JP2009098749A - Remote monitoring system, remote monitoring method and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To construct a system for remotely monitoring a specific place present indoors or outdoors such as a garbage collection site at low cost. <P>SOLUTION: A sensor device 30 detects conditions that an object enters the specific place indoors or outdoors and that the object is left, an information management terminal 20 having acquired a detection signal transmits the detection signal to a central management device 40, and the central management device 40 decides the conditions of the specific place a based on the detection signal. The information management terminal 20 and the central management device 40 are connected by a power transmission-monitoring communication line 10 that is an existing communication line. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a remote monitoring system, a remote monitoring method, and a remote monitoring program for remotely monitoring a specific location.

  In general, garbage from local residents is collected on a designated day of the week by visiting a garbage collection site in the area where collection vehicles are defined. The start time of garbage collection by the collection vehicle is announced in advance, but the actual collection time varies depending on the amount of collected areas and road conditions. As a result, the inhabitants are troubled by the fact that even if they take out the garbage to make it in time for the collection time, it has already been collected, or the garbage is taken out without realizing that it has been collected. There are many residents who dump garbage at night to avoid such a situation, but when it is dumped at night, it has a long time to collect, so there is a problem that the birds and animals will ruin the garbage during that time there were.

  On the other hand, paid and recyclable garbage must be put out at the designated date and time, but nevertheless, because it takes time, it may be dumped as normal waste and left uncollected for a long time without being collected. There was a problem that.

  In view of such a problem, Patent Documents 1 to 4 disclose techniques related to collection of garbage.

  The related art disclosed in Patent Document 1 is an example of a waste dumping state grasping system using a special waste bin, and this system includes a measuring means for measuring the amount of waste, and information on the amount of the measured waste. A special trash can provided with a transmission means for transmitting the message via a communication line is used.

  The related technology disclosed in Patent Document 2 is an example of an industrial waste accumulation state grasping method, an industrial waste collection method, and an industrial waste accumulation state monitoring system. This system includes weight measurement means, imaging means, and the like. The monitoring means comprising: management means for managing information obtained by the monitoring means; and browsing means for browsing the managed information; and the status and quantity of industrial waste generated at construction sites, etc. It is supposed to be managed and published.

  In addition, the related technology disclosed in Patent Document 3 is provided with a means for measuring weight, a means for determining material, and a communication means for a waste collection IT container installed at an industrial waste discharge site. The collection status of materials is sent to the discharger and transporter to streamline the collection work. In Patent Document 4, the shortest route for collecting and transporting the industrial waste collection and transportation vehicle is determined based on the disposal position of the waste disposed at a plurality of sites, the weight of the waste, and the handling amount of the waste. Yes.

JP 2002-120904 A JP 2002-205046 A JP 2003-63603 A JP 2004-299903 A

  However, when the related techniques disclosed in Patent Documents 1 to 4 described above are applied to a garbage collection site that is routinely discharged from ordinary households, a considerable number of special trash cans and containers must be installed. It costs enormous costs. In addition, since the related technology described above assumes monitoring of a waste storage place provided indoors or on the site of a contractor, if a LAN is used to transmit waste accumulation status data from the waste storage place, Good garbage collection sites are often installed at appropriate outdoor locations such as under telephone poles beside the road, and how to build a communications infrastructure to monitor the presence of objects in outdoor locations. There was a problem of what should be done.

  In addition, when residents request collection of unnecessary items individually, in principle, they must hand over unnecessary items at the designated date and time, and if the collection company is late for the designated time, the time until delivery will be increased. Because of the restraint, there was a problem that it was difficult for residents to request collection of individual unnecessary items.

  Therefore, the present invention improves the above-mentioned problems of the related art, and constructs a low-cost system for remotely monitoring the state of carry-in and carry-out of an object at a specific location outdoors such as a garbage collection site. Is the purpose.

  In order to achieve the above object, a remote monitoring system of the present invention detects a sensor device that detects information on an object and an event at a specific location indoors and outdoors and outputs this as a detection signal, and acquires the detection signal to a communication line. In order to constantly monitor the power system as a communication line connecting the information management terminal and the central management device, the information management terminal to be transmitted and a central management device connected to the information management terminal via a communication line are provided in advance. Using the constructed communication line for power transmission monitoring, the central management device determines the status of a specific location based on the detection signal from the information management terminal, stores the result, and outputs the determination result to the external terminal An information management means is provided.

  The remote monitoring method of the present invention is a remote monitoring method for remotely monitoring a specific location indoors and outdoors. The sensor device detects information on an object and an event at the specific location and outputs a detection signal. The central management device that transmits the constructed transmission line for power transmission monitoring and receives the detection signal via the communication line for power transmission monitoring determines the situation at a specific location based on the received detection signal and stores the result. In addition, the determination result is output to an external terminal.

  The remote monitoring program of the present invention includes a detection signal acquisition function that acquires a detection signal output from a sensor device that detects information on an object and an event at a specific location indoors and outdoors, and a specific location based on the acquired detection signal. The information management function for judging the situation and storing the result and the information transmission function for outputting the judgment result to the external terminal are executed by the computer.

  As described above, the present invention collects information related to objects and events at specific locations indoors and outdoors using the existing communication line for power transmission monitoring, so that the status of specific locations can be monitored without cost. Can do.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 is a block diagram showing a configuration of a remote monitoring system according to an embodiment of the present invention. First, basic contents of the present embodiment will be described, and then specific contents will be described in detail.

  As a basic configuration, the remote monitoring system of the present embodiment has a sensor device 30 that detects information on an object and an event at a specific location a inside and outside and outputs a detection signal, and a detection signal from the sensor device 30. An information management terminal 20 that acquires and transmits the information management terminal 20 and a central management device 40 that is connected to the information management terminal 20 via the communication line 10 are provided.

  In the present embodiment, the information management terminal 20 and the central management device 40 are connected using a power transmission monitoring communication line 10 that is constructed in advance in order to constantly monitor the power system. The power transmission monitoring communication line 10 is a communication network originally owned by an electric power company for power generation, transformation, and monitoring or control of power transmission facilities, and uses a fiber optic cable laid along the power transmission line. It is. An electric power company uses the communication line 10 for power transmission monitoring to transmit and receive information, and monitor power transmission line status and perform maintenance management of substations.

  The sensor device 30 is a sensor that detects the presence of an object, and is, for example, a weight sensor, a distance sensor, an infrared sensor, or the like. The information management terminal 20 is connected to the communication line 10 for power transmission monitoring, and transmits a detection signal from the sensor device 30 to the central management device 40 via the communication line 10.

  The central management device 40 determines the status of the specific location a based on the detection signal transmitted from the information management terminal 20, stores the result, and outputs the determination result to the external terminals 50, 60- Means 20 are provided.

  Here, the basic operation of the above-described remote monitoring system will be described. The information management terminal in which the sensor device 30 detects information related to the object and the event at the specific location a, outputs a detection signal, and acquires the detection signal. 20 sends a detection signal to the communication line 10 for power transmission monitoring, the central management device 40 receives the detection signal via the communication line 10 for power transmission monitoring, and the status of the specific location a is determined based on the received detection signal. Judgment is made, the result is stored, and the judgment result is outputted to the external terminals 50, 60-. This operation description shows the basic contents of an embodiment of the remote monitoring method of the present invention.

  This embodiment is configured as described above, and collects information at a specific location a indoors and outdoors using the existing communication line 10 for power transmission monitoring. Therefore, the state of an object or the like at the specific location a is determined. It can be monitored without cost.

  Next, the embodiment will be described in more detail. As shown in FIG. 1, the central management device 40 determines the status of the specific location a based on the signal receiving means 41 that receives the detection signal from the information management terminal 20 and the detection signal from the information management terminal 20, Information management means 42 that stores the determination result in the storage means 46, Internet connection means 43 that connects to the Internet 100, and information that indicates the status of the specific location a managed by the information management means 42 is externally transmitted via the Internet 100. An information disclosing means 44 to be disclosed to the user, a mail transmitting means 45 for transmitting information indicating the status of the specific location a determined by the information managing means 42 to a terminal designated in advance, and a storing means 46 for storing various information. I have.

  The information management unit 42 determines the status of the specific location a based on the detection signal from the information management terminal 20, and stores the determination result and the position information of the specific location a in the storage unit 46 in association with each other. The information disclosing means 44 reads the map information from the map information database stored in the storage means 46 in advance, displays the position of the specific location a and the status information of the specific location a on the map, and transmits via the Internet 100. Publish for access. The mail transmitting means 45 transmits an e-mail having contents indicating the status of the specific location a to a predetermined address.

  Next, the overall operation of the embodiment shown in FIG. 1 will be described. Here, the following description of the operation shows an embodiment of the remote monitoring method of the present invention.

  First, the sensor device 30 detects information on an object and an event at a specific location a and outputs a detection signal. The information management terminal 20 that has acquired the detection signal sends the detection signal to the communication line 10 for power transmission monitoring. The information management means 42 determines the situation of the specific location a based on the detection signal, stores the result in the storage means 46 and outputs it to the outside.

  Then, information indicating the situation of the specific location as the determination result is displayed on the map together with the location of the specific location by the information disclosing means 44 and published to the external terminals 50, 60-. The e-mail having the content indicating the status of a is transmitted to any one of the pre-designated external terminals 50 and 60-.

  In the present embodiment, the sensor device 30 detects a situation where an object has entered a specific location a inside and outside and the object has been left, and the central management device 40 can collect and disclose the detected information. Can be monitored within a certain range. For example, if the sensor device 30 is installed with the parking prohibited area or the parking prohibited area set as the specific location a, it becomes possible to efficiently control illegal parking and annoying parking.

  In addition, by connecting the information management terminal 20 and the central management device 40 via the communication line 10 for power transmission monitoring that is an existing communication line, it is not necessary to newly construct a communication infrastructure, and the system is not costly. Can be realized. Since the communication line 10 for power transmission monitoring is wired along the power transmission line for supplying power, it is suitable for connecting the sensor device 30 installed outdoors.

  FIG. 2 is a simplified block diagram of the present embodiment. As shown in FIG. 2, the central management device 40 has information management means 42 for managing information related to the specific location a, and information related to the specific location a to the information terminals 50, 60- such as a PC or a mobile phone via the Internet. An information disclosing means 44 to be disclosed and a mail transmitting means 45 for transmitting information related to the specific location a to a designated external information terminal are provided. The information disclosing means 44 has a map display function 44A for displaying information indicating the status of the specific location a on the map together with the position of the specific location a. The wiring 200 is used for connection between the sensor device 30 and the information management terminal 20, and the information network 10 that is a communication line for power transmission monitoring is used for connection between the information management terminal 20 and the central management device 40. .

  Next, as an example of the present embodiment, a case where the specific location a is a general garbage collection site will be described.

  FIG. 3 is a block diagram showing a configuration in the case where the specific location a in the remote monitoring system of the present embodiment is a general waste disposal site. This remote monitoring system has a configuration in which a plurality of the above-described sensor devices 30 are provided in order to monitor a plurality of garbage collection places in a certain area.

  As shown in FIG. 3, this remote monitoring system is provided for each of the sensor devices 30A to 30N that detect the presence or absence of objects in the garbage collection points A to N provided at a plurality of locations, and the sensor devices 30A to 30N. Information management terminals 20A to 20N provided, a communication line 10 for power transmission monitoring, a central management device 40 connected to the communication line 10 for power transmission monitoring and collecting signals from the information management terminals 20A to 20N, The Internet 100 is connected to the management device 40. The power transmission monitoring communication line 10 connects the information management terminals 20A to 20N installed in the vicinity of the garbage collection points A to N and the central management device 40.

  The information management terminals 20A to 20N and the sensor devices 30A to 30N are connected to each other by a unique wiring 200, and the Internet 100 has an information terminal on the collector side owned by a garbage collector such as a garbage collector or a local government. 50A and a dumper-side information terminal 60A owned by a dumper such as a resident are connected.

  FIG. 7 is an explanatory diagram showing a connection form between the sensor device 30A and the information management terminal 20A. The information management terminal 20A is installed on the upper part of the power pole 400 that supports a distribution line that supplies electricity to the building, and is connected to the power transmission monitoring communication line 10. A sensor device 30 </ b> A is installed in a collection place A provided below the utility pole 400 and is connected to the information management terminal 20 </ b> A via a wiring 200 drawn along the utility pole 400. FIG. 7 shows a connection form between the sensor device 30A and the information management terminal 20A, but the same connection form is adopted for the sensor devices 30B to 30N and the information management terminals 20B to 20N.

  The information management terminals 20A to 20N have a function of transmitting signals output from the sensor devices 30A to 30N to the communication line 10. Sensor devices 30A-30N are a weight sensor, a distance sensor, an infrared sensor, etc., for example.

  The central management device 40 determines signal collection means 41 for receiving signals from the information management terminals 20A to 20N, and the status of garbage collection at a plurality of garbage collection points A to N based on the signals from the information management terminal 20, Information management means 42 for storing the determination result in the storage means 46, Internet connection means 43 connected to the Internet 100, and information on the garbage collection points A to N managed by the information management means 42 are provided to the outside via the Internet 100. An information disclosing means 44 to be disclosed, and a mail transmitting means 45 for transmitting information indicating the status of any of the garbage collection points A to N to a predetermined address according to certain conditions.

  Information managed by the information management means 42 in the central management device 40 is shown in FIG. As shown in FIG. 6 (A), the information management means 42 determines the garbage collection status of the collection stations A to N as “accumulating”, “recovered”, etc. based on the outputs from the sensor devices 30A to 30N. The address as the location information of the garbage collection points A to N and each garbage collection status are managed in association with each other.

  The information disclosing means 44 reads the map information from the map information database stored in the storage means 46 in advance, displays the positions of the garbage collection points A to N and the garbage collection status on the map, and transmits them via the Internet 100. Publish for access. An image of a map image published on the Internet is shown in FIG.

  In addition, the information management means 42 in the central management device 40 receives a notice from the information terminal 50A on the collector side via the Internet 100 that the individually collected garbage is dumped at the designated collection point and date and time. Is registered in the storage means 46.

  The mail transmission means 45 responds to an e-mail notifying that the individually collected garbage is in the designated collection place when it is determined that the designated management date and time registered by the information management means 42 has been disposed of in the designated collection place. When the information management means 42 determines that the individually collected garbage has been collected, an e-mail notifying that the individually collected garbage has been collected is sent to the information terminal 60A on the dumper side. Send.

  Here, the above-described information management means 42, information disclosure means 44, and mail transmission means 45 may be configured such that the function contents are programmed and executed by a computer.

  Next, the overall operation of the embodiment shown in FIG. 3 will be described. Here, the following operation description shows an embodiment of the remote monitoring method of the present invention.

  FIG. 4 is a sequence diagram showing an overall operation when garbage is discarded at the garbage collection site A in the remote monitoring system shown in FIG.

  When the resident dumps garbage in the garbage collection site A (step A1 in FIG. 4), first, the sensor device 30A detects the presence of garbage (step A2 in FIG. 4), and transmits a detection signal to the information management terminal 20A ( Step A3 in FIG. The information management terminal 20A receives the signal from the sensor device 30A and transmits the detection signal to the central management device 40 via the communication circuit 10 for power transmission management (step A4 in FIG. 4). In the central management device 40, the signal receiving means 41 receives a signal from the information management terminal 20A via the communication circuit 10 for power transmission management, and the information management means 42 indicates the state of garbage collection at the garbage collection station A as “accumulating”. (Step A5 in FIG. 4). The information disclosing means 44 displays the updated information of the garbage collection place A on the map (step A6 in FIG. 4), and displays a map (FIG. 6B) showing the garbage collection status of the garbage collection place A. It is published on the Internet (Step A7 in FIG. 4).

  The information terminal 50 on the collector side accesses the central monitoring device 40 via the Internet, displays the map information indicating the presence or absence of garbage collection at the garbage collection points A to N, and the Municipal Environment Bureau, which is a general garbage collector. Refers to the information indicating the presence / absence of garbage accumulation displayed on the information terminal 50, and collects the garbage by giving priority to the garbage collection point A where the garbage has already been collected (step A8 in FIG. 4). In addition, since the information on the garbage collection site disclosed on the Internet can be confirmed by the waste dumper using the information terminal 60, the dumper confirms the collection status of the waste dumped in the garbage collection site A ( Step A9 in FIG.

  Here, in the above description of the operation, the case where the garbage is disposed in the garbage collection place A has been described, but the same applies to the case where the garbage is disposed in any of the garbage collection places B to N.

  As described above, the system of the present embodiment is configured so that the waste collection side can check the waste collection state, so that the waste collection side can grasp the collection state and design an efficient collection route on the day. Efficient waste collection becomes possible because there is no leakage that can be implemented. Moreover, since it is comprised so that the waste dumper side can also confirm a garbage collection condition, the waste dumping side can perform garbage discharge at an appropriate timing.

  Next, another example of the overall operation of the embodiment shown in FIG. 3 will be described. FIG. 5 is a sequence diagram showing an overall operation when individually collected garbage is disposed at the garbage collection site A in the remote monitoring system shown in FIG.

  First, a dumper who wants to discard individually collected garbage that is different from ordinary household waste requests a waste disposal company to collect the individually collected garbage and deposits the collection cost (step B1 in FIG. 5). The requested waste disposal contractor receives the collection fee, adjusts the collection schedule, and notifies the dumper of the garbage collection point to be designated (step B2 in FIG. 5). The garbage collector notifies the central management device 40 using the information terminal 50 that unnecessary items are dumped at the designated collection point A at the designated date and time (step B3 in FIG. 5). In response to the notification from the information terminal 50, the information management means 42 in the central management device 40 registers in the storage means 46 that unnecessary items are dumped at the collection site A at the designated date and time.

  The garbage dumper dumps unnecessary items to the designated collection point A on the designated schedule (step A1 in FIG. 5). The sensor device 30A detects the carry-in of unnecessary items (step A2 in FIG. 5) and transmits a detection signal to the information management terminal 20A (step A3 in FIG. 5). The information management terminal 20A receives the detection signal from the sensor device 30A, and transmits the detection signal to the central management device 40 (step A4 in FIG. 5). In the central management device 40, the signal receiving means 41 receives the signal from the information management terminal 20A, and the information management means 42 updates the garbage collection status shown in the information of the designated garbage collection site A to “with garbage” ( Step A5 in FIG.

  Then, the mail transmission means 45 transmits an e-mail notifying that the garbage is detected to the garbage collection site A to the information terminal 50 (step B4 in FIG. 5). The information terminal 50 receives the e-mail, and the collectr refers to the e-mail and goes to the garbage collection point A to collect the individually collected garbage (step B5 in FIG. 5).

  When the individually collected garbage is collected, the sensor device 30A detects unneeded items being carried out (step A10 in FIG. 5). Similarly, the information management terminal 20A receives the detection signal from the sensor device 30A and transmits the detection signal to the central management device 40. In the central management device 40, the signal receiving means 41 receives the signal from the information management terminal 20A, and the information management means 42 updates the garbage collection status shown in the information of the designated garbage collection site A to “collected”.

  The mail transmission means 45 transmits an e-mail notifying that the garbage at the garbage collection site A has been collected to the dumper side information terminal 60 (step B6 in FIG. 5). When the information terminal 50 receives the e-mail and confirms the e-mail received by the information terminal 60, the discarder confirms the completion of collection of the unnecessary items (step B7 in FIG. 5).

  As described above, the system according to the present embodiment is configured so that the garbage collector is immediately notified that the garbage has been dumped at the designated garbage collection point A at the designated time. If the person collects immediately based on the notice, it will be possible to minimize the time for dumping garbage to the collection site A outside the time zone designated by the local government. The waste collection requested individually can be collected using the existing garbage collection points A to N without inconvenience. In addition, since it is configured so that the collection status of garbage can be notified to both the collector and the dumper by e-mail, the collector of the local government can also collect the charged waste in a timely manner.

  Here, in the above description of the operation, the case where the garbage collection place A is designated as the collection place of the individually collected garbage is shown, but the same applies even if any of the garbage collection places B to N is designated.

  As described above, in the remote monitoring system of the present embodiment, the sensor device 30 can detect a situation in which an object has entered a specific location a inside and outside and the object has been left, and the central management device 40 can detect the detected information. Since the collection point is designated as a garbage collection point, the collection status of the scattered garbage collection points A to N can be centrally managed, improving the efficiency of waste collection work and the convenience of dumpers To improve.

  In addition to monitoring garbage collection points, for example, if a parking prohibited area or a parking prohibited area is designated as a specific location a, it is possible to efficiently control illegal parking and annoying parking, and further, a sensor device If a security buzzer is installed on the utility pole as 30 and an alarm signal from the security buzzer is transmitted to the power transmission monitoring line 10 and received by the central management device 40, it will play a role of crime prevention on the road. You can also.

It is a block diagram which shows an example of a structure of the remote monitoring system of one Embodiment concerning this invention. It is a block diagram which simplifies and shows the structure of the remote monitoring system of embodiment disclosed in FIG. It is a block diagram which shows the other example of a structure of embodiment concerning this invention. FIG. 4 is a sequence diagram showing an example of the overall operation of the embodiment disclosed in FIG. 3. It is a sequence diagram which shows the other example of the whole operation | movement of embodiment disclosed in FIG. It is a figure which shows an example of the information which the central management apparatus in embodiment disclosed in FIG. 3 manages. It is explanatory drawing which shows the connection form of the sensor apparatus and information management terminal in embodiment disclosed in FIG.

Explanation of symbols

a Specific location A to N Garbage collection station 10 Communication line for power transmission monitoring 20, 20A to 20N Information management terminal 30, 30A to 30N Sensor device 40 Central management device 41 Signal reception means 42 Information management means 43 Internet connection means 44 Information disclosure Means 45 Mail transmission means 50 terminal 60 terminal 50A information terminal on the collector side 60A information terminal on the dumper side 100 internet

Claims (21)

A sensor device that detects information on an object and an event at a specific location inside and outside and outputs this as a detection signal, an information management terminal that collects the detection signal from this sensor device and sends it to a communication line, and this information management terminal And a central management device connected via the communication line,
Using a communication line for power transmission monitoring as the communication line connecting the information management terminal and the central management device,
The central management device includes information management means for determining the status of the specific location based on a detection signal transmitted from the information management terminal, storing the result, and outputting the determination result to an external terminal. A remote monitoring system characterized by that. The remote monitoring system according to claim 1, wherein
The remote monitoring system according to claim 1, wherein the central management device includes information disclosure means for publishing information indicating the status of the specific location managed by the information management means to an external terminal via the Internet. The remote monitoring system according to claim 2, wherein
The information disclosing means displays information indicating the status of the specific location on a map together with the location of the specific location and publishes the remote monitoring system The remote monitoring system according to claim 3, wherein
The remote management system according to claim 1, wherein the central management device includes a mail transmission unit that transmits information indicating the status of the specific location determined by the information management unit to a predetermined external terminal. In the remote monitoring system according to any one of claims 1 to 4,
The object is a waste garbage, the specific location is a waste garbage collection site, the sensor device is a waste garbage detection sensor device, and the information management means in the central management device is based on the detection signal. A remote monitoring system for judging the state of garbage collection at a collection place. The remote monitoring system according to claim 4, wherein
With the object as waste garbage, the specific location as a waste garbage collection site, the sensor device as a waste dust detection sensor device,
When the central management device receives a notification from the terminal on the collector side that is used on the side of the garbage collector that the individually collected garbage will be dumped at the designated collection point and date / time, it will be notified in advance. Comprising information storage means for registering,
When the information management means determines that the specified designated date and time and the designated collection point have been disposed of, the e-mail transmission means, based on the information from the information management means, specifies that the individually collected garbage is designated. A remote monitoring system, characterized in that information indicating that it has been disposed of at a collection point is transmitted to a terminal on the corresponding collector side. The remote monitoring system according to claim 6, wherein
The mail transmission means in the central management device is information indicating that the individually collected garbage has been collected based on information from the information managing means when the information managing means determines that the individually collected garbage has been collected. Is transmitted to the terminal of the corresponding dumper side. In a remote monitoring method for remotely monitoring specific locations indoors and outdoors,
The sensor device detects information relating to the object and event at the specific location and outputs a detection signal,
Send this detection signal to the communication line for power transmission monitoring,
The central management device receives the detection signal via the communication line for power transmission monitoring, determines the status of the specific location based on the received detection signal, stores the result, and for the external terminal A remote monitoring method characterized by outputting a judgment result. The remote monitoring method according to claim 8, wherein
The remote monitoring method characterized in that the central management device publishes information indicating the status of the specific location as the determination result to an external terminal via the Internet. The remote monitoring method according to claim 9, wherein
A remote monitoring method, wherein the central management device displays information indicating the status of the specific location, which is the determination result, together with the location of the specific location on a map and discloses the information to an external terminal. The remote monitoring method according to claim 10, wherein
The remote monitoring method, wherein the central management device transmits information indicating the status of the specific location, which is the determination result, to an external terminal designated in advance. The remote monitoring method according to any one of claims 8 to 11,
When the object is waste garbage and the specific place is a waste garbage collection point,
The sensor device detects the presence of waste,
The remote monitoring method characterized in that the central management device judges the garbage collection status at the collection site based on the detection signal, stores the result, and transmits the judgment result to an external terminal. The remote monitoring method according to claim 12, wherein
The central management device receives a notification that the individually collected garbage will be dumped at the designated collection point and date and time from the terminal of the collector used by the garbage collector, and registers this fact, When it is determined that the individually collected garbage has been put out at the designated collection point at the designated designated date and time, information indicating that the individually collected garbage has been dumped at the designated collection point is transmitted to the corresponding collector terminal. A remote monitoring method characterized by the above. The remote monitoring method according to claim 13, wherein
When the central management apparatus determines that the individually collected garbage has been collected, the remote monitoring method is characterized in that information indicating that the individually collected garbage has been collected is transmitted to a terminal of a corresponding dumper. A detection signal acquisition function for acquiring a detection signal output from a sensor device that detects information related to an object and an event at a specific location indoors and outdoors;
An information management function for determining the situation of the specific location based on the acquired detection signal and storing the result;
A remote monitoring program that causes a computer to execute an information transmission function for outputting the determination result to an external terminal. In the remote monitoring program according to claim 15,
The remote monitoring program characterized in that the information transmission function is a function of disclosing information indicating the status of the specific location determined by the information management function to an external terminal via the Internet. The remote monitoring program according to claim 16, wherein
The information transmission function is a function of displaying information indicating the status of the specific location determined by the information management function on a map together with the location of the specific location and publishing the information to an external terminal via the Internet. Remote monitoring program. In the remote monitoring program according to claim 15,
The program for remote monitoring characterized in that the information transmission function is a function of transmitting information indicating the status of the specific location determined by the information management function to a predetermined external terminal. The remote monitoring program according to any one of claims 15 to 18,
When the object is waste garbage and the specific place is a waste garbage collection point,
A program for remote monitoring characterized in that the information management function is a function for judging the accumulation status of garbage at the collection site based on the detection signal and storing the result. In the remote monitoring program according to claim 18,
When the object is waste garbage and the specific place is a waste garbage collection point,
The information management function is a function for judging the accumulation status of garbage in the collection site based on the detection signal and storing the result.
Along with the registration function to receive notifications via the Internet that individual collection waste will be dumped at the designated collection point and date and time from the terminal on the collector side used on the garbage collector side, When the information management function determines that the information transmission function has been designated as the designated date and time of registration, and the information management function determines that the garbage has been disposed of, the information indicating that the individually collected garbage has been dumped at the designated collection point is displayed. A remote monitoring program that is executed by the computer as a function to be transmitted to a corresponding terminal on the collector side. In the remote monitoring program according to claim 20,
When the information management function determines that the individually collected garbage has been collected, the information transmission function is a function of transmitting information indicating that the individually collected garbage has been collected to the corresponding dumper side terminal. A remote monitoring program characterized by that.

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