JP-2026075344-A - Management systems, management methods, and management programs

Abstract

[Problem] To provide a management system, management method, and management program that can identify the location of a mobile device inside a vehicle at a predetermined time. [Solution] The management system 100 includes a monitoring device 10 installed in a monitoring space S, which has a beacon 11 that emits radio waves including a beacon identifier bi; a mobile terminal 20 having a transmitting/receiving unit 22 that can receive radio waves and transmit transmission information FI including a beacon identifier bi and a mobile terminal identifier mi; a remote communication unit 32 that can receive the transmission information FI via a communication network N; and a remote server 30 having a storage unit 31 that stores relative position information RI that links the beacon identifier bi and the monitoring space S. The transmission information FI includes the reception time t1 when the mobile terminal 20 receives the radio waves. [Selection Diagram] Figure 1

Inventors

• 渡邊 亮

Assignees

• 株式会社MOYAI

Dates

Publication Date

20260508

Application Date

20241022

Claims (9)

1. A monitoring device installed in a monitoring space has a beacon that emits radio waves containing a beacon identifier, The system comprises a mobile terminal capable of receiving the aforementioned radio waves and transmitting transmission information including the beacon identifier and the mobile terminal identifier, a remote communication unit capable of receiving the transmission information via a communication network, and a remote server having a storage unit that stores relative location information linking the beacon identifier and the monitoring space. The aforementioned transmission information is a management system that includes the reception time when the mobile terminal receives the radio waves.
2. The management system according to claim 1, which outputs the movement history of the mobile terminal based on the relative location information and the transmission information.
3. The management system according to claim 1 or 2, comprising: a camera for capturing images of the monitoring space; and a monitoring transmission/reception unit for transmitting images captured by the camera to the remote server.
4. The management system according to claim 3, wherein the remote server outputs the captured image at the specified reception time.
5. The monitoring device includes a GPS communication unit that acquires location information of the monitoring device, The management system according to claim 3, which transmits the captured images only to the remote server that has jurisdiction over the area where the monitoring device is located.
6. The monitoring device includes a GPS communication unit that acquires location information of the monitoring device, The management system according to claim 1 or 2, wherein the mobile terminal transmits the transmission information only to the remote server that has jurisdiction over the area where the monitoring device is located, based on a command from the mobile terminal located in the monitoring space.
7. The management system according to claim 1 or 2, wherein the remote server transmits center information to the mobile terminal located within the range of the radio waves.
8. A beacon receiving step involves having a beacon that emits radio waves containing a beacon identifier, and receiving the radio waves from a monitoring device installed in a monitoring space using a mobile terminal. A management method comprising: a transmission step of transmitting transmission information, including the reception time when the mobile terminal receives the radio waves, the beacon identifier, and the mobile terminal identifier, from the mobile terminal to a remote server via a communication network.
9. On the computer, A beacon that emits radio waves containing a beacon identifier, and a beacon receiving function that allows a mobile terminal to receive the radio waves from a monitoring device installed in a monitoring space, A management program that performs a transmission function to cause the mobile terminal to transmit transmission information, including the reception time, the beacon identifier, and the mobile terminal identifier, from the mobile terminal to a remote server via a communication network when the mobile terminal receives the radio waves.

Description

This invention relates to a management system, a management method, and a management program. Conventionally, there have been car navigation systems that display the vehicle's current location and perform route searches (for example, Patent Document 1). Conventional car navigation systems utilize GPS to display the vehicle's current location and search for routes. GPS works by receiving signals from multiple GPS satellites, determining the distance from each satellite to the GPS communication device installed in the car navigation system, and then calculating the GPS communication device's location based on the relationship between the position of each GPS satellite and the distance. Therefore, conventional car navigation systems could only estimate the vehicle's approximate position due to the high speed of the vehicle, and could not pinpoint the location of the occupants. Furthermore, with conventional GPS, even if multiple passengers on a train consisting of multiple connected carriages each possessed a mobile device equipped with a GPS communication device, it was difficult to accurately pinpoint the location of a specific mobile device within the train carriage. Japanese Patent Publication No. 2012-008717 This is an overview diagram of the management system.This is a diagram illustrating the functionality of the management system.This is a diagram showing the movement history of a mobile device. (Embodiment) Embodiments of the present invention will be described in detail below with reference to the drawings. Figure 1 is an overview diagram of the management system 100. Figure 2 is a functional diagram of the management system 100. Figure 3 is a diagram showing the movement history of the mobile terminal 20. Note that parts having common functions may be denoted by the same reference numeral or symbol below. The management system 100 according to this embodiment can be used, for example, in the interior space of a train, articulated train, or the like, where many people may be present, to remotely search for a mobile device 20 that has been left behind by a passenger, by tracking the location and time of the mobile device 20. Furthermore, the management system 100 according to this embodiment can be used, for example, to identify the location of a passenger reporting an abnormality in the interior space of a train, articulated vehicle, or the like, where many people may be present. An abnormality refers to a situation where the monitored space S (the monitored location) is in an unusual state, such as when the person in the monitored location or those around them are unwell, or when there is an unusual odor or criminal activity such as molestation or violence in the vicinity of that person. As shown in Figures 1 and 2, the management system 100 according to this embodiment includes a beacon 11 that emits radio waves containing a beacon identifier bi, and a monitoring device 10 installed in the monitoring space S. The management system 100 includes a mobile terminal 20 having a transceiver 22 capable of receiving radio waves from the beacon 11 and transmitting transmission information FI, including the beacon identifier bi and the mobile terminal identifier mi, to the remote server 30. The management system 100 includes a remote server 30 having a remote communication unit 32 capable of receiving transmitted information FI from the mobile terminal 20 via the communication network N. The transmitted information FI may include abnormal information emitted from the mobile terminal 20. The monitoring device 10 may be installed near or inside the monitoring space S. The monitoring device 10 may have a camera 12 for imaging the monitoring space S. The monitoring device 10 may have a monitoring display 13 for displaying various information, including abnormal information, toward the monitoring space S. The monitoring display 13 may display alerts based on transmitted information FI (including abnormal information). The monitoring device 10 may also have display means such as LED lamps for displaying the status of the monitoring space S, including alerts based on transmitted information FI. The monitoring device 10 has a monitoring transmission/reception unit 14 that enables bidirectional communication with the remote server 30. The monitoring device 10 appropriately includes a power supply device for controlling the power supplied to the beacon 11, camera 12, monitoring display 13, and monitoring transmission/reception unit 14. The monitoring device 10 may be a computer system that performs data processing, including a CPU, memory such as RAM, ROM, and auxiliary storage devices, an external connection interface to input/output devices, a network interface, and a bus connecting them. The monitoring device 10 may transmit the images captured by the camera 12 to the remote server 30. This allows the administrator of the remote server 30 to check for abnormalities based on the images captured by the camera 12, com