KR20240054049A - Recoding device for construction site self-operatable local area network system that optional interlocking Bluetooth-Lola network construction site smart safety management system containing a detachable risk detection terminal of construction equipment - Google Patents

Abstract

The present invention provides recognition at construction sites where all common public network communications and networks such as Wi-Fi, GPS, 5G, and LTE are not available, etc. Recently, distance communication is based on Bluetooth communication for short-distance communication, and mid-distance communication is based on LoRa communication for accident notification, It provides an infrastructure system that can send and receive messages such as two-way SOS and emergency notifications, performs an alarm function at safety accident prediction points, and provides a construction site self-operating short-distance communication network that efficiently provides warnings for pre-accident predictions and post-accident enforcement information. The purpose is to provide smart safety management at construction sites through selective linkage between Bluetooth and LoRa networking.
In addition, for smart safety management at construction sites, the purpose is to provide efficient and reliable communication services by using construction worker risk detection devices and the construction site's own local area network selectively linked Bluetooth-LoRa networking.

Description

Construction site self-operating local area network including construction equipment detachable risk detection terminal Bluetooth-Lola networking optional interlocking construction site smart safety management system Recording device {Recoding device for construction site self-operatable local area network system that optional interlocking Bluetooth-Lola network construction site smart safety management system containing a detachable risk detection terminal of construction equipment}

The technical field of our invention is technology related to a system for smart construction safety using LoRa communication at construction sites where existing public networks such as GPS communication, WiFi, 3G, 4G LTE, 5G, and 6G do not operate. am.

In addition, the present invention detects danger using portable devices such as infrared motion detection sensors, ultrasonic distance sensors, and thermal imaging cameras in construction risk areas, immediately warns, and collects data through its own LoRa communication network to prevent future pre-construction. It is about a system that utilizes safety prevention data.

Recently, the need for IoT-based safety management is increasing due to the mandatory introduction of smart safety equipment, and minimizing damage from industrial accidents at construction sites and prompt response, that is, immediate accident recognition and response, are emerging as important aspects.

Accordingly, various attempts and studies on construction safety are being conducted using IoT technology, etc.

Industrial site safety management system using hard hats, Korea/10-2012-0143577, Electronics and Telecommunications Research Institute, Construction site safety management system using RFID Korea/10-2009-0126067 Safety for users through safety helmets from Youngwoo Industries, etc. Many attempts are being made at construction sites, such as surveillance systems, warning systems to reduce collision accidents, and productivity improvement technologies that perform construction similar to 3D digital map design using drones.

However, despite these efforts, communication problems still persist at construction sites, such as within construction sites after framing or within underground facilities under construction. In particular, in the case of apartment construction sites, there are communication blind spots where all normal public network communications such as Wi-Fi, GPS, 5G, and LTE are not available at most sites until move-in, and some workers use walkie-talkies for management, etc. The reality is that there are blind spots in communication for safety at construction sites.

In addition, as a result of field tests, all public network communications, including LTE, 5G, and Wi-Fi, were unavailable in a significant portion, including the underground parking lot under construction. This was detrimental to the safety of construction workers, who had no way to report an accident if they did not have a walkie-talkie when an accident occurred. There is a serious problem.

The present invention provides recognition at construction sites where all common public network communications and networks such as Wi-Fi, GPS, 5G, and LTE are not available, etc. Recently, distance communication is based on Bluetooth communication for short-distance communication, and mid-distance communication is based on LoRa communication for accident notification, It provides an infrastructure system that can send and receive messages such as two-way SOS and emergency notifications, performs an alarm function at safety accident prediction points, and provides a construction site self-operating short-distance communication network that efficiently provides warnings for pre-accident predictions and post-accident enforcement information. The purpose is to provide smart safety management at construction sites through selective linkage between Bluetooth and LoRa networking.

In addition, for smart safety management at construction sites, the purpose is to provide efficient and reliable communication services by using construction worker risk detection devices and the construction site's own local area network selectively linked Bluetooth-LoRa networking.

The present invention is for smart safety management at construction sites with self-driving short-range communication network Bluetooth-LoRa networking selective linkage.

Hazard detection devices installed in hazardous locations to ensure safety;

Construction worker terminal devices carried, mounted or attached by construction workers;

Construction equipment detachable terminal device attached to moving construction equipment;

A construction safety mobility system consisting of;

contains

A construction safety linked analysis server system consisting of a LoRaSpot relay server device, terminal registration and message relay server device, and data and application server device;

Includes

A construction safety service system consisting of a construction safety web server device, a construction safety dashboard device, and a construction safety monitoring terminal device;

Provides a construction site smart safety management system that includes.

Additionally, construction safety mobility systems are used for hazard detection devices.

Detection unit that detects access to dangerous places; Warning unit that provides visual and auditory warnings; Worker terminal ID verification unit using Bluetooth communication; LoRa local for construction sites where communication of worker terminal ID using Bluetooth is poor. Bluetooth-LoRa switching unit that enables transmission over a communication network;

A construction worker hazard detection device including a transmission unit that transmits access information to a server;

Providing a system including,

Emergency messages received from nearby LoRa module terminal devices generated by receiving basic messages and executing hotline alarm message processes based on LoRa communication methods at construction sites that are not connected to regular public networks such as LTE and Wifi, including smartphone communication. A message transmitting and receiving unit that transmits messages, etc. in a relay manner;

A message confirmation unit that visually or audibly confirms transmitted and received messages;

A warning unit that receives an emergency warning message sent from the central control or a warning message automatically received from a risk detection device and is expressed visually and audibly;

Accident notification transmission unit using the SOS accident notification button mounted on the terminal device with one touch;

Construction worker terminal devices consisting of terminal devices carried, mounted, or attached by construction workers;

It provides a construction site smart safety management system recording device equipped with a self-driving short-distance communication network, Bluetooth-LoRa networking, and optionally linked construction site.

Through the present invention, it is possible to solve the communication problem at construction sites where public network communication is not possible and achieve construction safety management that can only be achieved through communication. Through this, it is possible to prevent accidents in advance and immediately respond to accidents in real time as soon as an accident occurs. There is an advantage to having it.

In addition, by using a hazardous area detection device, a construction worker's terminal device, and a Bluetooth-LoRa network connection method, various types of messages can be exchanged even at a construction site before the public network is installed, and automated industrial accident risk handling is also possible.

By using this invention, fatal accidents that occur in underground septic tanks or underground can be eliminated as concrete examples in the field, fatal accidents that occur in the underground because it is dark and unable to do anything, falls of ordinary workers in areas without alarms, and pothole accidents. It has the advantage of reducing various fatal accidents, such as fatal accidents that occur when a car falls into a dug-out area, and fatal accidents that occur in facilities, electricity, and materials.

Figure 1 is a diagram illustrating an actual situation in which communication is not possible at a construction site.
Figure 2 is a diagram of a construction site self-driving local area network Bluetooth-LoRa networking capable of sending and receiving messages according to an embodiment of the present invention.

Figure 3 is a diagram illustrating the configuration of a construction site smart safety management system with self-driving short-range communication network Bluetooth-LoRa networking selective linkage at a construction site according to an embodiment of the present invention.

Figure 4 is a detailed configuration diagram of a construction site smart safety management system with self-driving short-range communication network Bluetooth-LoRa networking selective linkage at a construction site according to an embodiment of the present invention.

Figure 5 is a detailed configuration diagram of the construction safety mobility system within the construction site self-driving short-range communication network Bluetooth-LoRa networking selectively linked construction site smart safety management system according to an embodiment of the present invention.

Figure 6 is a detailed configuration diagram of the construction safety interlocking analysis server system within the construction site self-driving local area network Bluetooth-LoRa networking selectively linked construction site smart safety management system according to an embodiment of the present invention.

Figure 7 is a detailed configuration diagram of the construction safety service system 300 in the construction site self-driving local area network Bluetooth-LoRa networking selectively linked construction site smart safety management system according to an embodiment of the present invention.

Figure 8 is a detailed flowchart for pre-site safety measures in the construction site self-driving local area network Bluetooth-LoRa networking selectively linked construction site smart safety management system according to an embodiment of the present invention.
Figure 9 is a detailed flowchart showing the operation process between the construction equipment detachable hazard detection terminal and the worker tag in the construction site self-operating local area network Bluetooth-LoRa networking selectively linked construction site smart safety management system according to an embodiment of the present invention. am.

The following merely illustrates the principles of the invention. Therefore, those skilled in the art will be able to invent various devices that embody the principles of the present invention and are included in the spirit and scope of the present invention, although not explicitly described or shown herein. In addition, all conditional terms and examples listed herein are, in principle, expressly intended only for the purpose of enabling the concept of the invention to be understood, and should be understood not as limiting to the examples and states specifically listed as such. do.

Additionally, it is to be understood that any detailed description reciting the principles, aspects and embodiments of the invention, as well as specific embodiments, is intended to encompass structural and functional equivalents thereof. In addition, these equivalents should be understood to include not only currently known equivalents but also equivalents developed in the future, that is, all elements invented to perform the same function regardless of structure.

Accordingly, for example, the detailed diagrams herein should be understood as representing a conceptual view of an exemplary circuit embodying the principles of the present invention. Similarly, all flow diagrams, state transition diagrams, pseudo-code, etc. are understood to represent various processes that can be substantially represented on a computer-readable medium and are performed by a computer or processor, whether or not the computer or processor is explicitly shown. It has to be.

The functions of the various elements shown in the figures, which include functional blocks represented by processors or similar concepts, may be provided by the use of dedicated hardware as well as hardware capable of executing software in conjunction with appropriate software. When provided by a processor, the functionality may be provided by a single dedicated processor, a single shared processor, or multiple separate processors, some of which may be shared.

Additionally, the clear use of terms such as processor, control, or similar concepts should not be construed as exclusively referring to hardware capable of executing software, and should not be construed as referring exclusively to hardware capable of executing software, including, without limitation, digital signal processor (DSP) hardware, and ROM for storing software. It should be understood as implicitly including ROM, RAM, and non-volatile memory. Other hardware for public administration may also be included.

In the claims of this specification, components expressed as means for performing the functions described in the detailed description include, for example, a combination of circuit elements that perform the functions, or any form of software including firmware/microcode, etc. It is intended to include any method of performing a function, coupled with suitable circuitry for executing the software to perform the function. Since the present invention defined by these claims combines the functions provided by various listed means and is combined with the method required by the claims, any means capable of providing the above functions are equivalent to those understood from the present specification. It should be understood as

The above-described purpose, features and advantages will become clearer through the following detailed description in conjunction with the accompanying drawings, and accordingly, those skilled in the art will be able to easily implement the technical idea of the present invention. There will be. Additionally, in describing the present invention, if it is determined that a detailed description of known technologies related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted.

Hereinafter, a preferred embodiment according to the present invention will be described in detail with reference to the attached drawings.

Figure 1 is a diagram illustrating an actual situation in which communication is not possible at a construction site.

As shown in Figure 1, construction workers are exposed to safety risks due to lack of communication at apartment construction sites that are under construction, which can take anywhere from two to several years. If they enter a communication blind spot, they experience a lot of inconvenience due to the problem of not being able to communicate until they get out. You can check it.

Figure 2 is a diagram of a construction site self-driving local area network Bluetooth-LoRa networking capable of exchanging messages at a construction site according to an embodiment of the present invention.

As shown in Figure 2, if the Bluetooth-LoRa networking network implemented in the present invention is implemented, it can be used as a facility capable of not only sending and receiving messages but also networking in various hazardous areas under construction.

Figure 3 is a diagram illustrating the configuration of a construction site smart safety management system with self-driving short-range communication network Bluetooth-LoRa networking selective linkage at a construction site according to an embodiment of the present invention.

As shown in Figure 3, the construction site self-driving short-range communication network Bluetooth-LoRa networking selectively linked construction site smart safety management system specifically includes the construction safety mobility system 100, which manages mobility devices at construction risk sites, and construction safety. A construction safety linked analysis server system (200) that performs device registration, data relay, and analysis, and a construction safety service system (200) that performs a service that divides authority and displays required information such as processed information, results, and statistics to managers and operators ( 300).

Figure 4 is a detailed configuration diagram of a construction site smart safety management system with self-driving short-range communication network Bluetooth-LoRa networking selective linkage at a construction site according to an embodiment of the present invention.

As shown in Figure 4, the construction safety mobility system 100 within the construction site self-driving short-distance communication network Bluetooth-LoRa networking selectively linked construction site smart safety management system is equipped with a risk detection device 110 installed in a hazardous location to ensure safety. It consists of a construction worker terminal device 120, which consists of terminal devices that workers carry, install, or attach, and a construction equipment attachment terminal device 130, which is attached and detached to construction equipment such as an excavator.

The construction safety interlocking analysis server system (200) within the construction site self-driving short-distance communication network Bluetooth-Lora networking optionally linked construction site smart safety management system includes a LoRaspot relay server device (210), a terminal registration and message relay server device (220), It consists of data and application server device 230.

In addition, the construction safety service system (300) within the construction site self-driving short-range communication network Bluetooth-LoRa networking optionally linked construction site smart safety management system includes a construction safety web server device (310), a construction safety dashboard device (320), and a construction safety dashboard device (320). It consists of a monitoring terminal device 330.

Figure 5 is a detailed configuration diagram of the construction safety mobility system within the construction site self-driving short-range communication network Bluetooth-LoRa networking selectively linked construction site smart safety management system according to an embodiment of the present invention.

As shown in Figure 5, as a detailed component within the construction safety mobility system 100, the hazard detection device 110 includes a detection unit 111 that detects approach to a dangerous place, and a warning unit 112 that provides a visual, auditory, etc. warning. ), worker terminal ID confirmation unit 113 using Bluetooth communication, Bluetooth-LoRa switching unit 114 access information that enables transmission of worker terminal ID using Bluetooth to the LoRa local communication network for construction sites where communication is poor. The construction worker terminal device 120, which consists of a transmission unit 115 that transmits to the server and is composed of terminal devices carried, mounted, or attached by construction workers, receives basic messages and receives peripheral messages generated by executing the hotline alarm message process. A message transceiver 121 that transmits emergency messages received from the LoRa module terminal device in a relay manner, a message confirmation unit 122 that visually or audibly confirms the transmitted and received messages, an emergency warning message sent from the central control, or A warning unit 123 that receives a warning message automatically received from the risk detection device 110 and expresses it visually and audibly, and an accident notification transmission unit 124 using the SOS accident notification button mounted on the terminal device with one touch. It consists of

In this case, when the SOS accident notification button is pressed, the hotline alarm message process is executed and until the accident notification is terminated, the accident notification message alerts the construction site's self-driving local area network Bluetooth-LoRa Networking optional linkage construction site smart safety management system status to emergency status. Keep the signal running.

In addition, the construction equipment attachment terminal device 130, which is attached to an excavator, which is a moving construction equipment, recognizes the message transmitter and receiver 131 and nearby workers and sends and receives a warning signal to nearby workers that the equipment is moving around, and recognizes nearby workers. A message confirmation unit (132) indicating that a danger signal has been delivered to the worker, and an audio-visual warning unit (133) that delivers a warning in an audio-visual manner when a nearby worker is detected. It is divided into an accident notification transmission unit 134, which detects when a worker is hit and transmits an accident notification to the field office.

In the present invention, it is a safety management system that manages moving construction equipment and workers by utilizing communication between the construction equipment attachment terminal device 130 and the construction worker terminal device 120, so that control and management between arbitrarily moving construction equipment and workers is more effective. It becomes possible.

Figure 6 is a detailed configuration diagram of the construction safety interlocking analysis server system within the construction site self-driving local area network Bluetooth-LoRa networking selectively linked construction site smart safety management system according to an embodiment of the present invention.

As shown in Figure 6, the construction safety linked analysis server system 200, which performs construction safety device registration, data relay, and analysis, includes a LoRa spot relay server device 210, a terminal registration and message relay server device 220, and data and applications. It consists of a server device (230).

As a detailed component of the construction safety interlocked analysis server system 200, the LoRa Spot Relay Server device 210 includes a terminal data transmitter and receiver 211 that transmits and receives data with all terminals in the field, and an application program that transmits and receives data with the application server. It consists of a server transceiver unit 212, and the terminal registration and message relay server device 220 includes a register unit 221 that registers construction worker terminals or equipment, a monitoring unit 222 that monitors accidents centered on construction worker terminals, and a message relay unit. and a transmitting and receiving unit 223 that transmits and receives warnings, and a statistics processing unit 224 that transmits workload or statistics today or periodically.

In addition, as a detailed component of the construction safety linked analysis server system 200, the data and application server device 230 includes a data transmitting and receiving unit 231 for transmitting and receiving data from the LoRa Spot relay server, and a data storage function for storing such data transactions. It consists of a storage unit 232 that performs, a function execution unit 233 in charge of executing detailed functions, and a data analysis unit 234 that performs data analysis.

Above, the data analysis unit 234 includes the function of performing various risk predictions for workers or hazardous areas using big data analysis and AI techniques.

In addition, the LoRa spot relay server device 210 includes a management system that maintains and manages a network switching system suitable for construction sites, including a construction site LoRa network management system.

In other words, the LoRa spot relay server device 210 is a LoRa network switching management system customized for construction sites. In the method of performing switching for each node, the LoRa network management system first gives priority to the domain within the construction site and then It includes a domain management construction site customized switching method that gives priority by construction period, process process, and process progress rate .

Figure 7 is a detailed configuration diagram of the construction safety service system 300 in the construction site self-driving local area network Bluetooth-LoRa networking selectively linked construction site smart safety management system according to an embodiment of the present invention.

As shown in Figure 7, the interface unit 311, which provides a user interface, is a detailed component of the construction safety service system 300 within the construction site self-driving short-range communication network Bluetooth-LoRa networking selectively linked construction site smart safety management system, and the dashboard. A construction safety web server device 310 consisting of a dashboard linking unit 312 that monitors the values, a transmitter and receiver 313 that transmits and receives real-time messages, and a warning unit 314 that performs warning transmission and display functions, statistics A dashboard device consisting of a statistics unit 321 in charge of numerical functions, an accident notification unit 322 that performs expressions related to accident notification, a transmitter and receiver unit 323 that transmits and receives messages, and a display unit 324 that expresses messages. It is composed of a monitoring terminal device 330, which includes (320), an accident monitoring unit 331 that performs accident monitoring at a higher level, and a message transmitting/receiving unit 332 that performs overall messages and construction site warnings at a higher level.

Figure 8 is a detailed flowchart for pre-site safety measures in the construction site self-driving local area network Bluetooth-LoRa networking selectively linked construction site smart safety management system according to an embodiment of the present invention.

As shown in Figure 8, when a worker approaches a hazard detector installed in the form of mobility in a hazardous location at a construction site, the construction site's self-operated short-distance communication network Bluetooth-LoRa Networking optional linkage construction site smart safety management system detects it (S11010) and detects it within the warning distance. After checking whether the approach has been made (S11020), check whether the approach is within the warning distance or continuously within the warning distance (S11025). If the approach is within the warning distance, the approached worker ID is identified through Bluetooth communication (S11030), the warning distance approach information and the approaching worker ID are transmitted to the server through the LoRa Spot Relay Server using LoRa communication, and the approach is checked to determine whether the approach is within the alarm distance. After checking (S11050), if the approach is not within the alarm distance, it returns to the status of prohibiting access to the dangerous area (S11055), and if the approach is within the alarm distance, the alarm distance approach information and the worker ID confirmed through Bluetooth communication with the construction worker terminal device are sent through LoRa communication. It is transmitted to the server through (S11060), and an alarm is sent through an alarm and a warning light (S11070).

Additionally, this worker's ID is classified as a key observation target (S11080), and the hotline alarm message process is executed (S11090) until the worker leaves the alarm area. Construction site self-driving local area network Bluetooth-LoRa networking optional linkage construction site smart The safety management system remains on alert.

Figure 9 is a detailed flowchart showing the operation process between the construction equipment detachable hazard detection terminal and the worker tag in the construction site self-operating short-range communication network Bluetooth-LoRa networking selectively linked construction site smart safety management system according to an embodiment of the present invention. am.

As a safety management system that manages moving construction equipment and workers, in order to more effectively control and manage arbitrarily moving construction equipment and workers, first, attach a detachable construction equipment LoRa communication terminal to moving construction equipment such as an excavator (S13010) and allow workers to monitor the work site. When entering, a LoRa communication device tag is distributed (S13011) so that each worker owns a LoRa terminal, and the terminal device between the moving construction equipment and the worker performs LoRa communication so that the construction equipment and the worker's terminal (tag) are within the warning distance. When approached (S13012),

In order to warn construction equipment operators and workers, immediate control can be taken by providing audio-visual alarms (S13013) to both worker tags and sending specific worker and construction equipment ID alarms (S13014) to the field office. In addition, when it is confirmed that a worker has collided through a sensor installed on the construction equipment (S13015), a collision message is continuously provided with an audio-visual alarm (S13016) tagging the construction equipment and the worker, and the ID values of both parties involved in the collision are sent to the field office with the specific worker. By sending out a construction equipment ID alarm (S13017), you can take action so that accident handling can be done immediately.

In addition, the hotline alarm message process defined in the construction site self-driving short-range communication network Bluetooth-LoRa networking optionally linked construction site smart safety management system is a process performed when a safety accident occurs or is detected in advance, and an accident notification or pre-accident notification message is sent to the manager. And until the relevant operator or designated person receives the alarm message, it is a process of continuously transmitting messages from the terminal of the accident or pre-accident predictor using nearby propagation terminals and construction risk detection devices as relay devices. The message protocol must be followed. This is a process in which messages are delivered and received in a grid manner, with values to which alarms must be delivered specified.

Claims (6)

Construction site self-driving short-distance communication network Bluetooth-LoRa networking optional linkage construction site smart safety management system
Hazard detection devices installed in hazardous locations to ensure safety;
Construction worker terminal devices carried, mounted or attached by construction workers;
Construction equipment attachment terminal devices attached to excavators, which are moving construction equipment;
A construction safety mobility system consisting of;
contains

A construction safety linked analysis server system consisting of a LoRaSpot relay server device, terminal registration and message relay server device, and data and application server device;
Includes

A construction safety service system consisting of a construction safety web server device, a construction safety dashboard device, and a construction safety monitoring terminal device;
A computer-readable recording device characterized in that it records a program for executing a construction site smart safety management method including.
In paragraph 1:
Construction safety mobility system
The hazard detection device includes a detection unit that detects access to a dangerous place;
A warning unit that provides warnings visually, audibly, etc.;
Worker terminal ID verification unit using Bluetooth communication;
A Bluetooth-LoRa switching unit that enables transmission of worker terminal ID using Bluetooth to a LoRa local communication network for construction sites where communication is difficult;
Equipped with a transmission unit that transmits access information to the server
Construction worker hazard detection devices;
A computer-readable recording device characterized by recording a program for executing a construction site smart safety management method of self-driving local area network Bluetooth-LoRa networking selectively linked construction site including a construction site.
In paragraph 1,
The construction safety mobility system is based on the LoRa communication method at construction sites that are not connected to regular public networks such as LTE and Wifi, including smart phone communication, and receives basic messages and executes hotline alarm message processes at nearby LoRa module terminals. a message transmitting and receiving unit that transmits emergency messages received from the device in a relay manner;
A message confirmation unit that visually or audibly confirms transmitted and received messages;
A warning unit that receives an emergency warning message sent from the central control or a warning message automatically received from a risk detection device and is expressed visually and audibly;
Accident notification transmission unit using the SOS accident notification button mounted on the terminal device with one touch;
Construction worker terminal devices consisting of terminal devices carried, mounted, or attached by construction workers;
A computer-readable recording device that records a program for executing a smart safety management method at a construction site with a self-driving short-range communication network, Bluetooth-LoRa networking, and optionally linked construction site.
In paragraph 1,
The construction safety mobility system is a terminal device attached to construction equipment, such as an excavator, which is a moving construction equipment, and includes a message transmitter and receiver that sends and receives warning signals to nearby workers that the equipment is moving nearby;
A message confirmation unit that recognizes nearby workers and delivers a danger signal to nearby hazardous workers;
An audio-visual warning unit that delivers a warning in an audio-visual manner when nearby workers are detected;
An accident notification transmission unit that detects when a worker is struck and delivers an accident notification to the field office;
A terminal device attached to construction equipment having a;
A computer-readable recording device that records a program for executing a smart safety management method at a construction site with a self-driving short-range communication network, Bluetooth-LoRa networking, and optionally linked construction site.
In paragraph 1,
The construction site customized LoRa network switching device of the LoRaSpot relay server device within the construction safety linked analysis server system is
In the method of performing switching for each node, the LoRa network management system first gives priority to the domain within the construction site, and then gives priority by construction period, process process, and process progress rate. A computer-readable recording device characterized by recording a program for executing a domain management construction site customized switching method.
In paragraph 1
Construction safety mobility device including Bluetooth-LoRa switching unit
When a worker approaches a hazard detector installed in a mobile form at a dangerous location at a construction site, it is detected by the construction site's self-operated short-range communication network Bluetooth-LoRa networking optional linkage construction site smart safety management system;
Check whether you approach within the warning distance;
Check whether the approach is within the warning distance or is continuously within the warning distance;
If the approach is within the warning distance, the ID of the approached worker is identified through Bluetooth communication;
Warning distance approach information and access worker ID are transmitted to the server through the LoRa Spot relay server using LoRa communication and check whether the approach is within the alarm distance;
If you do not approach within the alarm range, access to the dangerous area is prohibited again;
If you approach within the alarm distance,
Alarm distance access information and worker ID confirmed through Bluetooth communication with the construction worker terminal device are converted to LoRa communication method through the Bluetooth-LoRa switching unit and transmitted to the server through LoRa communication;
A computer-readable recording device characterized by recording a program for executing a construction site self-driving short-range communication network Bluetooth-LoRa networking selectively linked construction safety mobility system method.

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