WO2017135671A1 - Système de diffusion faisant intervenir un dispositif mobile et procédé de commande associé - Google Patents

Système de diffusion faisant intervenir un dispositif mobile et procédé de commande associé Download PDF

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Publication number
WO2017135671A1
WO2017135671A1 PCT/KR2017/001073 KR2017001073W WO2017135671A1 WO 2017135671 A1 WO2017135671 A1 WO 2017135671A1 KR 2017001073 W KR2017001073 W KR 2017001073W WO 2017135671 A1 WO2017135671 A1 WO 2017135671A1
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WO
WIPO (PCT)
Prior art keywords
mobile device
disaster
operator
management server
image
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Application number
PCT/KR2017/001073
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English (en)
Korean (ko)
Inventor
심익한
김동욱
Original Assignee
주식회사 유진코어
심익한
김동욱
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Application filed by 주식회사 유진코어, 심익한, 김동욱 filed Critical 주식회사 유진코어
Publication of WO2017135671A1 publication Critical patent/WO2017135671A1/fr

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Classifications

    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B17/00Fire alarms; Alarms responsive to explosion
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B17/00Fire alarms; Alarms responsive to explosion
    • G08B17/12Actuation by presence of radiation or particles, e.g. of infrared radiation or of ions
    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B19/00Alarms responsive to two or more different undesired or abnormal conditions, e.g. burglary and fire, abnormal temperature and abnormal rate of flow
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N7/00Television systems
    • H04N7/18Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast

Definitions

  • the present invention relates to a broadcasting system using a mobile device, and more particularly, a mobile device that transmits a video taken by using a mobile device to at least one mobile device through multi-channel streaming, thereby providing an image to a viewer in real time. Provides a broadcast system using.
  • the disaster management technology that provides the disaster area situation using streaming technology is very effective and efficient in detecting disasters using various methods using disaster detection sensors in an environment where IT infrastructure is well established in Korea. It is in the spotlight.
  • An aspect of the present invention is a broadcasting system using a mobile device, a broadcasting system using a mobile device that can increase the efficiency of disaster situation management by collecting disaster information using a mobile device, processing and sharing the collected information In providing.
  • the management server and the management server for generating disaster detection information including a disaster occurrence location according to the information detected through the disaster detection sensor installed in at least one area
  • a mobile device connected to the mobile device and belonging to any one of at least one group, the mobile device including an operator mobile device or a member mobile device, wherein the management server detects a disaster and generates a danger signal based on the disaster detection information generated.
  • an operator Generate an operator, identify an operator mobile device located at a disaster occurrence location; when the operator mobile device is identified, transmit the danger signal to the operator mobile device; An emergency signal generated by judging whether or not a disaster situation
  • the management server transmits the emergency signal to a member mobile device of a group to which the operator mobile device belongs.
  • the member mobile device which has received the emergency signal, the camera is forced to take a peripheral image, and transmits the captured image to the management server
  • the management server receives the image and transmits to the operator mobile device
  • the operator mobile device receiving the image outputs the image and provides the image to the operator, and the operator mobile device generates the disaster image determination information according to the operator's input and transmits it to the management server.
  • the disaster image determination information received from the operator mobile device When the member mobile device forcibly transmits a predetermined disaster image to the member mobile device, and the member mobile device which has received the disaster image is forcibly outputting the disaster image, and the management server determines the disaster image according to the disaster image determination information.
  • the management server checks whether there is an operator mobile device of another group that is not located at the disaster occurrence location but satisfies a predetermined condition, and if the operator mobile device of another group that satisfies a predetermined condition is identified, the disaster image.
  • the operator mobile device of the other group receiving the disaster image outputs the disaster image to the operator of the other group, and evacuates according to the input of the operator of the other group Generating a signal and transmitting the signal to the management server;
  • the management server receives the evacuation signal from the operator mobile device of the other group, the management server forcibly sends the disaster image to the member mobile device of the other group, and the member mobile device of the other group forcibly outputs the disaster image. Can be.
  • Satisfying the predetermined condition may be located within a predetermined radius from the disaster occurrence position.
  • the member mobile device may further include generating evacuation guidance information.
  • the management server further includes the disaster occurrence location and the structure of each floor of the building in the emergency signal, and generating the evacuation guidance information, the emergency signal received from the management server and the member mobile device from the management server
  • the evacuation guidance information for each floor may be generated based on the location of the device.
  • the evacuation guidance information that is not available to the user of any one member mobile device is input to the member mobile device, the evacuation guidance information corresponding to the evacuation guidance information is not available, and And generating floor-based evacuation guidance information, wherein the member mobile device transmits the unavailable evacuation guidance information to the management server, and the management server transmits the unavailable evacuation guidance information to all member mobile devices in the group. It may further include sharing.
  • the disaster occurrence location may be a region specified according to a detection result of a plurality of disaster detection sensors installed in a plurality of areas in which a predetermined space is divided.
  • Generating the floor-by-floor evacuation guidance information may be to generate the floor-by-floor evacuation guidance information further comprising the location distribution of safety rescue personnel.
  • the management server may further include designating any one of the general mobiles as a temporary operator mobile device when the disaster image is not received from the operator mobile device for a predetermined time.
  • the management server may determine an image of the member mobile device closest to the disaster occurrence position among the member mobile devices as the disaster image.
  • the emergency signal is generated by the operator's mobile device according to the disaster determination information input by the operator when the management server transmits the danger signal to the operator's mobile device.
  • the management server sets one of the member mobile devices as a temporary operator mobile device.
  • the temporary operator may be generated by the mobile device.
  • the emergency signal when the management server transmits the danger signal to the temporary operator mobile device, if the emergency signal is not delivered after a certain time, the situation is expanded or reduced based on the disaster detection sensor When predicted and determined to be a disaster, the management server may be generated.
  • the member mobile device may further include outputting a message input by the operator as part of the disaster image being output.
  • a computer-readable recording medium having a computer program recorded thereon can provide a broadcast system using a mobile device.
  • a control method of a broadcasting system using a mobile device the management server generating disaster detection information including a disaster occurrence location according to information detected through a disaster detection sensor installed in at least one region;
  • the management server is Generate a danger signal based on the disaster detection information generated by detecting a disaster, identify an operator mobile device located at a disaster occurrence location, and if the operator mobile device is identified, transmit the danger signal to the operator mobile device,
  • the operator mobile device receiving the danger signal Receives an emergency signal or a safety signal generated by determining whether a disaster situation based on the hum signal, and when the operator mobile device determines that the disaster situation, the emergency signal is transmitted to the management server, the management server is the operator Sending the emergency signal to the member mobile device of the group to which the mobile device belongs, the member mobile device
  • the management server Forced transmission of the disaster image determined according to the disaster image determination information received from the operator mobile device to the member mobile device, the member mobile device receiving the disaster image forcibly outputs the disaster image, and the management server
  • the management server checks whether there is another group of operator mobile devices which are not located at the disaster occurrence location but satisfy a predetermined condition, and satisfy the predetermined condition.
  • the operator mobile device of the other group is identified, the disaster image is transmitted to the operator mobile device of the other group, and the operator mobile device of the other group that has received the disaster image outputs the disaster image to the operator of the other group.
  • Providing the operator of the other group Generates an evacuation signal according to the input of and transmits the evacuation signal to the management server, when the management server receives the evacuation signal from the operator mobile device of the other group, forcibly sends the disaster image to the member mobile device of the other group,
  • the member mobile device of the other group may be forcibly outputting the disaster image.
  • Satisfying the predetermined condition may be located within a predetermined radius from the disaster occurrence position.
  • the member mobile device may further include generating evacuation guidance information.
  • the management server adds the emergency occurrence location and the structural information for each floor of the building to the emergency signal, and generating the evacuation guidance information, the emergency signal and the member mobile device that the member mobile device received from the management server It may be to generate floor-by-floor evacuation guidance information based on the location of.
  • the evacuation guidance information that is not available to the user of any one member mobile device is input to the member mobile device, the evacuation guidance information corresponding to the evacuation guidance information is not available, and And generating floor-based evacuation guidance information, wherein the member mobile device transmits the unavailable evacuation guidance information to the management server, and the management server transmits the unavailable evacuation guidance information to all member mobile devices in the group. It may further include sharing.
  • the disaster occurrence location may be a region specified according to a detection result of a plurality of disaster detection sensors installed in a plurality of areas in which a predetermined space is divided.
  • Generating the floor-by-floor evacuation guidance information may be to generate the floor-by-floor evacuation guidance information further comprising the location distribution of safety rescue personnel.
  • the management server may further include designating any one of the general mobiles as a temporary operator mobile device when the disaster image is not received from the operator mobile device for a predetermined time.
  • the management server may determine an image of the member mobile device closest to the disaster occurrence position among the member mobile devices as the disaster image.
  • the emergency signal is generated by the operator's mobile device according to the disaster determination information input by the operator when the management server transmits the danger signal to the operator's mobile device.
  • the management server sets one of the member mobile devices as a temporary operator mobile device.
  • the temporary operator may be generated by the mobile device.
  • the emergency signal when the management server transmits the danger signal to the temporary operator mobile device, if the emergency signal is not delivered after a certain time, the situation is expanded or reduced based on the disaster detection sensor When predicted and determined to be a disaster, the management server may be generated.
  • the member mobile device may further include outputting a message input by the operator as part of the disaster image being output.
  • a broadcast system using a mobile device that can increase the efficiency of disaster management by processing and sharing the disaster information collected by using a mobile device, evacuation or response for each individual in advance Can provide.
  • the additional information of the whistleblower can provide an effect that can mitigate the damage from the disaster through effective response and evacuation.
  • FIG. 1 is a diagram illustrating a broadcast system using a mobile device according to an embodiment of the present invention.
  • FIG. 2 is a flowchart illustrating a broadcast system using the mobile device shown in FIG. 1.
  • FIG. 3 is a control block diagram of the mobile device shown in FIG. 1.
  • FIG. 3 is perspective views of the mobile device output unit illustrated in FIG. 3.
  • FIG. 5 is a control block diagram of the management server shown in FIG.
  • FIG. 6 is a conceptual diagram of a plurality of regions according to an embodiment of the present invention.
  • FIG. 7 is a flowchart illustrating a method of generating an emergency signal of a broadcast system using a mobile according to an embodiment of the present invention.
  • FIG. 8 is a flowchart illustrating a control method of a broadcast system using a mobile according to an embodiment of the present invention.
  • FIG. 9 is a flowchart illustrating a disaster image propagation method of a broadcasting system using a mobile device according to an embodiment of the present invention.
  • FIG. 1 is a diagram illustrating a broadcast system using a mobile device according to an embodiment of the present invention.
  • a broadcasting system using a mobile device may include a mobile device 100 and a management server 200.
  • the mobile device 100 is the operator mobile device 100a-1, 100a-2, ... 100a-m or the member mobile device 100b-1, 100b-2, ..., 100b- depending on the authentication of the operator or the selection of the management server.
  • the management server 200 may be operated by dividing the mobile device 100 into at least one group consisting of one operator mobile device and at least one member mobile device.
  • the group 1 may be configured and operated by the group 1 mobile device 100a-1 and the plurality of mobile devices 100b-1.
  • the mobile device 100 and the management server 200 may exchange information through a communication network.
  • the communication network is a high-speed backbone network of a communication network capable of a large capacity, long distance voice / data service, and may be a general Internet network.
  • the mobile device 100 is a group 1 operator mobile device 100a-1, a group 1 member mobile device 100b-1, a group 2 operator mobile device 100a-2 and a group 2 member mobile device ( The description will be divided into 100b-2).
  • the first group set here is a group of mobile devices 100 located at a disaster occurrence location
  • the second group is only an example set in order to describe a group of mobile devices 100 located at a location adjacent to the disaster occurrence location. It does not mean a designated group.
  • the group member mobile device 100b-1 When the group member mobile device 100b-1 satisfies a predetermined condition, the group member mobile device 100b-1 forcibly executes a broadcasting app installed in the group member mobile device 100b-1 to shoot an external image and manage the captured image.
  • the server 200 may transmit the data.
  • satisfying a predetermined condition may be to receive an emergency signal from the management server 200 as a disaster occurs.
  • the emergency signal is generated based on the judgment of the group 1 operator when a disaster occurs, which will be described later.
  • the group 1 member mobile device 100b-1 displays a disaster image selected by the group 1 operator from the group 1 member mobile device 100b-1 through the group 1 mobile device 100a-1 or 100a-2. It can be delivered from the management server 200, it can be provided to the user by forcibly output the received disaster image.
  • the mobile device 100b-1 may generate evacuation guidance information, and output the generated evacuation guidance information to the user.
  • the mobile device 100b-1 of the group 1 member may receive the disaster occurrence location information and the floor structure information of the building required to generate the evacuation guidance information from the management server 200, and the disaster location location information and the floor structure information of the building.
  • evacuation guidance information may be generated based on the location information generated by the group 1 mobile device 100b-1, and the generated evacuation guidance information may be output to the user.
  • the disaster occurrence location information, the structure information of each floor of the building is included in the danger signal generated by the management server 200 will be described later.
  • the group 1 member mobile device 100b-1 may receive evacuation guidance information that is not available from a user who uses the group 1 member mobile device 100b-1, and additionally excludes the received evacuation guidance information. Evacuation guidance information can be generated. The one-group member mobile device 100b-1 may transmit the evacuation guidance information that is not available to the other one-group member mobile device 100b-1 through the management server 200.
  • the group 1 member mobile device 100b-1 receives the message inputted by the group 1 operator through the group 1 operator mobile devices 100a-1 and 100a-2 through the management server 200 and receives the received message. Can be inserted into the distress image being displayed and output along with the distress image.
  • Group 1 operator mobile devices 100a-1 and 100a-2 may receive images captured by the group 1 member mobile device 100b-1 from the management server 200, and select the group 1 operator from the captured images. According to the disaster image can be selected, it can be delivered to the management server (200). In this case, selecting the disaster image from the photographed image may be one of the group operator selecting one of the images photographed through the group operator mobile devices 100a-1 and 100a-2, and transmitting the disaster image. It may be to convey the disaster image determination information.
  • the group 1 operator mobile device (100a-1, 100a-2) can receive the danger signal generated by the management server 200 through the disaster detection sensor from the management server 200, and receives the received danger signal 1 It can be provided to a group operator.
  • the group 1 operator mobile devices 100a-1 and 100a-2 may receive input of the group 1 disaster situation determination information from the group 1 operator, and may transmit the received group 1 disaster situation determination information to the management server 200.
  • the disaster detection information of the group 1 may include one of an emergency signal and a safety signal, includes an emergency signal when the first group operator determines that the disaster situation, and includes a safety signal when not determined as a disaster situation. Can be.
  • the disaster image is received from the management server 200 and the disaster image is transmitted to the two-group operator.
  • the predetermined condition may be that the mobile devices 100a-1 and 100a-2 of the group 2 operator are located in an area adjacent to the disaster occurrence location.
  • the mobile device 100a-1 or 100a-2 of the two-group operator may receive two-group disaster situation determination information from the two-group operator, and may transmit the received two-group disaster situation determination information to the management server 200.
  • the two-group disaster status determination information may be an evacuation signal, and may generate an evacuation signal when it is determined as a disaster situation, and may not generate any signal when it is not a disaster situation.
  • the two-group member mobile device 100b-2 may receive a disaster image and an evacuation signal from the management server 200 and may forcibly output the received disaster image.
  • the two-group member mobile device 100b-2 may operate in the same process as the one-group member mobile device 100b-1.
  • the management server 200 may generate disaster detection information through a disaster detection sensor and generate a danger signal based on the disaster detection information.
  • the danger signal may include the location of the disaster and the floor structure of the building.
  • the management server 200 may transmit the danger signal to the group 1 operator mobile devices 100a-1 and 100a-2, and receive the group 1 disaster situation determination information from the group 1 operator mobile devices 100a-1 and 100a-2. Can be delivered.
  • the management server 200 may transmit the received emergency signal to the 1 group general mobile 100b-1 when the 1 group disaster situation determination information includes the emergency signal.
  • the management server 200 may estimate the disaster occurrence location through the disaster detection sensor and may transmit the estimated disaster occurrence location to the group 1 general mobile 100b-1.
  • the management server 200 When the management server 200 according to another embodiment of the present invention does not receive the 1 group disaster situation determination information for a predetermined time from the 1 group operator mobile devices 100a-1 and 100a-2, the 1 group general mobile 100b. Any one of -1) may be designated as the temporary operator mobile device, and the same process for receiving the temporary operator mobile device and the first group disaster situation determination information may be performed. If the management server 200 does not receive one group disaster situation determination information from the temporary operator mobile device for a predetermined time, it may be determined as a disaster situation and may generate an emergency signal.
  • the management server 200 may receive an image from the group 1 member mobile device 100b-1, and transmit the received image to the group 1 operator mobile devices 100a-1 and 100a-2.
  • the management server 200 may receive a disaster image selected by the user from the group 1 operator mobile devices 100a-1 and 100a-2, and forcibly deliver the received disaster image to the group 1 member mobile device 100b-1. Can be.
  • the management server 200 When the management server 200 according to another embodiment of the present invention does not receive a disaster image from the group 1 operator mobile devices 100a-1 and 100a-2, the management server 200 selects one of the group 1 group mobiles 100b-1. Designated as a temporary operator mobile device, the same process for receiving the emergency operator mobile device and disaster video can be performed. When the management server 200 does not receive the disaster image from the temporary operator mobile for a predetermined time, the management server 200 may determine the image of the group 1 mobile device 100b-1 closest to the disaster situation as the disaster image.
  • the management server 200 may transmit a disaster image and a danger signal to two group operator mobile devices 100a-1 and 100a-2 adjacent to the disaster occurrence location.
  • the adjacent two-group operator mobile devices 100a-1 and 100a-2 may be two-group operator mobile devices 100a-1 and 100a-2 that do not belong to a disaster occurrence location but are within a predetermined radius.
  • the management server 200 may receive two group disaster situation determination information from two group operator mobile devices 100a-1 and 100a-2. When the two-group disaster situation determination information includes an evacuation signal, the management server 200 may forcibly deliver the disaster image and the evacuation signal to the two-group member mobile device 100b-1.
  • FIG. 2 is a flowchart illustrating a broadcast system using the mobile device shown in FIG. 1.
  • the management server 200 may detect a disaster using a disaster detection sensor and generate disaster detection information.
  • the management server 200 may generate a danger signal based on the disaster detection information, and may transmit the generated danger signal to the mobile devices 100a-1 and 100a-2 of the group 1 operator.
  • the mobile device 100a-1 or 100a-2 of the group 1 operator When the mobile device 100a-1 or 100a-2 of the group 1 operator receives the danger signal from the management server 200, the mobile device 100a-1 or 100a-2 provides the danger signal to the group 1 operator and inputs the group disaster status determination information from the group 1 operator. I can receive it.
  • the first group disaster situation determination information may be one of an emergency signal or a safety signal.
  • the mobile device 100a-1 or 100a-2 of the group 1 operator may generate an emergency signal and transmit the emergency signal to the management server 200.
  • the management server 200 may transmit the emergency signal to the group 1 mobile device 100b-1.
  • the mobile device 100b-1 When the group member mobile device 100b-1 receives an emergency signal from the management server 200, the mobile device 100b-1 may forcibly execute a broadcast app and forcibly capture an external image. The group member mobile device 100b-1 may transmit the captured image to the management server 200.
  • the management server 200 may store the received image and transmit the image to the group operator mobile devices 100a-1 and 100a-2.
  • the group 1 operator mobile devices 100a-1 and 100a-2 receive the image from the management server 200, the group 1 operator provides the image to the group 1 operator, determines the disaster image according to the input of the group 1 operator, and determines the determined disaster.
  • the video can be sent to the management server.
  • the management server 200 may forcibly transmit the disaster image to the group 1 mobile device 100b-1.
  • the first group member mobile device 100b-1 When the first group member mobile device 100b-1 receives a disaster image from the management server 200, the first group member mobile device 100b-1 may be forcibly outputted to the user using the first group member mobile device.
  • the management server 200 may transmit a disaster image to the two-group operator mobile device (100a-1, 100a-2).
  • the two-group operator mobile device 100a-1 or 100a-2 receives the disaster image from the management server 200
  • the two-group operator provides the disaster image to the two-group operator and receives the two-group disaster situation determination information from the two-group operator.
  • the two group disaster situation determination information may be an evacuation signal. If the two-group operator determines that the disaster situation, the two-group operator mobile device (100a-1, 100a-2) transmits the evacuation signal to the management server 200.
  • the management server 200 When the management server 200 receives the evacuation signal from the two-group operator mobile device (100a-1, 100a-2), it can forcibly transmit the evacuation signal and disaster image to the two-group member mobile device (100b-2)
  • the second group member mobile device 100b-2 may output the received disaster image and provide the image to the user of the second group member mobile device.
  • FIG. 3 is a control block diagram of the mobile device shown in FIG. 1.
  • the mobile devices 100a-1 and 100a-2 and the member mobile devices 100b-1 and 100b-2 according to an embodiment of the present invention may all use the same mobile device 100.
  • the mobile device communication unit 110 the mobile device photographing unit 120, the mobile device location tracking unit 130, the mobile device memory unit 140, the mobile device input unit 150, and the mobile device output unit ( 160 and the mobile device controller 170.
  • the mobile device communication unit 110 may exchange information with the management server 200 through a communication network.
  • the communication network used may be a local area network, the Internet, a mobile communication network, or the like.
  • the information exchanged between the mobile device communication unit 110 and the management server 200 may vary according to general users and operators.
  • the mobile device communication unit 110 of the member mobile devices 100b-1 and 100b-2 used by the general user may use the distribution of disaster images, emergency signals, safety signals, evacuation signals, and safety rescue personnel from the management server 200. Unavailable evacuation guidance information, operator's message information, etc. can be received, and the management server 200 can transmit the image and the evacuation guidance information unavailable.
  • the mobile device communication unit 110 of the mobile device 100 used by the operator may transmit the disaster image determination information, the operator's message information, the emergency signal, the evacuation signal, the safety signal, etc. to the management server 200, and the management server. An image and a danger signal may be received from the 200.
  • the mobile device photographing unit 120 may capture an image according to a user's manipulation of the mobile device 100.
  • the mobile device photographing unit 120 may include a photographing module (not described) for capturing an image, and may store an image photographed through the photographing module (not described) in the mobile device memory unit 140.
  • the photographing module (not described) may be a camera.
  • the mobile device location tracking unit 130 may generate location information by detecting the location of the user of the mobile device 100 in real time, and store the generated information in the mobile device memory unit 140.
  • the mobile device location tracking unit 130 may include a location tracking module (not listed), and the location tracking module (not listed) may generate location information of the user through Wi-Fi, satellite navigation, and the like.
  • the mobile device memory unit 140 may store necessary information and programs of the mobile device 100.
  • the mobile device memory unit 140 may store a program for operating the mobile device controller 170, and store images and location information received from the mobile device photographing unit 120 and the mobile device location tracking unit 130. have.
  • the stored program may be a broadcast app.
  • the mobile device memory unit 140 may store a disaster image received from the management server 200.
  • the mobile device input unit 150 may receive a command from a user of the mobile device 100.
  • the mobile device input unit 150 may receive evacuation guidance information, which is not available by the user, and transmit the received evacuation guidance information to the mobile device controller 170.
  • the mobile device input unit 150 may receive disaster image determination information and disaster situation determination information from the operator.
  • the mobile device output unit 160 may output a disaster image to the user as shown in 160a and 171a of FIG. 4A, and may output evacuation guidance information generated by the mobile device controller 170.
  • the mobile device output unit 160 may output the image to the operator as shown in 160b, 160c in Figure 4b, and may output the disaster detection information received from the management server 200 to provide to the operator. .
  • the mobile device controller 170 may control overall operations of the mobile device 100.
  • the mobile device controller 170 may control the mobile device output unit 160 to output the disaster image stored in the mobile device memory unit 140.
  • the mobile device controller 170 may control the mobile device output unit 160 to output an image stored in the mobile device memory unit 140 received from the management server 200.
  • the mobile device controller 170 may include an evacuation guidance information generator 171 capable of generating evacuation guidance information, an emergency signal generator 172 capable of generating an emergency signal, and a message for inserting an operator's message into a disaster image.
  • the image integrator 173 may be included.
  • the evacuation guidance information generation unit 171 generates evacuation guidance information based on the emergency signal or evacuation signal received from the management server 200 and the location information generated by the mobile device location tracking unit 130, and evacuation guidance information
  • the mobile device output unit 160 may control the output.
  • the emergency signal and the evacuation signal may include the disaster occurrence location information and the floor structure information of the building generated by the management server 200, the floor structure of the building may include information such as shelter, stairs, evacuation route. have.
  • the evacuation guidance information generation unit 171 is an evacuation route that can be used at the user's location included in the location information, an evacuation route corresponding to the disaster occurrence position according to the disaster occurrence location information among the evacuation centers, the evacuation route other than the evacuation shelter, shelter It may be to generate an evacuation guidance information by selecting one of the. In this case, the evacuation guidance information generation unit 171 may be to generate an evacuation guidance information by further excluding the unavailable evacuation guidance information transmitted from the management server 200.
  • the emergency signal generator 172 may generate an emergency signal.
  • the emergency signal generator 172 generates an emergency signal when the emergency situation determination information transmitted from the mobile device input unit 150 is transmitted, and generates emergency signals of various grades according to the risk included in the disaster situation determination information. It may be.
  • the emergency signal generator 172 may control the emergency signal generator 172 to transmit the generated emergency signal to the management server 200 through the mobile device communication unit 110.
  • the emergency signal generator 172 may generate a safety signal according to a situation.
  • the emergency signal generator 172 may generate the safety signal when the emergency situation determination information indicating that no disaster has occurred is transmitted from the mobile device input unit 150.
  • the emergency signal generator 172 may generate an evacuation signal.
  • the emergency signal generating unit 171 may generate an evacuation signal when the emergency image of another group is transmitted from the management server 200 and when the disaster situation single board information indicating that a disaster has occurred from the operator is transmitted, the evacuation signal may be generated. have.
  • the message image integrating unit 173 may insert the message information of the operating field received from the management server 200 into the disaster image.
  • the message may be inserted at a position, transparency, and size predetermined by the user, and the message image integrating unit 173 may adjust the time for which the message is maintained according to the user's setting.
  • FIG. 5 is a control block diagram of the management server shown in FIG.
  • the management server 200 may include a management server communication unit 210, a management server memory unit 220, and a management server control unit 240.
  • the management server communication unit 210 may exchange information with the mobile device 100 through a communication network.
  • the information exchanged may include different information according to a general user and an operator.
  • the management server communication unit 210 may receive an image and evacuation guidance information that is not available from the mobile device 100 used by the general user, the disaster image, emergency signal, safety to the mobile device 100 used by the general user It is possible to transmit evacuation guidance information, operator's message information, etc., which are not available to the rescue personnel.
  • the management server communication unit 210 may receive disaster image determination information, the operator's message information from the mobile device 100 used by the operator, the management server communication unit 210 is a mobile device 100 used by the operator You can send video and danger signals.
  • the management server memory unit 220 may store necessary information and programs of the management server 200.
  • the management server memory unit 220 may store a program and information for the operation of the management server control unit 240, the disaster detection information received from the management server disaster detection sensor unit 230, and from the mobile device 100 The received image information can be stored.
  • the management server disaster detection sensor 230 may detect the occurrence of a disaster.
  • the disaster detection sensor unit 230 may detect the occurrence of a disaster and transmit the disaster detection information to the management server controller 240.
  • the disaster detection information may include photographed image, sound, alarm signal, temperature, humidity, and vibration information.
  • the management server disaster detection sensor 230 may include an image camera 231, a sound detector 232, an alarm sensor 233, a temperature and humidity measurement sensor 234, and a vibration detection sensor 235. have.
  • the image camera unit 231 may transfer the captured image captured by the image camera (not shown) in real time to the management server controller 240.
  • the image camera unit 231 may receive a captured image from a plurality of image cameras. In this case, the image camera may be installed in each of a plurality of areas formed by dividing a predetermined space.
  • the video camera unit 231 may store location information of each video camera, and transmit the location information of the video camera to the management server controller 240 together with the captured image.
  • the sound detector 232 may transmit the sound recorded by the microphone (not shown) in real time to the management server controller 240.
  • the sound detector 232 may receive sound from a plurality of microphones. At this time, the microphone may be installed in each one of the plurality of areas formed by dividing the predetermined space.
  • the sound detector 232 may store location information of each microphone, and transmit the location information of the microphone to the management server controller 240 together with the sound.
  • the alarm sensor unit 233 may transmit an alarm signal generated from an alarm device (not shown) to the controller 240.
  • the alarm device generating an alarm signal may be an alarm device user inputting a signal through a button or the like so that the alarm device generates an alarm signal.
  • the alarm sensor unit 233 may receive an alarm signal from a plurality of alarm devices. In this case, the alarm device may be installed in each of a plurality of areas formed by dividing a predetermined space.
  • the alarm sensor unit 233 may store location information of each alarm device, and transmit the location information of the alarm device to the management server controller 240 together with the alarm signal.
  • the temperature and humidity measurement sensor unit 234 may transmit the temperature and humidity measured by the temperature and humidity measurement sensor (not shown) in real time to the management server controller 240.
  • the temperature and humidity measurement sensor unit 234 may receive temperature and humidity information from the plurality of temperature and humidity measurement sensors.
  • the temperature-humidity measurement sensor may be installed one each in a plurality of areas formed by dividing a predetermined space.
  • the temperature and humidity measurement sensor unit 234 may store the location information of each temperature and humidity measurement sensor, and may transmit the location information of the temperature and humidity measurement sensor to the management server controller 240 together with the temperature and humidity information.
  • the vibration sensor 235 may transmit the vibration information measured by the vibration sensor (not shown) in real time to the management server controller 240.
  • the vibration sensor 235 may receive vibration information from a plurality of vibration sensors. At this time, the vibration sensor may be installed in each one of the plurality of areas formed by dividing the predetermined space.
  • the vibration sensor unit 235 may store location information of each vibration sensor, and may transmit the location information of the vibration sensor to the management server controller 240 together with the vibration information.
  • a plurality of regions formed by dividing the predetermined space described herein may be described with reference to FIG. 6.
  • a building which is a predetermined space, is divided into a plurality of areas in units of blocks (a), and a video camera, a microphone, an alarm device, a temperature and humidity measurement sensor, and a vibration sensor are installed in each block (a).
  • the plurality of divided regions may have different sizes depending on the image camera, the microphone, the alarm device, the temperature and humidity measurement sensor, and the vibration detection sensor.
  • a video camera can set the distance that can be taken by the video camera to the size of the area
  • a microphone can set the distance that the microphone can discriminate from the sound to the size of the area
  • an alarm device can set the distance between May be set to the size of the region.
  • the temperature-humidity measurement sensor and the vibration detection sensor may be one in which the size of the area is determined by an administrator.
  • the divided space may generate location information in the form of layers and coordinates. For example, in the case of block (b) of FIG. 6, location information may be generated in the x layers 4 and 4.
  • the management server disaster detection sensor unit 230 may be implemented separately from the management server 200, and may exchange information through communication with the management server 200.
  • the management server disaster detection sensor 230 may further include a communication unit, a memory unit, and a controller, and may serve as the same sensor.
  • the video camera, the microphone, the alarm device, the temperature and humidity measurement sensor and the vibration detection sensor may be installed at the same position, and at least one of the video camera, the microphone, the alarm device, the temperature and humidity measurement sensor and the vibration detection sensor.
  • the combination may be installed in the form of a disaster detection sensor (not shown).
  • Management server disaster detection sensor unit 230 may be formed separately from the management server 240, it may be formed to exchange information by wirelessly communicating with the management server 200.
  • the management server controller 240 may control the overall operation of the management server 200.
  • the management server controller 240 may include a disaster image determiner 241, a structure determiner 242, a disaster determiner 243, and a group manager 244.
  • the disaster image determiner 241 may determine an image to be transmitted to the mobile device 100. Determining the image to be transmitted to the mobile device 100 is controlled by the disaster image determination unit 241 to transmit the image to the operator mobile device (100a-1, 100a-2), operator mobile device (100a-1, 100a) When the disaster image determination information is received from -2), the image corresponding to the disaster image determination information may be determined as the disaster image.
  • the disaster image determination unit 241 When the disaster image determination unit 241 does not receive the disaster image determination information from the operator mobile devices 100a-1 and 100a-2 for a preset time, the disaster image determination unit 241 transmits a setting request of the temporary operator to the group manager 244, The temporary manager mobile device information may be received from the group manager 244. The disaster image determining unit 241 may identify the temporary operator mobile device as the temporary operator mobile device information and may control to transmit an image. When the disaster image determination information is received from the temporary operator mobile device, the disaster image determination information corresponds to the disaster image determination information. Can be determined as a disaster image.
  • the disaster image determination unit 241 When the disaster image determination unit 241 does not receive the disaster image determination information from the temporary operator mobile device for a preset time, the location information is received from the mobile device 100 and the mobile device 100 closest to the location of the disaster occurrence. Can be determined to be a disaster image.
  • the disaster image determiner 241 may control to transmit the disaster image to the mobile device 100.
  • the structure determination unit 242 may determine the structure of each floor of the building. Determining the structure of each floor of the tycoon may be based on the external structure of the pre-configured building, the location information of the mobile device (100).
  • the external structure of the pre-configured building is configured by using a blueprint, a map, a satellite image, and the like, and may be previously stored in the management server memory unit 220.
  • the location information of the mobile device may include moving line information of the mobile device 100.
  • the structure determination unit 242 may be configured to determine the structure of each floor of the building by combining the copper wire information moved by the mobile device 100 with the external structure of the previously configured giant. In this case, the floor structure of the building may include evacuation routes and shelters generated based on the copper wire of the mobile device 100.
  • the structure determination unit 242 may transmit the structure of each floor of the building to the disaster determination unit 243.
  • the disaster determination unit 243 may receive disaster detection information from the management server disaster detection sensor unit 230, and estimate a disaster occurrence position based on the disaster detection information.
  • the disaster detection information may include photographed image, sound, alarm signal, temperature, humidity and vibration information, and may further include location information of a video camera, a microphone, an alarm device, a temperature and humidity measurement sensor, and a vibration detection sensor. .
  • the location information of the temperature and humidity measurement sensor and the vibration detection sensor may be determined as a disaster occurrence location.
  • the hazard determination unit 243 may generate a danger signal when an element such as a color of an image, a movement of an object, or the like changes above a predetermined threshold point, and when the sound is detected above a predetermined threshold point. It may be to generate a danger signal, when the alarm signal is detected may be to generate a danger signal, when the temperature and humidity changes above a predetermined threshold may be to generate a danger signal, the vibration information is above a predetermined threshold If changed, it may be to generate a danger signal.
  • the disaster determination unit 243 may generate a danger signal by combining the photographed image, the sound, the alarm signal, the temperature, the humidity, and the vibration information, which are factors for generating the danger signal.
  • the disaster determination unit 243 calculates the floor structure of the building received from the disaster occurrence position and structure determination unit 242 generated by combining the photographed image, sound, alarm signal, temperature, humidity, vibration information, and location information of each sensor. It can generate a dangerous signal to include.
  • the disaster determination unit 243 may control to transmit the danger signal to the operator mobile devices 100a-1 and 100a-2.
  • the disaster determination unit 243 may wait for a predetermined time when the dangerous signal is issued to the operator mobile devices 100a-1 and 100a-2.
  • the emergency determination unit 243 may determine that a disaster has occurred and control the emergency signal to be transmitted to the mobile device 100.
  • a safety signal can be used to determine that a disaster has not occurred and to end the disaster.
  • the emergency signal transmitted to the mobile device 100 is transmitted from the disaster occurrence position and structure determination unit 242 generated by combining the captured image, sound, alarm signal, temperature, humidity, vibration information and location information of each sensor. It may include the floor structure of the building received.
  • the disaster determination unit 243 transmits a temporary operator setting request to the group manager 244 and the group manager 244. ) Can receive temporary operator information.
  • the disaster determination unit 243 may identify the temporary operator mobile device with the temporary operator mobile device information, issue a command to deliver a danger signal to the temporary operator mobile device, and wait for a predetermined time from the time when the delivery command is issued.
  • the emergency determination unit 243 receives an emergency signal from the temporary operator mobile device in time, it may determine that a disaster has occurred and control the emergency signal to be transmitted to the mobile device 100. It can be determined that nothing has happened and the disaster can be ended.
  • the emergency determination unit 243 may determine that a disaster has occurred and control to transmit the emergency signal to the mobile device 100.
  • the disaster determination unit 243 determines that a disaster has occurred, it is predicted that the disaster is enlarged or reduced based on the disaster detection information, and if it is determined that the disaster is expanded, the disaster has occurred. It may further comprise determining. Based on the disaster detection information, predicting the expansion or reduction of a disaster may be determined according to whether or not the location of a disaster occurs. At this time, when the number of disaster occurrences increases, it may be determined that the disaster increases, and when the location of the disaster decreases gradually, the disaster may decrease.
  • the disaster determination unit 243 may control the delivery of the disaster image to the operator mobile devices 100a-1 and 100a-2, which are not located at a disaster occurrence location but are located within a predetermined radius.
  • the disaster determination unit 243 may receive an evacuation signal from the operator mobile devices 100a-1 and 100a-2.
  • the disaster determination unit 243 determines that a disaster has occurred in an adjacent area, and transmits the evacuation signal and the disaster image to the mobile device 100.
  • the evacuation signal may include a disaster occurrence location generated by combining the photographed image, sound, alarm signal, temperature, humidity, vibration information, and location information of each sensor, and the floor structure of the building received from the structure determination unit 242. Can be.
  • the group manager 244 may group at least one mobile device 100 and store grouping information. Grouping the at least one mobile device 100 by the group manager 244 may be grouping the mobile devices 100 having a short distance into a group. In another embodiment of the present invention, grouping the at least one mobile device 100 by another group manager 244 may be to group the mobile devices 100 in a pre-divided space into one group. This is the case of grouping each department within a company.
  • the grouped mobile device 100 may be changed in group. For example, the member mobile devices 100b-1 and 100b-2 separated by a predetermined distance or more from the operator mobile devices 100a-1 and 100a-2 may be excluded from the existing group and incorporated into another group.
  • the group manager 244 may determine the operator's mobile device in each group. Determining the operator's mobile device may be selecting one of the mobile devices 100 of the mobile device 100 in the group. Determining the operator mobile device (100a-1, 100a-2) in accordance with another embodiment of the present invention, the predetermined operator to the mobile device 100 to enter the operator code in the mobile device 100 the operator's mobile device It may be determined as.
  • the group manager 244 may receive a temporary operator setting request from the disaster image determining unit 241, and may set any one mobile device in the group as a temporary operator mobile device according to the temporary operator request. The group manager 244 may generate information of the temporary operator mobile device and transmit the information to the disaster image determiner 241.
  • the group manager 244 may receive a temporary operator setting request from the disaster determination unit 243, and may set any one mobile device in the group as a temporary operator mobile device according to the temporary operator request. The group manager 244 may generate information of the temporary operator mobile device and transmit the information to the disaster determination unit 243.
  • FIG. 7 is a flowchart illustrating a method of generating an emergency signal of a broadcast system using a mobile according to an embodiment of the present invention.
  • the disaster detection information is generated by the disaster detection sensor of the management server 200.
  • the disaster detection sensor may be installed in a plurality of areas formed by dividing a predetermined space, and the disaster detection information.
  • the information may include a photographed image, a sound, an alarm signal, temperature, humidity, and vibration information, and an image camera (not shown), a microphone (not shown), an alarm device (not shown), a temperature and humidity measurement sensor (not shown) And location information of a vibration sensor (not shown).
  • the management server 200 generates a danger signal based on the disaster detection information (not shown), and transmits the danger signal to the group 1 operator mobile device 100a-1 located at the disaster occurrence location.
  • the generating of the signal may include generating a dangerous signal when an element such as a color of the photographed image, a movement of an object, or the like changes above a predetermined threshold point, and may generate a dangerous signal when a sound is detected above a predetermined threshold point.
  • an alarm signal when an alarm signal is detected, it may be to generate a danger signal, when the temperature and humidity changes above a predetermined threshold may be to generate a danger signal, when the vibration information changes above a predetermined threshold to generate a danger signal It may be.
  • the management server 200 may be to generate a dangerous signal by combining the composite image, sound, alarm signal, temperature, humidity, vibration information that generates the dangerous signal, the disaster occurs by combining with the location information You can specify the location.
  • the group 1 operator located at the disaster occurrence location may be determined by the mobile device 100a-1 by the management server 200 comparing the location of the disaster occurrence with the location of the mobile device 100a-1 of the group 1 operator. have. To this end, the mobile device 100a-1 of the group 1 operator may provide its location to the management server 200 in real time.
  • the emergency group When the group 1 operator receives the danger signal, it is determined whether it is a disaster situation (320), and when it is determined as a disaster situation, the emergency group inputs the emergency situation determination information to the group 1 mobile device (100a-1) to generate an emergency signal, and generates The emergency signal is transmitted to the management server 200. (325) If the operator does not determine the disaster situation, the emergency situation determination information is input to the group 1 operator mobile device 100a-1 to generate a safety signal, and generate The safety signal is transmitted to the management server 200. (330)
  • one of the group member mobile devices 100b-1 may be temporarily operator mobile. It can be designated as a device, and can receive an emergency signal or safety signal from a temporary operator mobile device.
  • the management server 200 does not receive an emergency signal or safety signal from the temporary operator mobile device for a certain time, it predicts the situation that the disaster is expanded or reduced based on the disaster detection information, if it is determined that the disaster is expanded Can generate an emergency signal.
  • FIG. 8 is a flowchart illustrating a control method of a broadcast system using a mobile according to an embodiment of the present invention.
  • the management server 200 transmits the emergency signal received from the first group operator mobile device 100a-1 to the first group member mobile device 100b-1.
  • the mobile device 100b-1 When the group member mobile device 100b-1 receives an emergency signal, the mobile device 100b-1 forcibly executes a broadcast app and photographs an external image.
  • the group 1 member mobile device 100b-1 transmits the captured image to the management server 200 (420).
  • the management server 200 transmits the video to the group 1 operator mobile device 100a-1 (425), receives a disaster image from the group 1 operator mobile device 100a-1, and (430) receives the received disaster image. Forcibly sent to the group member mobile device 100b-1, and the group member mobile device 100b-1 forcibly outputs the disaster image.
  • the group 1 mobile device 100b-1 generates and outputs evacuation guidance information to a predetermined refuge based on the emergency signal and the location of the mobile device. Based on the location information generated by the mobile device location tracking unit 130 and the emergency signal including the location information of the disaster occurrence received from the management server 200 and the structure of each floor of the building received by the group 1 mobile device 100b-1 To generate evacuation guidance information.
  • Generating evacuation guidance information is an evacuation that can be used by the group 1 mobile device 100b-1 at the location of the user included in the location information, and an evacuation path corresponding to the disaster occurrence position according to the disaster occurrence location information during the evacuation center. As the remaining evacuation except for the shelter, it may be to select one of the shelter, and to further exclude the available evacuation guidance information transmitted from the management server 200.
  • the evacuation route, the shelter is included in the floor structure information of the building
  • the floor structure information of the building may be determined based on the external structure of the pre-configured building, the location information of the group 1 mobile device (100b-1). have.
  • the external structure of the preconfigured building is configured by using a blueprint, a map, a satellite image, and the like, and may be stored in advance in the management server 200.
  • the location information of the group 1 member mobile device 100b-1 may include copper wire information moved by the group 1 member mobile device 100b-1.
  • FIG. 9 is a flowchart illustrating a disaster image propagation method of a broadcasting system using a mobile device according to an embodiment of the present invention.
  • the management server transmits the disaster image to the two-group operator mobile device 100a-2.
  • the other two-group operator mobile device 100a-2 may be an operator mobile device adjacent to the disaster occurrence location.
  • the determining of the location adjacent to the disaster occurrence location may be located within a predetermined radius from the disaster occurrence location.
  • the two-group operator determines whether or not the disaster situation through the two-group operator mobile device 100a-2, and if it is determined that the disaster situation (515), the two-group operator repays the two-group disaster to the two-group operator mobile device (100a-2) Input the determination information, and generates an evacuation signal from the two-group operator mobile device (100a-2), and transmits the generated evacuation signal to the management server 200. (520)
  • the management server 200 receives the evacuation signal In operation 525, the disaster image is transmitted to the two-group member mobile device 100b-2, and the two-group member mobile device 100b-2 forcibly outputs the disaster image.
  • Such a broadcast system using a mobile device may be embodied in the form of program instructions that can be executed by various computer components and recorded in a computer-readable recording medium.
  • the computer-readable recording medium may include program instructions, data files, data structures, etc. alone or in combination.
  • the program instructions recorded on the computer-readable recording medium are those specially designed and configured for the present invention, and may be known and available to those skilled in the computer software arts.
  • Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical recording media such as CD-ROMs, DVDs, and magneto-optical media such as floptical disks. media), and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like.
  • Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like.
  • the hardware device may be configured to operate as one or more software modules to perform the process according to the invention, and vice versa.

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  • Business, Economics & Management (AREA)
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  • Engineering & Computer Science (AREA)
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  • Biodiversity & Conservation Biology (AREA)
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Abstract

La présente invention concerne un système de diffusion faisant intervenir un dispositif mobile. La présente invention comprend : un serveur de gestion servant à générer des informations de détection de sinistre comprenant un lieu d'apparition de sinistre conformément à des informations détectées par un capteur de détection de sinistre installé dans au moins une zone ; et un dispositif mobile qui est connecté au serveur de gestion, qui appartient à un groupe parmi au moins un groupe, et qui comprend un dispositif mobile d'opérateur ou un dispositif mobile de membre.
PCT/KR2017/001073 2016-02-01 2017-02-01 Système de diffusion faisant intervenir un dispositif mobile et procédé de commande associé WO2017135671A1 (fr)

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CN111476964A (zh) * 2020-03-04 2020-07-31 宁波财经学院 一种远程森林防火监控系统与方法
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KR101968607B1 (ko) * 2017-11-03 2019-04-12 주식회사 유진코어 모바일 기기를 이용한 실시간 재난 방송 시스템 및 방법

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CN111476964A (zh) * 2020-03-04 2020-07-31 宁波财经学院 一种远程森林防火监控系统与方法

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