JP2021128575A - In-site information system, in-site information providing method, and in-site information server - Google Patents

Abstract

To provide an in-site information system which can send notification to a worker requiring information as a target.SOLUTION: An in-site information system has a plurality of terminal devices and an in-site information server. The in-site information server has a measurement result acquisition unit for acquiring a result measured by a sensor for measuring in-site environment, a storage unit for storing rule information specifying a worker that is a target for transmitting the in-site information according to a measurement result, a specification unit for specifying a terminal device that is an object for transmitting the in-site information based on the measurement result and the rule information, and a transmission unit for transmitting the in-site information to the specified terminal device. The terminal device has a reception unit for receiving the in-site information transmitted from the in-site information server, and an output unit for outputting the received in-site information to a user so as to transmit it through an auditory sense.SELECTED DRAWING: Figure 1

Description

The present invention relates to an on-site information system, an on-site information providing method, and an on-site information server.

Conventionally, at a construction site, when a sensor detects an abnormality at the construction site, a rotating light is turned or a siren is sounded. That is, the abnormality detected at the construction site is sent to all the workers at the construction site as information indicating the abnormality (light of a rotating lamp, siren sound).

In a tunnel as a construction site, when there is a worker who is close to the backhoe (heavy equipment), an information management system that sends an alarm to the alarm device and alerts the worker to the backhoe, for example, is patented. There is an information management system described in Document 1.

JP-A-2019-27049

However, when an abnormality is notified by a rotating light or a siren, the worker who has nothing to do with the information indicating the abnormality can perform the work by seeing the light of the rotating light or listening to the siren sound. May be interrupted. In this case, a time loss occurs in the work, which causes a decrease in productivity at the construction site. That is, it is desirable that the necessary information can be notified only to the worker in charge who needs the information.

The present invention has been made in view of such circumstances, and an object of the present invention is an on-site information system capable of notifying a worker who needs information, an on-site information providing method, and an on-site information server. Is to provide.

In order to solve the above-mentioned problems, one aspect of the present invention is an on-site information system having a plurality of terminal devices and an on-site information server, and the on-site information server measures the on-site environment. The measurement result acquisition unit that acquires the result measured by the sensor, the storage unit that stores the rule information that identifies the target worker who transmits the on-site information according to the measurement result, and the measurement result and the rule information. It has a specific unit that specifies a target terminal device to be transmitted based on the above, and a transmission unit that transmits on-site information to the specified terminal device, and the terminal device is transmitted from the on-site information server. It is an on-site information system having a receiving unit for receiving on-site information and an output unit for outputting the received on-site information to a user through hearing.

Further, one aspect of the present invention is a method of providing on-site information in an on-site information system having a plurality of terminal devices and an on-site information server, and a measurement result acquisition unit of the on-site information server is in the site. The result measured by the sensor that measures the environment is acquired, and the storage unit of the site information server stores the rule information that identifies the target worker to transmit the site information according to the measurement result, and the site The specific unit of the internal information server identifies the target terminal device to be transmitted based on the measurement result and the rule information, and the transmission unit of the on-site information server transmits the on-site information to the specified terminal device. The receiving unit of the terminal device receives the on-site information transmitted from the on-site information server, and the output unit of the terminal device transmits the received on-site information to the user through hearing. It is a method of providing on-site information that can be output as much as possible.

Further, one aspect of the present invention is an on-site information server in an on-site information system having a plurality of terminal devices and an on-site information server, and acquires the result measured by a sensor that measures the on-site environment. A measurement result acquisition unit, a storage unit that stores rule information that identifies a target worker who transmits on-site information according to the measurement result, and a terminal device that is a target to be transmitted based on the measurement result and the rule information. It is an on-site information server having a specific unit for specifying the above and a transmission unit for transmitting on-site information to the specified terminal device.

As described above, according to the present invention, it is possible to notify a worker who needs information.

It is a schematic block diagram which shows the structure of the underground information system 1 by one Embodiment of this invention. It is a schematic functional block diagram explaining the function of the underground information system 1. It is a functional block diagram explaining the function of the terminal apparatus 20. It is a sequence diagram explaining the operation of the underground information system 1. It is a figure which shows an example of the transmission rule information stored in the storage part 102. It is a figure which shows an example of the destination information which specifies the transmission target. It is a figure which shows an example of the destination information which specifies the transmission target.

Hereinafter, the on-site information system according to the embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a schematic block diagram showing a configuration of an underground information system 1 according to an embodiment of the present invention. In this embodiment, the case where the site is underground is taken as an example, and the case where the site information system is configured as the underground information system will be described, but the site does not have to be underground.
The underground information system 1 includes an underground information server 10 (on-site information server), a terminal device 20a, a terminal device 20b (hereinafter, simply referred to as a terminal device 20 when the terminal device is not particularly identified), and a measurement data collecting device. It has 30, a sensor 40, a camera 50, and a network 60, and transmits and receives various information related to the inside of the tunnel 70.

The tunnel 70 is a tunnel at a stage where construction such as excavation and concrete placement is being carried out, and the construction proceeds from the wellhead 71 toward the face 72. In this embodiment, the case where the tunnel 70 is subjected to work such as excavation will be described, but it may be the case where repair work or inspection is performed after the tunnel 70 is completed. The tunnel 70 may be a mountain tunnel, a subway tunnel, a shield tunnel, or the like.
A duct 73 is provided in the tunnel 70. The duct 73 is arranged so as to extend from the wellhead 71 of the tunnel 70 to the face 72 at a substantially central position in the upper side of the tunnel 70 in the transverse direction. A blower 74 is provided at the end of the duct 73 on the wellhead 71 side. The blower 74 supplies fresh air (fresh air) outside the tunnel 70 into the tunnel 70 through the duct 73.
Further, wireless LAN routers are installed at predetermined intervals between the wellhead 71 of the tunnel 70 and the face 72. The wireless LAN router communicates with the terminal device 20 by a communication method such as Wi-Fi (registered trademark), 4G (4th generation mobile communication system), 5G (5th generation mobile communication system), and ad hoc. It communicates with the underground information server 10 via the network 60.

The underground information server 10 communicates with the terminal device 20 (terminal device 20a, terminal device 20b), the measurement data collecting device 30, and the camera 50 via the network 60, and transmits various information to the terminal device 20. The underground information server 10 may be a single server device or a cloud server.
The terminal device 20 is a mobile terminal device carried by an underground worker, and wirelessly communicates with the underground information server 10. Here, a wireless LAN router is installed in the tunnel 70 at a predetermined interval between the wellhead 71 and the face 72, and the terminal device 20 is wirelessly connected to the wireless LAN router even in the tunnel 70. By doing so, it is possible to communicate with the underground information server 10 via the network 60. Here, two terminal devices 20a and terminal devices 20b are shown, but the number of terminal devices 20 may be three or more.
The measurement data collecting device 30 receives the measurement results transmitted from each sensor 40, and transmits the received measurement results to the underground information server 10.

The sensor 40 is a sensor that measures the environment inside the tunnel, and is installed at a predetermined interval between the wellhead 71 and the face 72 of the tunnel 70. Examples of the type of the sensor 40 include a dust sensor, a temperature sensor, a gas sensor, a wind speed sensor, and the like. When a dust sensor is used as the sensor 40, the dust concentration, the amount of dust per unit time, and the like can be measured as the environment in the mine. When a temperature sensor is used as the sensor 40, the underground temperature or the like can be measured as the underground environment. When a humidity sensor is used as the sensor 40, the underground humidity and the like can be measured as the underground environment. When a gas sensor is used as the sensor 40, _{the concentration of a predetermined gas (CO, CO 2} , O ₂ , NOx, methane gas, etc.) can be measured as the environment inside the mine. When a wind speed sensor is used as the sensor 40, the wind speed can be measured as the environment inside the mine. When installing the sensor 40, one or a plurality of types of sensors may be installed at one installation location.
Further, when the sensor 40 is installed, the sensor 40 of the type corresponding to the item of the environment to be measured may be installed at the position to be measured. For example, since dust is likely to be generated around the face, a dust sensor is installed, and a dust sensor, a gas sensor, a wind speed sensor, a temperature sensor, etc. are installed in an area where many workers are working (for example, behind the face). You may do so. Further, a temperature sensor, a dust sensor, or the like may be provided in the vicinity of the wellhead. Further, as the excavation is performed, the distance of the face 72 from the wellhead 71 becomes longer. A new sensor 40 may be provided at the location extended by excavation.
Further, the sensor 40 may be a sensor that measures the amount of power consumption. The target for measuring the power consumption may be a lighting device, a sprayer, a drill jumbo, a spray plant, a blower 74, or the like installed in the tunnel 70.
Further, the sensor 40 is a sensor for enhancing safety related to the environment in the mine, and is a vehicle approach sensor that measures the distance between the vehicle 80 (heavy equipment) approaching the own device and the own device. There may be.
Further, the sensor 40 may be a camera 50 described later.

The camera 50 images the periphery including the wellhead 71. By using the image pickup result of the camera 50, it is possible to confirm the worker and the vehicle 80 entering the tunnel 70 and the worker and the vehicle 80 leaving the tunnel 70.
The network 60 is, for example, the Internet, a public line network, or the like.

FIG. 2 is a schematic functional block diagram illustrating the functions of the underground information system 1.
The underground information server 10, the terminal device 20 (terminal device 20a, terminal device 20b), the measurement data collecting device 30, the sensor 40, and the camera 50 are communicably connected via the network 60.
Each of the plurality of sensors 40 (here, the two sensors 40a and 40b) makes measurements at regular time intervals, and transmits the measurement results to the measurement data collection device 30.
The measurement data collecting device 30 receives the measurement result from each sensor 40 and transmits it to the underground information server 10.
The camera 50 transmits the imaging data to the underground information server 10.

The underground information server 10 includes a communication unit 101, a storage unit 102, a determination unit 103, a transmission control unit 104, a specific unit 105, and a control unit 106.
The communication unit 101 (reception unit, transmission unit, and measurement result acquisition unit) has a function of communicating with a device connected to the network 60, and receives, for example, a measurement result transmitted from the measurement data collection device 30. Function (function to acquire the measurement result detected by the sensor that measures the environment in the mine), function to receive the imaging data transmitted from the camera 50, function to receive emergency information indicating the occurrence of an emergency, transmission target It has a function of transmitting underground information (on-site information) to the terminal device of.

The storage unit 102 stores various information such as underground information which is information about the underground.
The information stored in the storage unit 102 is, for example, a measurement result received from the measurement data collection device 30, notification information to be transmitted to the terminal device 20, and the like.
The storage unit 102 is a storage medium, for example, an HDD (Hard Disk Drive), a flash memory, an EEPROM (Electrically Erasable Programmable Read Only Memory), a RAM (Random Access read / write Memory), or a RAM (Random Access read / write Memory) It is composed of any combination of storage media.
For the storage unit 102, for example, a non-volatile memory can be used.
In addition, the storage unit 102 stores transmission rule information (described later).

The determination unit 103 determines whether or not the measurement result included in the underground information exceeds the reference value. The reference value may be stored in the storage unit 102 in advance and used. As the reference value, a value corresponding to the type of the sensor 40 or each sensor is stored. For example, when the sensor 40 is a dust sensor, the reference value of dust is used as the reference value. When the sensor 40 is a temperature sensor, a temperature reference value is used as the reference value. When the sensor 40 is a vehicle approach sensor, the reference value of the distance is used as the reference value.

Based on the determination result of the determination unit 103, the transmission control unit 104 (first transmission control unit) provides underground information (notification information) according to the determination result to the communication unit 101 when the determination result requires notification. Send by. For example, the transmission control unit 104 tells the terminal device 20 that if the measurement result exceeds the reference value based on the determination result of the determination unit 103, the underground information (notification information) indicates that the reference value is exceeded. ) Is transmitted by the communication unit 101, or when the measurement result is less than the reference value, underground information (notification information) indicating that the measurement result is less than the reference value is transmitted to the terminal device 20.

The identification unit 105 identifies the terminal device 20 to be transmitted, which transmits underground information, among the plurality of terminal devices 20, according to the type of the sensor 40.

FIG. 3 is a functional block diagram illustrating the functions of the terminal device 20. Any type of terminal device 20 may be used, but in this figure, a case where the terminal device 20 is a headset utilizing bone conduction will be described.
The terminal device 20 has a communication unit 201, a storage unit 202, an output unit 205, and a control unit 206, and is attached to an underground worker.
The communication unit 201 (reception unit and transmission unit) has a function of receiving underground information transmitted from the underground information server 10 and a function of transmitting an audio signal corresponding to the detected vibration of the vocal cords to the underground information server. ..
The storage unit 202 stores various information.
The storage unit 202 is a storage medium, for example, an HDD (Hard Disk Drive), a flash memory, an EEPROM (Electrically Erasable Programmable Read Only Memory), a RAM (Random Access memory, Memory), or a RAM (Random Access read / write Memory). It is composed of any combination of storage media.
For the storage unit 202, for example, a non-volatile memory can be used.

The output unit 205 outputs the received underground information. The output unit 205 may be, for example, one that can transmit underground information through the auditory sense of the user of the terminal device 20, that is, one that can transmit the underground information to the user through the auditory sense. Specifically, the output unit 205 can use any one of headphones, earphones, and a bone conduction vibration device. The underground information to be output may be an alarm sound, or the content of the alarm may be read out by voice, or may be output by voice using a reading function. When a bone conduction vibration device is used as the output unit 205, underground information can be transmitted in a state where it is not easily affected by ambient noise.
The control unit 206 controls each unit of the terminal device 20.

FIG. 4 is a sequence diagram illustrating the operation of the underground information system 1.
The sensor 40 measures the underground environment (step S101) and transmits the measurement result to the measurement data collection device 30 (step S102). Here, since a plurality of sensors 40 are installed between the vicinity of the end on the wellhead 71 side and the vicinity of the face 72 inside the tunnel 70, each sensor 40 measures and measures when a predetermined measurement timing arrives. The result is transmitted to the measurement data collection device 30.

The measurement data collecting device 30 receives the measurement results transmitted from each sensor 40 (step S201), temporarily stores the measurement results, and then transmits the stored measurement results when a predetermined transmission timing arrives (step S202). This transmission is performed every time a predetermined transmission timing arrives. The predetermined transmission timing may be arbitrarily determined, may be every few seconds, or may be every few minutes.
On the other hand, the control unit 106 in the underground information server 10 detects the terminal device 20 connected to each wireless LAN router (step S301). Here, the underground information server 10 stores in the storage unit 102 information on which wireless LAN router among the plurality of wireless LAN routers is installed at which position in the tunnel 70. The terminal device 20 confirms the connection by periodically communicating with the wireless LAN router at a position where it can communicate with the own terminal device 20. At that time, the control unit 106 detects the terminal identification information (for example, MAC address, etc.) of the terminal device 20 notified from the terminal device 20 to the wireless LAN router, so that which terminal device 20 is which wireless LAN router. It is possible to detect whether the terminal device 20 is connected to the terminal device 20 and where the terminal device 20 is located in the field. That is, the control unit 106 can detect whether the terminal device 20 is present in the vicinity of the position where the sensor 40 is present.
In the tunnel 70, the distance of the face 72 from the wellhead 71 becomes longer as the excavation is performed. Therefore, when the excavation progresses to some extent, a new wireless LAN router is installed in the vicinity of the face 72, and the wireless LAN router is installed. The identification information and the distance from the face 72 may be stored in the storage unit 102.

When the communication unit 101 of the underground information server 10 receives the measurement result transmitted from the measurement data collection device 30 (step S302), the communication unit 101 stores the received measurement result in the storage unit 102. When the measurement result is stored, the determination unit 103 determines whether or not to transmit the underground information based on the measurement result and the transmission rule (step S303).
Here, the transmission rule information is stored in the storage unit 102. FIG. 5 is a diagram showing an example of transmission rule information stored in the storage unit 102.
The transmission rule information includes information on the sensor ID, transmission standard, transmission range, and notification information.
The sensor ID is information that identifies the sensor that is the source of the measurement result. A sensor ID is assigned to each of the sensors 40 in advance, and when a measurement result is obtained from the sensor 40, the measurement data collection device 30 assigns the sensor ID of the sensor 40 that performed the measurement and the measurement result to the underground information server. Send to 10. The communication unit 101 stores the sensor ID and the measurement result in the storage unit 102. This makes it possible to grasp from which sensor the measurement result is transmitted.
The transmission standard is a rule that defines the conditions for whether or not to transmit underground information based on the measurement result. For example, the sensor ID "S001" is associated with "exceeding the reference value t1", and when the measurement result (temperature data) obtained from the sensor ID S001 exceeds the reference value t1, underground information The rule of sending is remembered.
The transmission range indicates the range in which underground information is transmitted. For example, the construction site is divided into a plurality of areas (work areas), and information for identifying the areas (for example, area name) is assigned to each area. Therefore, when the transmission range "Area A1" is defined, the terminal device existing in the "Area A1" can be specified as a target for transmitting underground information. This area may be set to correspond to the communication area of the wireless LAN router.
Further, the transmission range may be an organization to be transmitted. The organization includes, for example, a group in charge of managing the operation of the contrafan, a group working in the vicinity of a specific heavy machine, and the like.
The notification information is a message to be transmitted to the terminal device 20 when the transmission standard is satisfied. The notification information may be text information or voice data according to a message.

The determination unit 103 refers to the transmission standard of the transmission rule information stored in the storage unit 102, which corresponds to the sensor ID of the transmission source of the stored measurement result. Then, the determination unit 103 determines whether or not the measurement result satisfies the transmission standard. For example, when the measurement result is temperature data, it is determined whether or not the temperature data exceeds the reference value t1. The determination unit 103 determines that the underground information is transmitted when the temperature data exceeds the reference value t1, and determines that the underground information is not transmitted when the temperature data does not exceed the reference value t1.
When the determination unit 103 determines that the underground information is to be transmitted, the identification unit 105 reads out the transmission range corresponding to the transmission reference used for the determination, and identifies the terminal device corresponding to the read transmission range (step S304). ).

FIG. 6 is a diagram showing an example of destination information for specifying a transmission target. The destination information may be specified by a group or by an area, for example.
FIG. 6A is group information showing the relationship between the transmission destination group and the terminal device belonging to the group. The group information is information in which the group ID and the transmission target are associated with each other. For example, the group ID "S001" is associated with "U001" and "U010" as identification information for identifying the destination terminal device 20.
FIG. 6B is area information showing the relationship between the transmission destination area and the terminal device existing in the area. The area information is information in which the area ID and the transmission target thereof are associated with each other. For example, the area ID "Area A1" is associated with "U001" and "U010" as identification information for identifying the terminal device 20 existing in the "Area A1".

The identification unit 105 identifies the destination terminal device 20 by referring to the destination information corresponding to the transmission range when the determination unit 103 determines to transmit the underground information. For example, when "Area A1" is set as the transmission range, it is possible to refer to the area information and specify that the transmission destination terminals are "U001" and "U010". Further, for example, when "group S002" is set as the transmission range, it is possible to refer to the group information and specify that the transmission destination terminals are "U002", "U011", and "U020". can.
When the transmission destination is specified, the control unit 106 generates underground information according to the result determined to transmit the underground information, and transmits the generated underground information to the terminal device 20 specified by the specific unit 105. And transmit (step S305). When generating the underground information, the control unit 106 reads, for example, the notification information associated with the transmission standard when it is determined to transmit the underground information from the storage unit 102, and obtains the read notification information as the underground information. ..
As a result, for example, the control unit 106 generates underground information indicating that the temperature exceeds the reference value. The underground information generated here is, for example, "The temperature is rising. Set the contrafan (ventilation equipment in the tunnel) to" strong ". It is voice data which is a message such as.
Alternatively, when the measurement result is obtained from the sensor 40, which is the vehicle approach sensor, the determination unit 103 determines whether or not the measurement result "1 / distance" exceeds the reference value "1 / distance". To judge. If it exceeds, the control unit 106 generates underground information indicating that "1 / distance" exceeds the reference value. The underground information generated here is, for example, voice data such as a message such as "heavy machinery is approaching."

When the identified terminal device 20 to be transmitted receives underground information from the underground information server 10 (step S401), it outputs the received underground information (step S402). As a result, the voice corresponding to the underground information is transmitted to the underground worker.
As a result, for example, if the sensor 40 rises by 5 ° C in the tunnel mine, only the mine worker in charge of the contrafan can see the "temperature is rising. Make the contrafan" strong "" included in the mine information. Please set. You can hear the voice data. Based on this message, the underground worker in charge of the contra fan will take measures such as setting the contra fan to "strong" or checking whether the air conditioner (cooling, etc.) is operating normally. be able to.
Further, when the sensor 40 detects the approach of the heavy machine, for example, only the underground worker located in the traveling direction of the heavy machine can hear the voice data "The heavy machine is approaching" included in the underground information. can. Based on this message, underground workers located in the direction of travel of heavy machinery can evacuate to a safe place.

The storage unit 202 of the terminal device 20 stores the message ID that identifies the message as the underground information and the voice data in association with each other, receives the message ID as the underground information from the underground information server 10, and receives the message ID as the underground information. 20 may read the voice data corresponding to this message ID from the storage unit 202 and drive the bone conduction device according to the voice signal represented by this voice message.
Further, the voice message may be voice data obtained by converting the voice spoken by a person into data, or may be voice data obtained by synthetic voice.
Further, since the underground information transmitted to the underground worker may be expressed by sound, it may be a voice, a ringtone indicating that a message has been received, a warning sound, or the like. ..

According to this embodiment, only the worker who needs the information can be notified by the information that can express the necessary information by sound.
Further, according to this embodiment, since the tunnel information is transmitted only to the specified terminal device 20 to be transmitted based on the measurement result of the sensor 40, it is possible to collect data due to safety. It is possible to detect that some kind of notification is required in the environment inside the tunnel 70, and provide various information to the underground worker who has the specified terminal device 20 to be transmitted without human intervention.

Further, in this embodiment, the underground information is generated by using the measurement result of the sensor 40, but the underground information may be generated based on the image taken by the camera 50. For example, the underground worker entering the tunnel 70 may be detected from the captured image of the camera 50, or the underground worker coming out of the tunnel 70 may be detected to generate underground information according to the detection result. good. For example, by identifying the underground worker based on the feature amount of the image from the image taken by the camera 50, it is possible to identify who the underground worker is in the tunnel 70 (based on the face image and the movement of the body). Identify the tunnel worker, identify the tunnel worker by recognizing the characters from the name written on the helmet, etc.), notify the tunnel worker that the tunnel worker has entered the tunnel, or notify the tunnel worker with the tunnel information. May be notified by underground information that the camera has gone out of the tunnel 70.

The underground information server 10 and the terminal device 20 in the above-described embodiment may be realized by a computer. In that case, the program for realizing this function may be recorded on a computer-readable recording medium, and the program recorded on the recording medium may be read by the computer system and executed. The term "computer system" as used herein includes hardware such as an OS and peripheral devices. Further, the "computer-readable recording medium" refers to a portable medium such as a flexible disk, a magneto-optical disk, a ROM, or a CD-ROM, or a storage device such as a hard disk built in a computer system. Further, a "computer-readable recording medium" is a communication line for transmitting a program via a network such as the Internet or a communication line such as a telephone line, and dynamically holds the program for a short period of time. It may also include a program that holds a program for a certain period of time, such as a volatile memory inside a computer system that serves as a server or a client in that case. Further, the above program may be for realizing a part of the above-mentioned functions, and may be further realized for realizing the above-mentioned functions in combination with a program already recorded in the computer system. It may be realized by using a programmable logic device such as FPGA (Field Programmable Gate Array).

Although the embodiments of the present invention have been described in detail with reference to the drawings, the specific configuration is not limited to this embodiment, and includes designs and the like within a range that does not deviate from the gist of the present invention. Further, in the embodiment of the present invention, the case where the site is underground has been described, but the site information system is not limited to the application in the underground such as tunnels and underground excavations, and building structures such as buildings and bridges. It can also be applied to construction sites of other civil engineering structures such as.

1 ... Underground information system, 10 ... Underground information server, 20, 20a, 20b ... Terminal equipment, 30 ... Measurement data collection device, 40, 40a, 40b ... Sensor, 50 ... Camera, 60 ... Network, 70 ... Tunnel, 71 ... Wellhead, 72 ... Face, 73 ... Duct, 74 ... Blower, 80 ... Vehicle, 101 ... Communication unit, 102 ... Storage unit, 103 ... Judgment unit, 104 ... Transmission control unit, 105 ... Specific unit, 106 ... Control unit, 201 ... Communication unit, 202 ... Storage unit, 205 ... Output unit, 206 ... Control unit, 250 ... Main unit, 251 ... Headband, 252 ... Battery storage unit, 253 ... Volume key, 254 ... Storage unit, 255 ... Attachment connection Terminal 260 ... Signal line

Claims (5)

An on-site information system having a plurality of terminal devices and an on-site information server.
The on-site information server is
A measurement result acquisition unit that acquires the results measured by a sensor that measures the environment in the field,
A storage unit that stores rule information that identifies the target worker who transmits on-site information according to the measurement results.
A specific unit that identifies a target terminal device to be transmitted based on the measurement result and the rule information, and
A transmitter that transmits on-site information to the specified terminal device,
Have,
The terminal device is
A receiving unit that receives on-site information transmitted from the on-site information server, and
An output unit that outputs the received on-site information to the user so that it can be transmitted through hearing.
On-site information system with. The storage unit
The sensor and the transmission range that specifies the area to be transmitted at the site are stored in association with each other.
The specific part is
The on-site information system according to claim 1, wherein a terminal device whose position is within the transmission range is specified as a transmission target. The storage unit
The sensor and a transmission range that specifies a group to be transmitted at the site are stored in association with each other.
The specific part is
The on-site information system according to claim 1, wherein a terminal device belonging to a group defined by the transmission range is specified as a transmission target. It is a method of providing on-site information in an on-site information system having a plurality of terminal devices and an on-site information server.
The measurement result acquisition unit of the on-site information server acquires the result measured by the sensor that measures the environment in the site.
The storage unit of the on-site information server stores the rule information that identifies the target worker to transmit the on-site information according to the measurement result.
The specific unit of the on-site information server identifies the target terminal device to be transmitted based on the measurement result and the rule information.
The transmission unit of the on-site information server transmits the on-site information to the specified terminal device, and the on-site information is transmitted.
The receiving unit of the terminal device receives the on-site information transmitted from the on-site information server, and receives the on-site information.
An on-site information providing method in which an output unit of the terminal device outputs the received on-site information to a user by hearing. An on-site information server in an on-site information system having a plurality of terminal devices and an on-site information server.
A measurement result acquisition unit that acquires the results measured by a sensor that measures the environment in the field,
A storage unit that stores rule information that identifies the target worker who transmits on-site information according to the measurement results.
A specific unit that identifies a target terminal device to be transmitted based on the measurement result and the rule information, and
A transmitter that transmits on-site information to the specified terminal device,
On-site information server with.

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