JPH1116066A - Monitoring system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a monitoring system in which the falling of a worker working on a ship to the sea can be detected. SOLUTION: This system is provided with an radio transmitter 11 carried by a worker working on a ship 2, and a monitoring device 13 for receiving a radio signal from the radio transmitter 11 by a radio receiver 12, and analyzing the signal. When the output level of the radio signal from the radio transmitter 11 is weakened, or the signal is not received, a warning signal for reporting the falling of the worker to the sea is outputted to a warning device 14.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a surveillance system, and more particularly to a surveillance system capable of automatically detecting when a worker falls on the sea surface in a ship, for example.

[0002]

2. Description of the Related Art Conventionally, for example, in a ship on the sea surface, there is no monitoring system capable of automatically detecting when the worker falls (falls) on the sea surface, ensuring the safety of the worker. Therefore, such a monitoring system is desired.

As a system for monitoring the presence or absence of a fallen person, for example, the use of radio waves can be considered.

[0004]

As described above, there has been no monitoring system that can detect a worker who has fallen on the sea surface. However, as a system applicable to the monitoring system, the position of the worker can be detected using radio waves. However, in this case, it was only possible to detect the position of the worker, and it was not possible to determine whether or not the operator had fallen from the ship.

Accordingly, an object of the present invention is to provide a monitoring system capable of grasping the situation such as a fall of a monitored person.

[0006]

Means for Solving the Problems In order to solve the above problems, a first means of the present invention is to provide a radio wave transmitter provided for a person to be monitored, a radio wave transmitter for receiving a radio wave signal from the radio wave transmitter. A monitoring device for analyzing the signal, and when the output level of the radio signal from the radio transmitter becomes weak or when the radio signal is not received, an alarm signal is output to the alarm device. The configured monitoring system.

[0007] According to this configuration, it can be determined that the monitored person has moved out of the predetermined area by detecting that the radio signal from the monitored person has become weak or that the radio signal has stopped being received. . For example, by carrying a radio wave transmitter to a worker on a ship, it is possible for the worker to fall on the sea surface (above the water surface) outside the safe area or sink below the sea surface (below the water surface). Can be detected.

[0008] The second means of the present invention has a radio transmitter provided for the person to be monitored and a monitoring device for receiving a radio signal from the radio transmitter and analyzing the signal. In addition to including the identification data and output level data unique to the monitored person in the radio signal transmitted from the radio transmitter, when the radio signal is received, the monitored person is specified, and the output level data is output. This is a monitoring system configured to detect a distance to a monitored person based on the monitoring system.

According to the configuration of the monitoring system, it is possible to detect the movement of the monitored person out of the predetermined area and to specify the monitored person. Further, the third aspect of the present invention
Means has a radio wave transmitter provided to the monitored person, a monitoring device that receives a radio wave signal from the radio wave transmitter and analyzes the signal, and a pulse transmitted from the radio wave transmitter. The signal contains identification data unique to the person being monitored, and the waveform of the pulse signal is provided with a gradient so as to be attenuated or increased on the time axis, and the monitoring device side has a predetermined threshold value or more of the pulse signal. , The distance between the monitored person and the monitoring device side is detected, and an alarm signal is output to the alarm device in accordance with the detection result.

In this monitoring system, the distance to the monitored person can be detected based on the pulse width of the pulse signal, so that the monitored person can be detected to move out of the predetermined area.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A monitoring system according to a first embodiment of the present invention will be described below with reference to FIGS.

In the present embodiment, when a worker working on a sea surface (including a water surface such as a lake, of course) falls on the sea surface (falls in water), the worker quickly moves. A monitoring system capable of detecting the fall will be described.

That is, as shown in FIGS. 1 and 2,
The monitoring system 1 includes a radio wave transmitter 11 carried by a worker (monitored person) M and transmitting a predetermined radio signal, for example, a pulse signal, and a predetermined position on the vessel 2, for example, a steering room 3.
And a monitoring device 13 which receives and analyzes a signal received by the radio receiver 12 and outputs a predetermined signal, that is, an alarm signal, based on the analysis result. And an alarm device 14 that receives an alarm signal from the monitoring device 13 and issues an alarm.

Incidentally, the rectangular pulse signal transmitted from the radio transmitter 11 carried by the worker M includes individual identification data (ID data) corresponding to each worker M and the signal of this signal. Output level data is also included.

The monitoring device 13 is provided with an arithmetic processing unit (not shown, for example, a microcomputer) for analyzing the received signal. The arithmetic processing unit analyzes the identification code included in the signal, and The level of the received signal is detected, the worker M corresponding to the identification code is specified, and the distance from the radio wave receiver 12 to the radio wave transmitter 11 based on the detected level, that is, the radio wave receiver 12 is carried. The calculation of the distance to the worker M is performed.

Of course, the identification code of the radio wave transmitter 11 carried by each worker M is stored in the arithmetic processing unit.
An alarm device 14 is connected to the monitoring device 13. When a signal received from the radio wave transmitter 11 carried by the worker M is changed in the monitoring device 13, the alarm device is output from the monitoring device 13. A predetermined warning signal is output to 14 so that the occurrence of a fall accident can be transmitted to at least the supervisor in the vessel 2 by warning sound, sound, video, or the like.

Therefore, in the above monitoring system,
The monitoring device 13 receives and analyzes a pulse signal from the radio wave transmitter 11 carried by each worker M, and constantly analyzes all pulse signals based on the identification data included in the signal.
Has been confirmed.

However, as shown in FIG. 1, when one of a plurality of workers working on the deck of a traveling ship 2 accidentally falls on the sea surface, the worker M Is suddenly away from the ship 2, that is, in the monitoring device 13, the radio wave transmitter 11 carried by the worker M
It is detected that the level (strength) of the pulse signal from the receiver becomes smaller (weaker) with time.

As described above, when the monitoring device 13 detects that the signal level is low, the worker M carrying the radio wave transmitter 11 emitting the signal is detected.
Is determined to have fallen on the sea surface, and a warning signal indicating that the vehicle has fallen is output to the warning device 14 and transmitted to various places in the vessel 2 by a warning device, sound, or the like. If no signal is received, it is determined that the worker M has been swept away or has sank below the sea level.
Similarly, an alarm signal is output to the alarm device 14.

By this alarm, the ship 2 is immediately stopped and the fallen person is rescued. in this way,
If the rescue is performed quickly, the fallen person can be rescued at a rate of almost 100%.

Since there are a plurality of radio transmitters 11, the pulse signals transmitted from each radio transmitter 11 have different periods from each other as shown in FIG. The timing of the rising part of
It is taken into account that the pulse signals do not overlap each other.

Next, a monitoring system according to a second embodiment of the present invention will be described. In the first embodiment, the radio signal transmitted from the radio transmitter is described as a rectangular pulse signal, and the identification signal and the output level data are included in the signal. In the second embodiment, a plurality of types of signals having different output levels are represented on a time axis (time series).
The call is shifted sequentially and transmitted.

That is, a group of signals transmitted from the radio wave transmitter is divided into a plurality of types, for example, as shown in FIG.
Signals I, I of type (or two or more types)
I, III, and these three types of signals, the identification code (ID) for identifying the worker and the transmission level (output level) are reduced from large to medium to small and move away from the radio wave receiver. As a result, those sequentially constituted by the level codes (a, b, c) that cannot be received are used. Of course, this set of signals is transmitted at predetermined intervals.

Therefore, at first, at least the identification code (ID) and the large level code (a) are received, but this level code (a) cannot be received a predetermined distance away, and the middle level code (a) is received. In the case where b) is being received, it is estimated that the distance to the worker is equal to or greater than a predetermined distance, and the large and medium level codes (a, b)
Is not received, it is estimated that the worker is located further away by a predetermined distance. Of course,
The distance at which the large, medium, and small level codes (a, b, c) are no longer received has been previously determined by experiments. As described above, since a plurality of types of level codes having different levels are included in the signal transmitted from the radio wave transmitter, the distance to the worker can be easily detected based on the presence or absence of the level code signal. .

Next, a monitoring system according to a third embodiment of the present invention will be described. In the first embodiment, the radio signal transmitted from the radio transmitter is described as a rectangular pulse signal. However, in the second embodiment, the radio signal is expressed on the time axis (time series). ), The output level is changed.

That is, as shown in FIG. 5, the _first part t ₁ which is the initial part of the pulse signal is set to a predetermined output level A.
While the output level at the latter portion t ₂ is gradually reduced.

In this case, the threshold value B of the detection level is determined on the monitoring device 13 side, and the time t that is equal to or longer than the threshold value B is measured.
The distance to 1 can be detected. That is, the pulse width t of the detected pulse signal changes according to the distance from the radio wave receiver 12 to the radio wave transmitter 11. By measuring this pulse width, the distance to the worker M can be reduced. You can know. Note that, as shown by the broken line in FIG. 4, even if the output level of the pulse signal is increased, the distance to the radio wave transmitter 11 can be similarly detected.

By the way, as the radio wave transmitter in each of the above embodiments, a slave unit in a PHS system may be used. In this case, the monitoring device has a function of registering the PHS system with the master unit. By having it,
The worker can be easily associated with the received signal.

Also, as an application of the monitoring system, a case of detecting a fall accident of a worker on a ship has been described. For example, detection of a fall accident on the sea surface at a port facility, detection of a fall accident from a quay, Alternatively, the present invention can be applied to detection of a fall accident on land.

[0030]

As described above, according to the configuration of the monitoring system of the present invention, it is possible to carry the radio wave transmitter to the monitored person and to receive the radio wave signal on the monitoring device side to detect the signal level. Or by detecting a change in the pulse width of the signal to detect the distance to the monitored person, when the monitored person moves out of the predetermined area, for example, when the monitored person falls from the ship As the distance increases, the fall of the monitored person can be detected. Also,
According to another configuration of the monitoring system of the present invention, when the radio wave signal is no longer received, the monitored person moves out of the predetermined area and, for example, the monitored person falls from the ship and is below the sea surface (under the water surface) Since it can be determined that the object has sunk, the fall of the monitored person can be detected.

Further, according to the configuration of the other monitoring system of the present invention, by including the identification data of the monitored person in the radio signal, the monitored person who has moved out of the predetermined area can be specified.

[Brief description of the drawings]

FIG. 1 is a perspective view showing a schematic overall configuration of a monitoring system according to a first embodiment of the present invention.

FIG. 2 is a diagram illustrating a main configuration of a monitoring system according to the first embodiment.

FIG. 3 is a waveform diagram of signals used in the monitoring system according to the first embodiment.

FIG. 4 is a diagram showing a configuration of a signal used in a monitoring system according to a second embodiment of the present invention.

FIG. 5 is a waveform diagram of a signal used in the monitoring system according to the third embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Monitoring system 2 Ship 11 Radio wave transmitter 12 Radio wave receiver 13 Monitoring device 14 Alarm device

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Shigeo Takamatsu 5-3-28 Nishikujo, Konohana-ku, Osaka-shi, Osaka Inside Hitachi Zosen Corporation (72) Inventor Takashi Hatta 5-chome, Nishikujo, Konohana-ku, Osaka-shi, Osaka No. 3-28 Hitachi Zosen Corporation (72) Inventor Atsuzou Oba 5-28 Nishikujo, Konohana-ku, Osaka-shi, Osaka Prefecture Inside of Hitachi Zosen Corporation (72) Inventor Yukihiro Terada Nishi-Konohana-ku, Osaka-shi, Osaka Kujo 5-Chome 3-28 Hitachi Zosen Corporation

Claims (4)

[Claims] A radio wave transmitter provided for a person to be monitored, a monitoring device for receiving a radio wave signal from the radio wave transmitter and analyzing the signal, and a radio wave signal from the radio wave transmitter A monitoring system configured to output an alarm signal to an alarm device when the output level of the alarm signal becomes weak or the radio signal is no longer received. 2. The monitoring system according to claim 1, wherein the radio wave signal transmitted from the radio wave transmitter includes identification data unique to the monitored person. 3. A radio wave transmitter provided for a person to be monitored, a monitoring device for receiving a radio wave signal from the radio wave transmitter and analyzing the signal, and transmitted from the radio wave transmitter. Including the identification data and output level data unique to the monitored person in the radio signal, identifying the monitored person when receiving this radio signal, and detecting the distance to the monitored person based on the output level data A monitoring system characterized in that the monitoring system is configured to 4. A radio wave transmitter provided for a person to be monitored, a monitoring device for receiving a radio wave signal from the radio wave transmitter and analyzing the signal, and transmitted from the radio wave transmitter. The pulse signal contains identification data unique to the person being monitored, and the waveform of the pulse signal is provided with a gradient so as to be attenuated or increased on the time axis. By detecting the above pulse width, the distance between the monitored person and the monitoring device side is detected, and according to the detection result, an alarm signal is output to the alarm device. Monitoring system.