JP2019180011A - Processing method and business model of mobile remote monitoring system using GPS - Google Patents

Abstract

A processing method and a business model of a mobile remote monitoring system that can be deployed to various objects are provided. Kind Code: A1 A mobile remote monitoring system for transmitting position information and the like of a mobile object to a mobile monitoring person at a remote position from the mobile object checking device when the mobile object checking device carried by the mobile object exceeds a certain area. And includes one or more fixed units, the mobile unit checking unit, a monitoring server, a mobile unit monitoring unit, and a mobile unit protecting unit. [Selection diagram] Fig. 1

Description

  The present invention relates to a processing method and a business model of a system for remotely monitoring the position of a moving body using GPS.

  As a mobile remote monitoring system using GPS, short-range wireless communication and GPS signal reception are combined, and by turning on / off GPS signal reception according to conditions, the battery of a device carried by the mobile body can be made longer. It can withstand actual use (see, for example, Patent Document 1 and Patent Document 2).

Japanese Patent Laid-Open No. 11-27736 JP 2018-14018 A

  However, in the conventional technology, a moving body monitor (for example, a mobile body relative or parent, a teacher, a school, a kindergarten, a cram school, an owner, an owner, etc., is defined as a person who should monitor the moving body). Depending on the target of the moving object (for example, elderly people, children, students, pets, cars, etc.) and personality, it is not possible to arbitrarily set alert conditions such as when the mobile object wants to obtain alert information, Mobile object guardians (eg, security guards, crime prevention associations, crime prevention volunteers, pet detectives, etc.) And the person who performs monitoring, etc.) could not be specified arbitrarily, and the range of use of the mobile remote monitoring system was narrow.

  The processing method in the mobile remote monitoring system according to the first aspect of the present invention is such that when the mobile object confirmation device carried by the mobile object exceeds a certain area, the position information of the mobile object is moved remotely from the mobile object confirmation device. The mobile remote monitoring system includes a stationary machine, the mobile body confirmation machine, a monitoring server, a mobile body surveillance machine, and a mobile body guardian machine. Includes a short-range wireless transmission unit, and the mobile body checker includes a short-range wireless reception unit, a GPS reception unit, a mobile communication unit, the short-range wireless reception unit, the GPS reception unit, and the mobile communication unit. The monitoring server includes a mobile communication unit, a server Internet line IF (InterFace; hereinafter abbreviated as IF) unit, the mobile communication unit and the server interface. A server control unit for controlling the network line IF unit, and the mobile monitoring device includes a monitoring device Internet line IF unit, a monitoring device monitor unit, a user IF unit, and the monitoring device Internet line IF. A supervisory machine control unit for controlling the supervisory machine monitor unit and the user IF unit, the mobile guardian machine includes a guardian machine internet line IF unit, a guardian machine monitor unit, A guardian machine control unit that controls the guardian machine internet line IF unit and the guardian machine monitor unit, and the confirmation unit control unit of the mobile unit confirmation unit from one or more of the fixing devices. While at least one short-range radio is received by the short-range radio reception unit, the GPS reception unit is stopped, and confirmation information is transmitted from the mobile communication unit at a predetermined interval. The GPS receiver is activated to transmit a GPS signal from the mobile communication unit, and the movement obtained by receiving the GPS signal from the mobile communication unit by the server control unit of the monitoring server. When it is determined that the body location information is in an alert state based on a preset alert criterion, the mobile location information is obtained from the server Internet line IF unit based on a preset transmission target criterion. Transmitting to the mobile device or / and the mobile guardian device, and received from the monitor device Internet line IF unit based on the transmission target criteria by the monitor device control unit of the mobile monitor device Displaying the mobile body position information on the monitor of the supervisor machine, and the guardian machine control part of the mobile guardian machine, the guardian machine Internet And displaying the mobile body position information received from the line IF unit on the guardian device monitor unit.

  The processing method in the mobile remote monitoring system of the present invention 2 is the processing method in the mobile remote monitoring system according to the present invention 1, and further, the monitoring device control unit of the mobile monitoring device, Transmitting the alert criterion and the transmission target criterion input from the user IF unit to the monitoring server from the supervisor unit Internet line IF unit, and setting the transmission target criterion in the supervisor unit control unit; The server control unit of the monitoring server includes setting the alert criterion and the transmission target criterion received from the server Internet line IF unit in the server control unit.

  In this way, the present invention sets alert conditions such as when the mobile body wants to obtain alert information according to the target of the mobile body (for example, elderly people, children, students, pets, cars, etc.) and personality. Mobile monitoring (for example, mobile relatives, parents, teachers, schools, kindergartens, cram schools, owners, owners, etc.) can be done arbitrarily. The mobile guardian can be arbitrarily designated, such as being able to select from crime prevention associations, crime prevention volunteers, and pet detectives, and can provide a processing method for a mobile remote monitoring system that has a wider range of use than ever before.

  Further, in the present invention as described above, a student can carry the mobile object confirmation machine, and the monitoring server can receive the confirmation information and transmit the confirmation information to the mobile object observer machine. It can also be provided as a processing method for attendance confirmation systems in schools, kindergartens, and cram schools.

  Furthermore, according to the processing method of the mobile remote monitoring system of the present invention (hereinafter abbreviated as “this system” in this section), if there is one monitoring server in this system, various processing for various mobile objects are possible. Incorporate parents / guardian groups (for example, multiple security companies, crime prevention associations, crime prevention volunteers, pet detectives, etc.) into this system, and build a comprehensive mobile remote monitoring system with a single surveillance server. A business model that can be developed can be provided. In addition, if the moving body monitor is a school, kindergarten, cram school, or the moving body guard is a security guard (security company), a crime prevention association, a crime prevention volunteer, a pet detective, etc. It can be an agent that provides this system, and it can provide a business model that can be developed by many mobile monitoring personnel. In addition, by displaying various mobile guardians on one screen of the supervisor machine monitor unit so that the mobile guard can arbitrarily select one or more mobile guardians, It can be a matching system for moving body supervisors and moving body guardians, and can provide a business model that enables smooth business development.

The block diagram which shows the whole structure of the mobile body remote monitoring system in a 1st Example. The flowchart figure which shows the process algorithm of the mobile body confirmation machine in a 1st Example. The flowchart which shows the processing algorithm of the monitoring server in a 1st Example. The flowchart which shows the process algorithm of the moving body supervisor machine in a 1st Example. The flowchart which shows the process algorithm of the mobile body guardian machine in a 1st Example. The flowchart 1 which shows the process algorithm of the mobile body observer machine at the time of each reference | standard input in a 1st Example. The flowchart 2 which shows the process algorithm of the mobile body observer machine at the time of each reference | standard input in a 1st Example. The flowchart which shows the processing algorithm of the monitoring server at the time of each reference | standard input in a 1st Example. The flowchart which shows the processing algorithm of the monitoring server in a 2nd Example. The flowchart which shows the process algorithm of the moving body supervisor machine in a 2nd Example. The flowchart which shows the processing algorithm of the mobile body guardian machine in a 2nd Example. The flowchart which shows the processing algorithm of the monitoring server in a 3rd Example. The flowchart which shows the process algorithm of the moving body supervisor machine in a 3rd Example. The flowchart which shows the process algorithm of the mobile body guardian machine in a 3rd Example. The flowchart figure which shows the process algorithm of the mobile body confirmation machine in a 4th Example. The flowchart which shows the processing algorithm of the monitoring server in a 4th Example. The flowchart which shows the processing algorithm of the moving body supervisor machine in a 4th Example. The flowchart which shows the processing algorithm of the mobile body guardian machine in a 4th Example. The flowchart which shows the processing algorithm of the moving body supervisor machine at the time of each reference | standard input in a 4th Example. The flowchart which shows the processing algorithm of the monitoring server at the time of each reference | standard input in a 4th Example. The figure which shows an example of the display of the monitoring machine monitor part in a 5th Example. The figure which shows another example of the display of the monitoring machine monitor part in a 5th Example.

  Embodiments of the processing method of the mobile remote monitoring system of the present invention will be described below with reference to the drawings.

  In the present invention, the moving body refers to an organic substance such as a person (for example, an elderly person, a mentally disabled person, a child, a student, etc.), a pet (for example, a domestic dog or a domestic cat), or an inorganic substance. For example, it is defined as an object that can be moved by human control such as an automobile or a motorcycle, and an inorganic substance that can be moved by a human hand such as a valuable or a suitcase. The short-range wireless is defined as a short-range wireless communication wireless such as Bluetooth (registered trademark) that has a reach distance of about 1 meter to 10 meters. The mobile object confirmation device is defined as a communication device (for example, a tag, a dedicated device, a smart phone, etc.) that the mobile object is worn by, for example, a necklace, a bracelet, or a waist belt or is carried by hand. A dedicated machine is defined as a communication device made to achieve the mobile remote monitoring system of the present invention. A mobile monitoring device is defined as a communication device (for example, a personal computer, a smart phone, or a dedicated device) that the mobile monitoring device can use or can see. A mobile protector is defined as a communication device (for example, a personal computer, a smart phone, or a dedicated device) that the mobile protector can use or can see. The confirmation information is information indicating that the mobile body is within the specified area, which is transmitted from the mobile body check machine to the monitoring server at a predetermined interval, and includes information specific to the mobile body check machine, for example. It is defined as The alert state is defined as a state in which the mobile body is outside the specified area or is in a certain state. The alert criterion is a criterion for determining from the GPS signal that the alert state is present, and is defined as including a temporal element, a distance element, and the like. The transmission target standard is defined as a standard for determining a transmission target and transmission method for mobile object position information and the like, a display method for the target machine, and the like. The abnormal state is defined as an abnormal state of the moving object checker that is not obtained when it is necessary to obtain a GPS signal. The abnormal standard is defined as a standard for determining that the state is abnormal from the confirmation information and the reception state of the GPS signal. The biological sensor is defined to include an acceleration sensor that indicates that the living body suddenly falls and an outside air temperature (temperature) sensor that affects the living body in addition to a normal biological sensor. The biological information is defined as biological information obtained by the biological sensor. The biological alert state is defined as a biological dangerous state of the moving body. The biometric alert criterion is defined as a criterion for determining that the biological danger state is based on one or more biometric information values of the mobile body confirmation device.

  FIG. 1 is a block diagram showing the overall configuration of a mobile remote monitoring system in the first embodiment.

In FIG. 1, the mobile remote monitoring system of the present invention includes one or more fixed machines 1, a mobile body checker 2, a monitoring server 3, a mobile body monitor 4, and a mobile body guard 5. .
Furthermore, the fixed machine 1 includes a short-range wireless transmission unit 11, and the mobile body checker 2 includes a short-range wireless reception unit 21, a GPS reception unit 22, a mobile communication unit 23, a short-range wireless reception unit 21, and a GPS reception. The monitoring server 3 includes a mobile communication unit 31, a server internet line IF unit 32, a mobile communication unit 31 and a server internet line. The mobile monitoring device 4 includes a monitoring device Internet line IF unit 41, a monitoring device monitor unit 42, a user IF unit 43, and a monitoring device Internet line IF. Unit 41, the supervisor machine monitor unit 42, and the supervisor unit controller 44 that controls the user IF unit 43. And Netto line IF unit 51 and the parents machine monitor unit 52, and a parents machine control unit 53 for controlling the guardians machine internet IF section 51 and the guardian machine monitor unit 52.

  In this embodiment, the fixing device 1 is a specified area of a moving body (for example, in the case where the moving body is a person or a pet, the area of a normal activity including the grounds of the house or the grounds of the house, the classroom or school area) In the case of automobiles and motorcycles, in the parking lot or house premises, in the case of valuables in the house premises or hotel rooms, etc. Or leave it.

  In the present embodiment, the alert criteria and the transmission target criteria are all or partly set in the server control unit 33 of the monitoring server 3 and the supervisor device control unit 44 of the mobile object surveillance device 4. Each standard value (recommended value of the provider of the mobile remote monitoring system of the present invention, etc.) is set in advance, and at any time, the mobile supervisor can arbitrarily or the guidance of the provider of the system, etc. Thus, it is assumed that the moving body supervisor can input and set from the user IF unit 43.

  In this embodiment, the alert criteria parameters include alert criteria information indicating whether the alert criteria is time or / and distance, alert activation time when the alert criteria information includes time, and distance to the alert criteria information. It shall consist of the moving body reference position and the alert activation distance when including.

  In this embodiment, the transmission target reference parameter includes mobile body guardian machine information, mobile body position information indicating unique information of a mobile body guardian possessed by a mobile body guardian selected according to the target of the mobile body Transmission target information indicating the object (mobile object supervisor 4 or / and mobile object guard machine 5) to which information or the like is to be transmitted (in this information, the mobile object observer machine is the monitor machine, and the mobile object guardian machine is Abbreviated as a guardian machine, the same shall apply hereinafter), and means for transmitting mobile body position information or the like (for example, e-mail or SNS (Social Networking Service)) to the mobile body monitor machine 4 when the transmission target includes a monitor machine. The monitoring device transmission method information to be displayed, the moving body position information when the transmission target includes the monitoring device is displayed on the monitoring device monitoring unit 42 (for example, when the mobile monitoring device 4 is in the sleep state) Sound only, which shall consist of observer unit display method information, indicating an additional to) the particular application or SNS if running.

  2 to 8 are flowcharts showing processing algorithms of the mobile remote monitoring system in the first embodiment. Since each machine 2 to 5 (hereinafter abbreviated as each machine) has a control unit and the control unit of each machine controls each machine, each machine control unit has an individual processing algorithm. FIG. 2 shows the mobile object confirmation device 2, FIG. 3 shows the monitoring server 3, FIG. 4 shows the mobile object monitoring device 4, FIG. 5 shows the mobile object protection device 5, and FIGS. FIG. 8 is a flowchart showing a processing algorithm of the monitoring server 3 at the time of each reference input. Each flowchart will be described below.

  FIG. 2 is a flowchart showing a processing algorithm of the confirmation machine control unit 24 in the mobile body confirmation machine 2.

The confirmation device control unit 24 of the mobile object confirmation device 2 receives short-range wireless signals transmitted from the short-range wireless transmission unit 11 of one or more fixed devices 1 and the short-range wireless reception unit 21 uses one or more fixed devices. While confirming that the signal is received from 1, the GPS receiver 22 is stopped and the mobile communication unit 23 uses the short-range wireless reception information as confirmation information from the mobile communication unit 23 at a confirmation information interval (fixed value). When the confirmation device control unit 24 determines that the short-range radio is not continuously received from one or more fixed devices 1 during the GPS activation time (fixed value), the GPS reception unit 22 is In addition, the GPS signal of the GPS receiving unit 22 is transmitted from the mobile communication unit 23.
FIG. 3 is a flowchart showing a processing algorithm of the server control unit 33 in the monitoring server 3.

  Here, it is assumed that the mobile protector machine 5 is one mobile protector machine 5 selected from a plurality of mobile protector machines based on the mobile protector machine information.

  When the server control unit 33 of the monitoring server 3 determines that the GPS signal is received by the mobile communication unit 31, the GPS signal is converted into mobile position information, and the alert reference information set in the server control unit 33 If it is determined that the GPS signal has been continuously received during the alert activation time set in the server control unit 33, and / or if the alert reference information includes a distance, the mobile object position When it is determined that the information is located at a position beyond the alert activation distance set in the server control unit 33 from the mobile body reference position set in the server control unit 33, the alert reference information includes neither time nor distance Immediately, alert information (information indicating that the mobile body is in an alert state; the same applies hereinafter) and the server Internet line IF unit 32 When the mobile object position information includes the monitor machine in the transmission target information set in the server control unit 33, the monitor set in the server control unit 33 and the monitor machine control unit 44 of the mobile monitor machine 4 The information is transmitted to the mobile supervisor machine 4 by the method selected in the machine transmission method information, and when the information to be transmitted includes the guardian machine, it is transmitted to the mobile guardian machine 5.

  FIG. 4 is a flowchart showing a processing algorithm of the supervisor machine controller 44 in the mobile supervisor machine 4.

  The supervisor machine control unit 44 of the mobile supervisor machine 4 receives the alert information and the mobile body position information from the supervisor machine Internet line IF unit 41 by the method selected by the supervisor machine transmission method information. If it is determined, the alert information and the moving body position information are displayed on the supervisor machine monitor unit 42 by the method selected by the supervisor machine display method information set in the supervisor controller 44.

  FIG. 5 is a flowchart showing a processing algorithm of the guardian machine control unit 53 in the mobile guardian machine 5.

  If the guardian machine control unit 53 of the mobile guardian machine 5 determines that the alert information and the mobile body position information have been received from the guardian machine internet line IF unit 51, the guardian machine monitor unit 52 The alert information and the moving body position information are displayed.

  6 and 7 are flowcharts showing the processing algorithm of the supervisor machine controller 44 in the mobile supervisor machine 4 at each reference input.

  The monitoring device control unit 44 of the mobile monitoring device 4 receives the mobile guardian device information, the alert reference information, and the alert activation time based on the alert reference information input from the user IF unit 43 or The mobile reference position, the alert activation distance, and the transmission target information are transmitted from the supervisor machine Internet line IF unit 41 to the monitoring server 3 (FIG. 6).

  Further, the supervisor machine control unit 44 of the mobile supervisor machine 4 sends the viewer machine transmission method information and the monitor machine display method information input from the user IF unit 43 to the supervisor machine controller 44. Then, only the supervisor device transmission method information is transmitted from the supervisor device Internet line IF unit 41 to the monitoring server 3 (FIG. 7).

  FIG. 8 is a flowchart showing a processing algorithm of the server control unit 33 in the monitoring server 3 at each reference input.

  The server control unit 33 of the monitoring server 3 transmits the alerting time based on the mobile guardian device information, the alert criteria information, and the alert criteria information transmitted from the mobile surveillance device 4 or / and the alert criteria information. When it is determined that the server Internet line IF unit 32 has received the mobile object reference position and the alert activation distance, the transmission target information, and the supervisor machine transmission method information, the mobile guardian machine information and Server control of the alert reference information, the alert activation time or / and the mobile object reference position and the alert activation distance based on the alert reference information, the transmission target information, and the monitoring device transmission method information Set in section 33.

  According to the first embodiment, alert condition setting such as when the mobile body wants to obtain alert information according to the target of the mobile body (for example, elderly people, children, students, pets, cars, etc.) and personality is set. Mobile monitoring (for example, mobile relatives, parents, teachers, schools, kindergartens, cram schools, owners, owners, etc.) can be done arbitrarily. The mobile guardian can be arbitrarily designated, such as being able to select from crime prevention associations, crime prevention volunteers, and pet detectives, and can provide a processing method for a mobile remote monitoring system that has a wider range of use than ever before.

  In addition, when the student carries the mobile unit confirmation machine 2 and the monitoring server 3 receives the confirmation information and transmits it to the mobile unit monitor unit 4, the mobile unit monitor is a teacher, school, kindergarten, cram school, etc. It can also be provided as a processing method for the attendance confirmation system.

  In the second embodiment, when only the monitoring device is included in the transmission target information of the server control unit 33 in the first embodiment, that is, when the transmission target is only the monitoring device, the mobile object supervisor can further determine. In this embodiment, a protection request can be made to a mobile object guardian. For example, this embodiment is useful when the mobile object supervisor determines that an emergency is required based on the mobile object position information of the mobile object, or when the mobile object supervisor cannot be protected.

  FIG. 9 is a flowchart showing a processing algorithm of the server control unit 33 in the monitoring server 3.

  When the server control unit 33 of the monitoring server 3 in FIG. 3 transmits the alert information and the mobile body location information to the mobile body monitor 4, the server Internet line IF unit 32 also monitors the protection request inquiry information. It transmits to the moving body supervisor machine 4 by the method selected by the person machine transmission method information.

  FIG. 10 is a flowchart showing the processing algorithm of the supervisor machine controller 44 in the mobile supervisor machine 4.

  In FIG. 4, the supervisor machine control unit 44 of the mobile supervisor machine 4 also received the protection request inquiry information by the method selected by the supervisor machine Internet line IF unit 41 in the supervisor machine transmission method information. If it is determined that the protection request inquiry information is also displayed on the supervisor machine monitor unit 42 by the method selected in the supervisor machine display method information, the user IF unit 43 within the requestable time (fixed value). When it is determined that protection request information has been input, the protection request information is transmitted from the supervisor machine Internet line IF unit 41 to the monitoring server 3.

  FIG. 11 is a flowchart showing a processing algorithm of the server control unit 33 in the monitoring server 3.

  If the server control unit 33 of the monitoring server 3 determines that the server Internet line IF unit has received the protection request information from the mobile monitoring device 4, the server Internet line IF is used for the alert information and the mobile unit location information. It transmits to the moving body guardian machine 5 from the part 32. FIG.

  In the first embodiment, even if the moving object is outside the specified area, if the moving object checker 2 cannot catch the GPS signal, or if the moving object checker 2 is out of the battery, the moving object monitor indicates the moving object position state. I can't know.

  In addition to the first embodiment, the third embodiment shows a method of providing information necessary for the above case to the mobile supervisor.

  In the present embodiment, the abnormal reference parameter includes the GPS activation time and the GPS non-reception time. The GPS non-reception time is a temporal parameter for determining whether a GPS signal is not received when the confirmation information is not received. Also, as abnormal information, out-of-area GPS out-of-area alert information that the mobile body is out of the specified area and may be out of the GPS area, the mobile body confirmation machine 2 is out of battery or the power ON / OFF switch is in the mobile body confirmation machine 2 The mobile power monitoring device 4 is provided with power-off alert information that is considered to be in a power-off state.

  FIG. 12 is a flowchart showing a processing algorithm of the server control unit 33 in the monitoring server 3.

  The server control unit 33 of the monitoring server 3 does not receive the confirmation information during the GPS activation time and the GPS signal is received during the GPS non-reception time (fixed value). If it is determined that there is not, the telephone number of the mobile communication unit 23 in the mobile unit confirmation device 2 is called to the mobile communication unit 31, and the mobile communication unit 31 is within the mobile communication response time (fixed value). Is determined to have received a response to the call, out-of-area GPS out-of-range alert information, and when it is determined that the response has not been received during the mobile communication response time, power-off alert information is Based on the transmission target information, the IF unit 32 transmits the information to the mobile object monitoring device 4 and / or the mobile object protection device 5.

  FIG. 13 is a flowchart showing the processing algorithm of the supervisor machine controller 44 in the mobile supervisor machine 4.

  When the supervisor machine controller 44 of the mobile supervisor machine 4 determines that the supervisor machine Internet line IF unit 41 has received the out-of-area GPS out-of-area alert information or the power-off alert information, the supervisor machine monitor The unit 42 displays the out-of-area GPS out-of-area alert information or the power-off alert information.

  FIG. 14 is a flowchart showing a processing algorithm of the guardian machine control unit 53 in the mobile guardian machine 5.

  When the guardian machine control unit 53 of the mobile guardian machine 5 determines that the guardian machine internet line IF unit 51 has received the out-of-area GPS out-of-area alert information or the power-off alert information, the guardian machine monitor The unit 52 displays the out-of-area GPS out-of-area alert information or the power-off alert information.

  The fourth embodiment provides a method capable of further monitoring biological information of a moving body in the first to third embodiments. For this purpose, the moving body confirmation machine 2 includes an acceleration sensor, a temperature sensor, and a pulse sensor as biological sensors, and each sensor is controlled by the confirmation machine controller 24.

  In this embodiment, the biometric alert criterion is set in the server control unit 33 of the monitoring server 3, and each standard value (such as the recommended value of the provider of the mobile remote monitoring system of the present invention) is set in advance. It is assumed that the mobile monitor can be set by inputting from the user IF unit 43 at any time by the mobile monitor or arbitrarily or by guidance of the provider of the system.

  In the present embodiment, the biometric alert reference parameters include biometric alert reference information indicating whether the biometric alert reference is acceleration or / and temperature or / and pulse, dangerous acceleration when the biometric alert reference information includes acceleration, The biometric alert reference information includes a dangerous temperature when temperature is included, and the biometric alert reference information includes a dangerous pulse when a pulse is included.

  FIG. 15 is a flowchart showing the processing algorithm of the confirmation machine control unit 24 in the mobile object confirmation machine 2.

  The confirming machine control unit 24 of the moving body confirming machine 2 sends the acceleration information from the acceleration sensor, the temperature information from the temperature sensor, and the pulse information from the pulse sensor to the mobile body communication unit 23 at intervals of the biological information interval (fixed value). Make a call from.

  FIG. 16 is a flowchart showing a processing algorithm of the server control unit 33 in the monitoring server 3.

  When the server control unit 33 of the monitoring server 3 determines that the acceleration information, the temperature information, and the pulse information are received by the mobile communication unit 31, the acceleration is added to the biological alert reference information set in the server control unit 33. If it is determined that the acceleration information exceeds the dangerous acceleration set in the server control unit 33, the temperature information is set in the server control unit 33 when the biological alert reference information includes temperature. When it is determined that the critical temperature is exceeded, when the biological alert reference information includes a pulse, the pulse information is determined to exceed the critical pulse set in the server control unit 33, The biological alert information is transmitted from the server internet line IF unit 32 based on the transmission target information, and / or the mobile object supervisor 4 or / and the mobile object. And transmits it to the Mamorusha machine 5.

  FIG. 17 is a flowchart showing a processing algorithm of the supervisor machine controller 44 in the mobile supervisor machine 4.

  When the supervisor machine controller 44 of the mobile supervisor machine 4 determines that the biological alert information has been received from the supervisor machine Internet line IF unit 41, the biological alert information is sent to the supervisor machine monitor unit 42. Display.

  FIG. 18 is a flowchart showing a processing algorithm of the guardian machine control unit 53 in the mobile guardian machine 5.

  When the guardian machine control unit 53 of the mobile guardian machine 5 determines that the biometric alert information has been received from the guardian machine internet line IF unit 51, the danger alert information is sent to the guardian machine monitor unit 52. Display.

  FIG. 19 is a flowchart showing a processing algorithm of the supervisor machine controller 44 in the mobile supervisor machine 4 at each reference input.

  The monitoring device control unit 44 of the moving body monitoring device 4 receives the biological alert reference information, the dangerous speed based on the biological alert reference information, the dangerous temperature, and the dangerous pulse input from the user IF unit 43. Is transmitted from the supervisor machine Internet line IF unit 41 to the monitoring server 3.

  FIG. 20 is a flowchart showing a processing algorithm of the server control unit 33 in the monitoring server 3 at each reference input.

  The server control unit 33 of the monitoring server 3 sends the biological alert reference information, the dangerous speed, the dangerous temperature, and the dangerous pulse based on the biological alert reference information transmitted from the mobile object monitoring device 4 to the server. Set in the control unit 33.

  The fifth embodiment provides a business model using the processing method of the mobile remote monitoring system of the first to fourth embodiments.

  FIG. 21 is a diagram showing an example of display on the supervisor machine monitor 42 in the present embodiment. In FIG. 21, the horizontal arrows indicate the flow of data (mainly position information), the vertical lines indicate servers, and the position information and the like are transferred from the moving body (actually the moving body checker 2) to the server (monitoring server 3). ) Is transmitted to the mobile body supervisor (actually, the mobile body supervisor machine 4) and the mobile body guardian (actually the mobile body guard machine 5), and various mobile bodies (mobile body groups) The mobile object supervisor (mobile object supervisor group) and various mobile object guardians (mobile object guardian group) are shown on the screen of the supervisor machine monitor. A mobile supervisor (one of the mobile supervisor groups) is in need of monitoring (one of the mobile groups) and a mobile guard (of the mobile guardians group). 1 or 2 or more mobile object guardians) is displayed so that it can be arbitrarily selected.

  FIG. 22 is a diagram showing another example of display on the supervisor machine monitor 42 in the present embodiment. In FIG. 22, the horizontal arrows indicate the flow of data (mainly confirmation information), the vertical lines indicate servers, and the confirmation information and the like is transferred from the mobile unit (actually mobile unit checker 2) to the server (monitoring server 3). ) Is transmitted to the mobile monitoring person (actually, the mobile monitoring machine 4), and when the mobile monitoring person selects a student as the moving object, the mobile remote monitoring system of the present invention (hereinafter, in this embodiment) This shows an example in which this system is abbreviated as an attendance confirmation system. FIG. 21 on the supervisor machine monitor 42 is switched to FIG.

  Depending on the processing method of this system, if there is one monitoring server in this system, various guardians / guardian groups (mobile guardian groups; for example, multiple guards) targeting various mobile bodies (mobile body groups) Business that can be developed through participation, such as companies, crime prevention associations, crime prevention volunteers, pet detectives, etc.) can be incorporated into this system, and a comprehensive mobile remote monitoring system can be built with a single monitoring system. A model can be provided (see FIG. 21). In addition, if the moving body monitor is a school, kindergarten, cram school, or the moving body guard is a security guard (security company), a crime prevention association, a crime prevention volunteer, a pet detective, etc. It can be an agent that provides this system, and can provide a business model for business development by making it an agent that can be used by many mobile observers (see FIG. 21). In addition, since the mobile body supervisor (one of the mobile body supervisor groups) can arbitrarily select the mobile body guard (one or more mobile body guardians in the mobile body guardian group) It becomes a matching system between the body watcher group and the mobile body guardian group, and can provide a business model capable of smooth business development by business development by matching (see FIG. 21).

  Furthermore, the processing method of the present system can provide a business model that facilitates applied business development, such as applying the present system to develop an attendance confirmation system (see FIGS. 21 and 22).

DESCRIPTION OF SYMBOLS 1 Fixed machine 11 Short-distance wireless transmission part 2 Mobile body confirmation machine 21 Short-distance wireless reception part 22 GPS reception part 23 Mobile communication part 24 Confirmation machine control part 3 Monitoring server 31 Mobile communication part 32 Server internet line IF part 33 Server control unit 4 Mobile unit monitor 41 Monitor unit Internet line IF unit 42 Monitor unit monitor unit 43 User IF unit 44 Monitor unit control unit 5 Mobile unit guard unit 51 Parent unit Internet line IF unit 52 Parent Machine monitor unit 53 Parental control unit

According to the processing method in the mobile remote monitoring system of the present invention , when the mobile object confirmation device carried by the mobile object exceeds a certain area, the mobile object position information and the like are remote from the mobile object confirmation device. The mobile remote monitoring system includes a stationary machine, the mobile body confirmation machine, a monitoring server, a mobile body observer machine, and a mobile body guardian machine. Includes a short-range wireless transmission unit, and the mobile object confirmation device includes a short-range wireless reception unit, a GPS reception unit, a mobile communication unit, the short-range wireless reception unit, the GPS reception unit, and the mobile communication unit. And a server control unit for controlling the mobile communication unit and the server Internet line IF unit, and a server control unit for controlling the mobile communication unit and the server Internet line IF unit. The The mobile monitoring device includes a monitoring device Internet line IF unit, a monitoring device monitoring unit, a user IF unit, the monitoring device Internet line IF unit, the monitoring device monitoring unit, and the user IF unit. A guardian machine control unit for controlling the mobile body guardian machine, the guardian machine internet line IF unit, the guardian machine monitor unit, the guardian machine internet line IF unit, and the guardian machine monitor unit. A guardian machine control unit that controls the at least one short-range radio reception unit that receives at least one short-range radio from the one or two or more of the fixed devices by the confirmation-machine control unit of the mobile body check machine. While receiving, the GPS receiving unit is stopped and confirmation information is transmitted from the mobile communication unit at a predetermined interval. When not receiving, the GPS receiving unit is activated and the GPS signal is transmitted. The mobile body position information obtained by transmitting from the mobile communication section and receiving the GPS signal from the mobile communication section by the server control section of the monitoring server is alerted based on a preset alert criterion. When it is determined that the state is present, the mobile body location information is transmitted from the server Internet line IF unit to the mobile body supervisor machine and / or the mobile body guard machine based on a preset transmission target standard. And the monitor information of the mobile unit received from the monitor unit Internet line IF unit based on the transmission target criteria is displayed on the monitor unit of the monitor by the monitor unit of the mobile unit monitor The mobile body location information received from the guardian machine Internet line IF unit by the guardian machine control unit of the mobile body guardian machine Displaying the alert criteria and the transmission target criteria input from the user IF unit by the supervisor control unit of the mobile monitoring device and displaying them on the guardian device monitor unit The alert criterion received from the server Internet line IF unit by the server control unit of the monitoring server, and the transmission target criterion is set in the supervisor machine control unit. And setting the transmission target standard in the server control unit.

Claims (7)

A processing method in a mobile remote monitoring system that transmits position information of the mobile body to a mobile body monitor located at a remote location from the mobile body verification machine when the mobile body checker carried by the mobile body exceeds a certain area. There,
The mobile body remote monitoring system includes a fixed machine, the mobile body confirmation machine, a monitoring server, a mobile body monitor machine, and a mobile body guard machine, and the fixed machine includes a short-range wireless transmission unit, The mobile object confirmation device includes a short-range wireless reception unit, a GPS reception unit, a mobile communication unit, and a confirmation device control unit that controls the short-range wireless reception unit, the GPS reception unit, and the mobile communication unit. The monitoring server includes a mobile communication unit, a server Internet line IF unit, and a server control unit that controls the mobile communication unit and the server Internet line IF unit. Is a supervisor machine that controls the supervisor machine Internet line IF unit, the supervisor machine monitor unit, the user IF unit, the supervisor machine Internet line IF unit, the supervisor machine monitor unit, and the user IF unit. A guardian machine internet line IF unit, a guardian machine monitor unit, a guardian machine internet line IF unit, and a guardian machine monitor unit. Including a machine control unit,
The GPS receiver is stopped while the short-range wireless receiver is receiving at least one or more short-range wireless signals from one or two or more of the fixed devices by the checker controller of the mobile body checker. Transmitting confirmation information from the mobile communication unit at a predetermined interval and starting the GPS reception unit when not receiving the GPS information from the mobile communication unit;
When the server control unit of the monitoring server determines that the mobile body position information obtained by receiving the GPS signal from the mobile communication unit is in an alert state based on a preset alert criterion, Transmitting mobile body position information from the server Internet line IF unit to the mobile body supervisor machine and / or the mobile body guard machine based on a preset transmission target standard;
Displaying the mobile body position information received from the supervisor machine internet line IF unit based on a transmission target standard on the supervisor machine monitor unit by the supervisor machine control unit of the mobile body monitor machine;
Displaying the mobile body position information received from the guardian machine internet line IF unit on the guardian machine monitor unit by the guardian machine control unit of the mobile guardian machine;
A processing method characterized by comprising: The processing method in the mobile remote monitoring system according to claim 1, further comprising:
The alert criteria and the transmission target criteria input from the user IF portion are transmitted from the monitor device internet line IF portion to the monitoring server by the supervisor device control portion of the mobile object supervisory device, and Setting the transmission target standard in the supervisor machine control unit;
The server control unit of the monitoring server sets the alert criteria and the transmission target criteria received from the server Internet line IF unit in the server control unit;
A processing method characterized by comprising: A processing method in the mobile remote monitoring system according to claim 1 or 2,
When transmitting the mobile body location information to each machine by the server control unit of the monitoring server, if the transmission target is only a mobile supervisor machine, the protection request is also inquired, and the protection is performed within a predetermined time. When there is a response to the request inquiry, the mobile body location information is transmitted from the server Internet line IF unit to the mobile guardian machine,
A processing method characterized by comprising: A processing method in the mobile remote monitoring system according to claim 1 or 2, further comprising:
When the server control unit of the monitoring server determines that the confirmation information and the GPS signal are in an abnormal state based on an abnormal criterion, the telephone number of the mobile communication unit is called from the mobile communication unit. Then, abnormal information (outside GPS out-of-alias alert information, power-off alert information) according to when the mobile communication unit receives or does not receive a response to the call within a predetermined time is sent to the server Internet line IF Transmitting to the mobile monitoring device from the mobile unit or / and the mobile protection device,
Displaying the abnormal information received from the supervisor machine internet line IF unit on the supervisor machine monitor unit by the supervisor machine control unit of the mobile body monitor machine;
Displaying the abnormal information received from the guardian machine internet line IF part on the guardian machine monitor part by the guardian machine control part of the mobile guardian machine;
A processing method characterized by comprising: A processing method in the mobile remote monitoring system according to claim 1, further comprising:
The moving body checker includes an acceleration sensor, a temperature sensor, and a pulse sensor that are controlled by the checker controller.
Transmitting the biological information from the acceleration sensor, the temperature sensor, and the pulse sensor from the mobile communication unit at a predetermined interval by the checker control unit of the mobile body checker;
When the server control unit of the monitoring server determines that the biometric information received from the mobile communication unit is in a biometric alert state based on a preset biometric alert criterion, the biometric alert information is stored in the server Internet. Transmitting from the line IF unit to the mobile supervisor machine and / or the mobile guard machine;
Displaying the biometric alert information received from the supervisor machine Internet line IF unit on the supervisor machine monitor unit by the supervisor machine control unit of the mobile body monitor machine;
Displaying the biometric alert information received from the guardian machine internet line IF unit on the guardian machine monitor unit by the guardian machine control unit of the mobile guardian machine;
A processing method characterized by comprising: A processing method in the mobile remote monitoring system according to claim 1, further comprising:
Transmitting the biometric alert reference input from the user IF unit to the monitoring server from the monitor unit Internet line IF unit by the monitor unit control unit of the mobile monitoring unit;
Setting the biometric alert reference received from the server Internet line IF unit in the server control unit by the server control unit of the monitoring server;
A processing method characterized by comprising:   A business model according to a processing method in the mobile remote monitoring system according to claim 1.

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