicating that the battery has been discharged from the notification telephone terminal is transmitted to the monitoring telephone terminal. Battery discharge monitoring control means to be transmitted to
The CATV monitoring and control apparatus according to claim 7, further comprising: 9. The CATV monitoring and control apparatus according to claim 1, wherein the reporting telephone terminal is a wireless telephone terminal that communicates with an external telephone terminal via a wireless telephone line. . The reporting telephone terminal has a storage medium in which a voice message is stored as information to be transmitted to the monitoring telephone terminal. At the time of transmitting information, the information is reproduced by reproducing the voice message stored in the storage medium. The CATV monitoring and control device according to any one of claims 1 to 9, wherein the notification is performed by voice. A CATV system comprising the CATV monitoring and control device according to any one of claims 1 to 10.

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