JPH11252670A - Remote supervisory control system and sensor terminal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a remote supervisory control system and a sensor terminal adopting the Internet technology. quickly spread through rapid development of key technologies SOLUTION: A large number of sensor terminals 5 are connected to a factory intra-net to which a factory computer 6 is also connected. A large number of computers are connected to an intra-net of a research institute, and at least one of the computers acts like a managing computer 7. The intra-nets are connected via the Internet to allow duplex communication, and the sensor terminals 5 inform the computer 7 of the fact that a result of processing outputs of sensors 10 satisfies a prescribed condition. This notice is made by sending a signal from the sensor terminal 5 to automatically interrupt the computer 7 and to start the WWW browser of the computer 7 or to urge start of the browser.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a remote monitoring control system and a sensor terminal device for constituting the system, and more particularly to a technology for using the Internet for communication between an administrator computer and the sensor terminal device. .

[0002]

BACKGROUND OF THE INVENTION Systems for monitoring natural phenomena and monitoring and controlling equipment from a remote place have been developed for a long time together with electronics technology. It has been reported that the realization of a full-scale remote monitoring and control system was started in 1920 by a U.S.-based Cleveland Railroad Company using a device devised by Westinghouse's Wensley with selective control function.

At present, centralized monitoring and control systems for power systems, centralized monitoring and control systems for steel plants, monitoring and control systems for gas regulators, telemeters and telecons for gas and water facilities, monitoring and control systems for road traffic facilities, buildings Facility monitoring and control system, pollution monitoring temerator system,
In various application fields such as automatic measurement and recording system of environmental air pollution, telemetry system of rainfall and water level,
Highly developed remote monitoring and control systems have been put into practical use and have laid an important foundation for industrial and social systems. Most of these existing remote monitoring control systems use a dedicated communication line as an information transmission path.

SUMMARY OF THE INVENTION The present invention has been made in view of the above background, and has as its object to provide a remote monitoring system using the Internet technology and the technology of personal computers and workstations, which have been rapidly spread due to the development of basic technologies. It is to provide a control system and a sensor terminal device.

[0005]

In order to achieve the above-mentioned object, a remote monitoring control system according to the present invention is basically configured to have the following requirements (1) to (4). (1) The system is composed of a sensor terminal device and an administrator computer connected via the Internet. (2) The sensor terminal device is a sensor responsive to a physical phenomenon to be monitored, a sensor output processing means for processing an output of the sensor to generate monitoring data, and a communication for communicating with a manager computer via the Internet. It has processing means and a processor that controls the device. (3) The administrator computer sends control data to the sensor terminal device. The sensor terminal device receives the control data and changes its own operation specifications according to the contents described therein. (4) When the monitoring data satisfies a predetermined condition, the sensor terminal device notifies the administrator computer of the event.

The present invention can be implemented by appropriately combining the following requirements (A) to (D) in addition to the above basic requirements. (A) The administrator computer has a WWW browser, and
The control data described in TML is transmitted to the sensor terminal device. (A) The administrator computer sends a program described in the JAVA language to the sensor terminal device as control data. (C) The notification from the sensor terminal device to the administrator computer is described in HTML. (D) The notification from the sensor terminal device to the administrator computer is made by e-mail.

[0007] The present invention also provides a sensor terminal device for configuring the above remote monitoring control system.

That is, according to the present invention, it is possible to adjust and set the sensor terminal device by remote control via the Internet and to use an existing network, so that the system can be easily and inexpensively manufactured. Can be built. Further, information such as an abnormality can be transmitted from the sensor terminal to the management computer via the Internet. And by doing so via the Internet, even if part of the route is disconnected,
Since there are a plurality of transmission paths, transmission can be reliably performed to the other party. When JAVA is used, the same program runs for all the sensors that support JAVA, so that versatility is increased and development cost is reduced. Then, the JAVA language program is saved in Servlet
If transmission is performed by et transmission, operation can be performed regardless of the type of CPU.

[0009]

FIG. 1 shows a schematic configuration of a remote monitoring control system according to an embodiment of the present invention. FIG. 2 shows an embodiment of the sensor terminal device constituting this system.

[0010] In this example, the intranet in the factory and the intranet in the laboratory are connected by the Internet.
As is well known, a method of connecting to an Internet provider 2 via a router 1 on an intranet is adopted.

A large number of sensor terminal devices 5 are connected to a factory intranet, and a factory computer 6 is connected. Many computers are connected to the laboratory intranet, and at least one of them is the administrator computer 7 of the present invention. The factory computer 6, the administrator computer 7, and the other computers 8 also have WWW browsers, and can view HTML documents exchanged on the Internet or an intranet.

As shown in FIG. 2, the sensor terminal device 5 comprises:
A sensor 10 responsive to a physical phenomenon to be monitored, a sensor output processing unit 11 for processing the output of the sensor 10 to generate monitoring data, and a communication processing unit 12 for communicating with the administrator computer 7 via the Internet. And a processor 13 for controlling the sensor terminal device 5. The sensor 10 is sensitive to a target physical phenomenon such as a vibration sensor, a pressure sensor, an earthquake sensor, a temperature sensor, a human body detection sensor, and a smoke sensor. The sensor output processing unit 11 includes, for example, an amplifier 11 that amplifies the sensor output.
a, a filter 11b for extracting a signal of a specific frequency band from the amplifier output, a waveform processing circuit 11c for performing a waveform processing such as integration on the filter output, and comparing the waveform-processed output with a reference value for determination. Signal (monitoring data)
And a comparator 11d for generating the same. The processor 13 is composed of a one-chip microcomputer, is capable of executing a program described in the JAVA language, and is a center for realizing the following various functions. Of course, it is not necessary to provide all these functions, and some of them are OK.

Controlling and driving the sensor 10 Variable setting of the gain of the amplifier 11a Variable setting of the frequency characteristic of the filter 11b Variable setting of the processing algorithm of the waveform processing circuit 11c Variable setting of the reference value of the comparator 11d A part or all of the functions of the sensor output processing unit 11 can be realized by software processing in the processor 13.

In the system configuration as described above, the actual transmission / reception of information / data is performed as follows.

The administrator computer 7 is connected to the sensor terminal 5
Deliver control data to The control data is HT
It is described in ML or JAVA language. The processor 13 of the sensor terminal device 5 receives the control data and changes its own operation specifications according to the contents described therein.
That is, the specific control contents of the above functions are instructed by the control data from the administrator computer 7. That is, the processor 13 of the sensor terminal device 5 receives the servlet described in the JAVA language and executes it. In order to ensure security for communication between the administrator computer 7 and the sensor terminal device 5, measures such as setting a password are taken.

The sensor terminal device 5 has a function of notifying the administrator computer 7 of the event when the result of processing the output of the sensor 10 satisfies a predetermined condition.
This notification is made by issuing a signal from the sensor terminal device 5 and automatically interrupting the administrator computer 7 to activate the WWW browser of the administrator computer 7 or to prompt the activation of the browser. As an example, it is assumed that the sensor terminal device 5 is a device for detecting or predicting abnormality of equipment having a rotation mechanism such as a motor.

In this case, when an abnormality is detected or predicted based on the output signal of the sensor (vibration sensor) 10, the administrator computer 7 is automatically interrupted, a WWW browser is automatically started, and the administrator computer 7 is started. The display of the fact that the abnormality has been detected or predicted is displayed on the display, or some operation for prompting the activation of the WWW browser, for example, the display or generation of a warning sound is performed. This notification is also made via the Internet.

When the detection value of the sensor 10 satisfies a preset condition, an e-mail for notifying the content may be automatically created and transmitted to a predetermined e-mail address. . At this time,
If the delivery notification does not return within a certain period of time or the non-delivery notification returns even after sending the e-mail to the specified e-mail address, re-transmit the e-mail to another predetermined e-mail address. A function to send data can also be incorporated. By doing so, it is possible to reliably inform the administrator of the sensor detection contents.

The sensor terminal device 5 performs a self-diagnosis process periodically or when a predetermined condition is satisfied, and reports the result to the administrator computer 7 or the like.
This report is made by issuing a signal from the sensor terminal device 5 and automatically interrupting the administrator computer 7 to activate the WWW browser of the administrator computer 7 or to prompt the activation of the browser. In addition, an e-mail for reporting the result of the self-diagnosis can be created and transmitted to a predetermined e-mail address, or transmitted to a wireless portable terminal through a telephone line or the like.

The administrator computer 7 can change the settings of the operation programs of the plurality of sensor terminals 5 at the same time. That is, a large number of sensor terminal devices 5 are grouped (G1, G2,... In FIG. 1), and the administrator computer 7 designates a group and broadcasts the group at once. The same contents can be communicated to the terminal device 5.

FIG. 3 shows another embodiment of the remote monitoring control system according to the present invention. In this system,
It is assumed that the sensor terminal device 5 includes the earthquake sensor 10a. Furthermore, other built-in sensors (for example, temperature sensor 10b, human body detection sensor 10c, smoke sensor 10
d). The output of each sensor 10a to 10d is
It is provided to the common processing unit 11'a, the feature amount is extracted, and sent to the next-stage knowledge processing unit 11'b. Then, the sensor output is analyzed there to determine the state of the monitoring area (for example, whether there is an abnormality). These common processing unit 11'a and knowledge processing unit 11'b constitute a sensor output processing unit 11 '.
Based on the processing result, the communication processing unit 12 sends a predetermined control signal to various devices 15 at remote locations via the Internet.

An example of the operation of this system will be described.
When the occurrence of an earthquake is detected based on the output of the earthquake sensor 10a, other built-in sensors (the temperature sensor 10b,
At least one of the human body detection sensor 10c and the smoke sensor 10d) is operated to monitor the surrounding environment. Then, the detection result of each sensor is reported to a predetermined computer (not shown) through a network to notify the occurrence of an earthquake, and a predetermined device 15 such as a fire extinguisher, an exhaust device, an auto-lock device, and a lighting device is operated. .
The predetermined computer and the predetermined device 15 correspond to the management computer according to the present invention.

That is, when the output of the temperature sensor 10b is abnormally high, there is a high possibility that a fire has occurred due to the earthquake, so the fire extinguisher 15a is operated. In addition, the presence or absence of a person is determined by the human body detection sensor 10b, and the automatic lock device 15c that controls unlocking / locking of a door lock such as an emergency exit is operated. The device 15d is turned on to secure the field of view. In addition, when the presence of smoke is detected by the smoke sensor 10d, the exhaust device 15b is operated, and various processes such as ventilation are performed, thereby ensuring safety.

If a control signal for performing such processing is transmitted via the Internet (network), a plurality of paths exist even if any part of the transmission path is disconnected. Can be found and the data (control signal) can be transmitted, so that it can be reliably delivered to the other party. Also, as in the embodiment shown in FIGS. 1 and 2, various operation programs are provided from the management computer side to the sensor terminal device 5 using JAVA or the like, and the sensor terminal device 5 receives the program. The function of the sensor output processing unit 11 may be modified.

[0025]

As described above, the remote monitoring control system and the sensor terminal device according to the present invention can provide the following various effects. (1) The operating specifications of the sensor can be finely changed from a remote location. (2) Since highly general-purpose technologies related to the Internet, personal computers, workstations, and the like are used, stable and high-performance functions can be introduced at a minimum cost. (3) Since a necessary program may be transmitted to the sensor when necessary, the hardware of the sensor can be minimized, and the size and cost can be reduced. (4) In the case of a system that detects the occurrence of a natural disaster, no matter which part of the data transmission path is disconnected, there is not one path, so that the communication between the sensor terminal device and the administrator computer can be performed reliably.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram showing one embodiment of a remote monitoring control system according to the present invention.

FIG. 2 is a schematic configuration diagram of a sensor terminal device in the same system.

FIG. 3 is a schematic configuration diagram showing another embodiment of the remote monitoring control system according to the present invention.

[Explanation of symbols]

 Reference Signs List 5 sensor terminal device 7 administrator computer 10 sensor 11, 11 'sensor output processing unit 12 communication processing unit 13 processor

Claims (6)

[Claims] 1. A system comprising a sensor terminal device and an administrator computer connected via the Internet, wherein the sensor terminal device processes a sensor responsive to a physical phenomenon to be monitored and an output of the sensor. Output processing means for generating monitoring data, communication processing means for communicating with an administrator computer via the Internet, and a processor for controlling the device, wherein the administrator computer controls the sensor terminal device. The sensor terminal device has a function of receiving the control data and executing a process of changing its own operation specification in accordance with the contents described therein; When the condition is satisfied, a function of notifying the administrator computer of the event is provided. Remote monitoring and control system. 2. The remote monitoring control system according to claim 1, wherein the administrator computer includes a WWW browser, and has a function of transmitting the control data described in HTML to a sensor terminal device. 3. The remote monitoring control system according to claim 1, wherein the administrator computer has a function of transmitting a program described in the JAVA language as control data to the sensor terminal device. 4. The remote monitoring control system according to claim 1, wherein the notification from the sensor terminal device to the administrator computer is described in HTML. 5. The remote monitoring control system according to claim 1, wherein the notification from the sensor terminal device to the administrator computer is made by e-mail. 6. A sensor terminal device for configuring the remote monitoring control system according to claim 1.