JP6501169B1 - Processing method and business model of mobile remote monitoring system using GPS - Google Patents

Abstract

The present invention provides a processing method and business model of a mobile remote monitoring system that can be deployed to various objects. A mobile unit remote monitoring system for transmitting position information and the like of the mobile unit from the mobile unit to a mobile monitor at a remote position when the mobile unit carried by the mobile unit exceeds a predetermined area. And one or more fixed machines, the mobile object checker, a monitoring server, a mobile surveillance device and a mobile guardian machine. [Selected figure] Figure 1

Description

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

  As a mobile remote monitoring system using GPS, short-range wireless communication and GPS signal reception are combined, and depending on the conditions, the GPS signal reception is turned ON / OFF, etc. to extend the battery of the equipment carried by the mobile. It is assumed that it can withstand actual use (see, for example, Patent Document 1 and Patent Document 2).

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

  However, in the prior art, mobile observers (e.g., relatives and parents of teachers, teachers, schools, kindergartens, schools, kindergartens, owners, owners, etc. are defined as those who should monitor mobiles). Depending on the target of the moving object (for example, an old man, a child, a student, a pet, a car, etc.) or individuality, the condition of the alert such as when the moving object wants to obtain alert information can not be arbitrarily set. Mobile body guardians (for example, security guards, crime prevention association, crime prevention volunteer, pet detectives, etc.) other than mobile body watchers, and upon request from mobile body watchers, protect mobile bodies instead of mobile watchers And can not be specified arbitrarily, and the range of use of the mobile remote monitoring system is narrow.

In the processing method in the mobile remote monitoring system according to the present invention, when the mobile confirmation device carried by the mobile exceeds a predetermined area, the mobile is located at a remote position from the mobile confirmation device with the position information and the like of the mobile. A processing method for communicating to a supervisor, wherein the mobile remote monitoring system includes a fixed machine, the mobile confirmation machine, a monitoring server, a mobile supervisor machine, and a mobile guardian machine, and the fixed machine Includes a short distance wireless transmission unit, and the mobile identification device includes a short distance wireless reception unit, a GPS reception unit, a mobile communication unit, the short distance wireless reception unit, the GPS reception unit, and the mobile communication unit. And a server control unit for controlling the mobile communication unit, the server Internet connection IF unit, and the mobile communication unit and the server Internet connection IF unit. The In the mobile monitoring device, the monitoring device Internet line IF unit, the monitoring person device monitoring unit, the user IF unit, the monitoring person device Internet line IF unit, the monitoring person device monitoring unit, and the user IF portion The mobile unit protector unit, and the mobile unit protector unit comprises a guardian unit internet line IF unit and a guardian unit monitor unit, the guardian unit internet line IF unit and the guardian unit monitor unit And at least one short-range wireless communication from one or more of the fixed devices by the confirmation-device control unit of the mobile object confirmation device. While receiving, the GPS receiving unit is stopped and confirmation information is transmitted from the mobile communication unit at a predetermined interval, and when not received, the GPS receiving unit is activated to transmit the GPS signal The mobile object position information obtained by transmitting from the mobile communication unit and receiving the GPS signal from the mobile communication unit by the server control unit of the monitoring server is alerted based on a preset alert standard. When it is determined that the state is, the mobile body position information is transmitted from the server internet circuit IF unit to the mobile body surveillance person or the mobile guardian machine based on a preset transmission target standard. And displaying the mobile object position information received from the supervisor terminal Internet line IF unit based on a transmission target by the supervisor unit control unit of the mobile supervisor unit on the monitor unit monitor unit. And said mobile device position information received from said guardian device Internet line IF unit by said The alert reference and the transmission target reference input from the user IF unit by the monitor unit control unit of the mobile unit monitor unit, displayed on the guardian unit monitor unit, and the monitor target unit Internet circuit IF Transmitting to the monitoring server from the storage unit, and setting the transmission target reference in the monitoring unit control unit; and the alert reference received from the server Internet connection IF unit by the server control unit of the monitoring server And setting the transmission target criteria in the server control unit.

  According to the present invention as described above, the condition setting of the alert such as when the mobile object wants to obtain alert information according to the target of the mobile object (for example, an old man, a child, a student, a pet, a car, etc.) and individuality Mobile watchers (eg relatives and parents of teachers, teachers, schools, kindergartens, kindergartens, owners, owners, etc.) can optionally do it, and mobile watchers may for example It is possible to optionally designate a mobile body protector, such as being able to select from a crime prevention association, a crime prevention volunteer, or a pet detective, and it is possible to provide a processing method of a mobile body remote monitoring system having a wider range than ever before.

  Further, according to the present invention as described above, the mobile body surveillance person is a teacher by the student carrying the mobile body confirmation device, the monitoring server receiving the confirmation information and transmitting it to the mobile state surveillance person machine, It can also be provided as a processing method of attendance check system in the case of school, kindergarten, school, etc.

  Furthermore, according to the processing method of the mobile remote monitoring system (hereinafter abbreviated as the present system in the present section) of the present invention, if there is one above-mentioned monitoring server in the present system, various target for various mobiles. Parents / guardian groups (for example, multiple security 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 using a single monitoring server of this system. Can provide a business model that can be expanded. In addition, when the mobile body monitor is a school, kindergarten, school, etc., or the mobile body protector is a security guard (security company), a crime prevention association, a crime prevention volunteer, a pet detective, etc. It can also be an agent that provides this system, and it can provide a business model that can be developed into a business that can be used by many mobile observers. Also, by displaying various mobile guardians on one screen of the monitor unit monitor unit so that the mobile monitor can arbitrarily select one or more mobile guardians, It becomes a matching system between mobile observers and mobile parents and can provide a business model that enables smooth business development.

FIG. 1 is a block diagram showing the overall configuration of a mobile unit remote monitoring system according to a first embodiment. FIG. 5 is a flowchart showing a processing algorithm of the mobile object confirmation device in the first embodiment. The flowchart which shows the processing algorithm of the surveillance server in a 1st Example. 5 is a flowchart showing a processing algorithm of the mobile surveillance terminal in the first embodiment. The flowchart which shows the processing algorithm of the mobile guardian machine in 1st Example. Flowchart 1 showing the processing algorithm of the mobile surveillance device at the time of each reference input in the first embodiment. Flowchart 2 showing the processing algorithm of the mobile surveillance device at the time of each reference input in the first embodiment. 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 surveillance server in 2nd Example. The flowchart which shows the processing algorithm of the mobile monitoring machine in 2nd Example. The flowchart which shows the processing algorithm of the mobile guardian machine in 2nd Example. The flowchart which shows the processing algorithm of the surveillance server in 3rd Example. The flowchart which shows the processing algorithm of the mobile monitoring machine in 3rd Example. The flowchart which shows the processing algorithm of the mobile guardian machine in 3rd Example. FIG. 14 is a flowchart showing the processing algorithm of the mobile object confirming device in the fourth embodiment. The flowchart which shows the processing algorithm of the surveillance server in a 4th Example. The flowchart which shows the processing algorithm of the mobile monitoring machine in the 4th example. The flowchart which shows the processing algorithm of the mobile guardian machine in the 4th example. The flowchart which shows the processing algorithm of the mobile body supervisory body at the time of each reference 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 supervisor's machine monitor part in a 5th Example. The figure which shows another example of the display of the supervisor's machine monitor part in a 5th Example.

  Hereinafter, an embodiment of a processing method of a mobile unit remote monitoring system of the present invention will be described with reference to the drawings.

  In the present invention, the moving body is an organic substance which can be moved by its own intention such as a person (for example, an elderly person, a mentally ill person, a child, a student, etc.) or a pet (for example, a domestic dog or a domestic cat). For example, it is defined as an object that can be moved by human control, such as a car or a motorbike, and an inorganic material that can be moved by human hands, such as valuables and a suitcase. The near field wireless communication is defined as, for example, a near field wireless communication wireless system having a reach distance of about 1 meter to 10 meters such as Bluetooth (registered trademark). A mobile body verification machine is defined as a communication device (for example, a tag, a dedicated machine, a smart phone, etc.) which a mobile body is worn or carried by a necklace, a bracelet, a waist belt or the like. A dedicated device is defined as a communication device made to achieve the mobile remote surveillance system of the present invention. The mobile surveillance device is defined as a communication device (for example, a personal computer, a smart phone, a dedicated device) possessed as usable or visible by the mobile surveillance person. A mobile guardian machine is defined as a communication device (for example, a personal computer, a smart phone, a dedicated machine) possessed by the mobile guardian as usable or visible. The confirmation information is information that is transmitted from the mobile confirmation device to the monitoring server at predetermined intervals and that indicates that the mobile is in the specified area, and includes, for example, unique information of the mobile confirmation device, etc. Define as The alert state is defined as the state in which the mobile is out of the defined area or in a certain state. The alert reference is defined as a reference for determining from the GPS signal that the alert state is present, and includes an element of time, an element of distance, and the like. The transmission target standard is defined as a reference for determining a transmission target such as mobile body position information and a transmission method, a display method on a target device, and the like. The abnormal state is defined as an abnormal state of the mobile identification device and a state not obtained when it is necessary to obtain a GPS signal. The abnormal reference is defined as a reference for judging the abnormal state from the confirmation information and the reception state of the GPS signal. The biological sensor is defined to include an acceleration sensor indicating that the living body has suddenly fallen 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 the biological danger state of the mobile body. The biometric alert standard is defined as a standard for determining the above-mentioned biological danger state from the value of one or more pieces of biometric information of the mobile identification device.

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

In FIG. 1, the mobile remote monitoring system according to the present invention comprises one or more fixed machines 1, a mobile check 2, a monitoring server 3, a mobile monitor 4, and a mobile protector 5. .
Furthermore, the fixed machine 1 is configured by the short distance wireless transmission unit 11, and the mobile object confirmation device 2 is short distance wireless reception unit 21, GPS reception unit 22, mobile communication unit 23, short distance wireless reception unit 21 and GPS reception The monitoring server 3 includes a mobile communication unit 31, a server Internet connection IF unit 32, a mobile communication unit 31, and a server Internet connection. The mobile monitoring device 4 comprises a monitoring device Internet connection IF unit 41, a monitoring device monitoring unit 42, a user IF unit 43, and a monitoring device Internet connection IF. The mobile terminal protector unit 44 comprises a monitoring unit 42, the monitoring unit 42, the monitoring unit 42, and the monitoring unit 42 for controlling 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 the present embodiment, the fixed device 1 is a defined area of a mobile (for example, when the mobile is a person or a pet, an area of a normal activity including a site of a house or a site of a house or an area of a classroom or a school). Fixed in the center of a parking lot or house site in the case of a car or a motorbike, in the premises of a house or a hotel room in the case of valuables, etc., or around one or more prescribed areas. Or shall be kept.

  In the present embodiment, all or part of the alert criteria and the transmission target criteria are set in the server control unit 33 of the monitoring server 3 and the monitor control unit 44 of the mobile monitor 4. 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, and at any time, the mobile observer can optionally or the guidance of the provider of this system, etc. Thus, it is assumed that the mobile body surveillance person can input and set from the user IF unit 43.

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

  In the present embodiment, the parameter of the transmission target standard is mobile protector position information indicating the unique information of the mobile protector and possessed by the mobile protector selected according to the target of the mobile, mobile position Transmission target information (in this information, a mobile surveillance person machine is a surveillance person machine, a mobile body guardian machine The same applies to a guardian device (the same applies hereinafter), a means (e.g., e-mail, SNS (SocialNetworking Service), etc.) for transmitting mobile location information etc. to the mobile surveillance device 4 when the transmission target includes a surveillance aircraft A method of displaying on the monitoring person machine monitoring unit 42 the monitoring person machine transmission method information to be shown, mobile position information when the transmission target includes the monitoring person machine, etc. (for example, when the mobile monitoring person machine 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 the processing algorithm of the mobile remote monitoring system in the first embodiment. Each of the units 2 to 5 (hereinafter referred to as each unit) has a control unit for each unit, and the control unit of each unit controls each unit, so that each unit control unit has an individual processing algorithm. 2 shows the moving object confirmation unit 2, FIG. 3 shows the monitoring server 3, FIG. 4 shows the moving object monitor unit 4, FIG. 5 shows the moving object protector unit 5, and FIGS. FIG. 8 is a flow chart showing the processing algorithm of the monitoring server 3 at each reference input. Each flowchart will be described below.

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

The confirmation device control unit 24 of the mobile object confirmation device 2 transmits the near-field wireless signal transmitted from the near-field wireless transmission unit 11 of the one or more stationary devices 1 to the stationary device where the near-field wireless reception unit 21 has one or more While it is confirmed that it is received from 1, the GPS reception unit 22 is stopped, and the reception information of the short-distance wireless is used as the confirmation information from the mobile communication unit 23 at an interval of the confirmation information interval (fixed value). When the confirmation device control unit 24 determines that the short distance wireless signal is not continuously received from the fixed unit 1 or more for the GPS activation time (fixed value), the GPS receiving unit 22 is activated. The mobile communication unit 23 transmits the GPS signal of the GPS receiving unit 22.
FIG. 3 is a flowchart showing the processing algorithm of the server control unit 33 in the monitoring server 3.

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

  When the server control unit 33 of the monitoring server 3 determines that the GPS signal has been 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 When it is determined that the GPS signal is continuously received during the alert activation time set in the server control unit 33 when the time includes time, or / and when the alert reference information includes a distance, the mobile object position When it is determined that the information is 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 does not include time or distance. Immediately, alert information from the server internet connection IF unit 32 (information indicating that the mobile is in the alert state; the same applies hereinafter) and When the mobile unit position information is included in the transmission target information set in the server control unit 33, the monitor unit is set in the server control unit 33 and the monitor unit control unit 44 of the mobile monitoring unit 4 It is transmitted to the mobile surveillance device 4 by the method selected by the device transmission method information, and when the transmission target information includes the guardian's device, it is transmitted to the mobile protector 5.

  FIG. 4 is a flow chart showing the processing algorithm of the supervisor control unit 44 in the mobile surveillance device 4.

  The surveillance operator control unit 44 of the mobile surveillance device 4 receives the alert information and the mobile location information from the surveillance station Internet line IF unit 41 according to the method selected by the surveillance station transmission method information. If it is determined that the above, the alert information and the mobile object position information are displayed on the monitor unit 42 by the method selected by the monitor unit display method information set in the monitor control unit 44.

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

  If the guardian device control unit 53 of the mobile object guardian device 5 determines that the alert information and the mobile object position information have been received from the guardian person's Internet line IF unit 51, the guardian device monitoring portion 52 The alert information and the mobile object position information are displayed.

  FIG. 6 and FIG. 7 are flowcharts showing the processing algorithm of the surveillance user machine control unit 44 in the mobile surveillance device 4 at the time of each reference input.

  The surveillance vehicle control unit 44 of the mobile surveillance device 4 receives the mobile body guardian information, the alert reference information, and the alert activation time or the alert startup information input from the user IF unit 43 or And, the mobile terminal reference position, the alert activation distance, and the transmission target information are transmitted from the monitor terminal unit Internet line IF unit 41 to the monitoring server 3 (FIG. 6).

  In addition, the supervisor machine control unit 44 of the mobile body surveillance person machine 4 sends the observer machine transmission method information and the supervisor machine display method information input from the user IF unit 43 to the supervisor machine control unit 44. It sets and transmits only the said monitoring person machine transmission method information to the monitoring server 3 from the monitoring person machine internet circuit | network IF part 41 (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 is configured to transmit the mobile object protector information, the alert reference information, and the alert activation time or / and based on the alert reference information, transmitted from the mobile monitor 4. When it is determined that the server Internet connection IF unit 32 receives the mobile body reference position, the alert activation distance, the transmission target information, and the monitoring person machine transmission method information, the mobile body guardian information and Server control of the alert reference information, the alert activation time or the mobile reference position based on the alert reference information, the alert activation distance, the transmission target information, and the supervisor terminal transmission method information Set in section 33.

  According to such a first embodiment, the condition setting of the alert such as when the mobile wants to obtain alert information according to the target of the mobile (for example, an old man, a child, a student, a pet, a car, etc.) and individuality Mobile watchers (eg relatives and parents of teachers, teachers, schools, kindergartens, kindergartens, owners, owners, etc.) can optionally do it, and mobile watchers may for example It is possible to optionally designate a mobile body protector, such as being able to select from a crime prevention association, a crime prevention volunteer, or a pet detective, and it is possible to provide a processing method of a mobile body remote monitoring system having a wider range than ever before.

  In addition, when the student carries the moving object checker 2 and the monitoring server 3 receives the confirmation information and transmits the confirmation information to the moving object monitor 4, the case where the moving object monitor is a teacher, a school, a kindergarten, a turf, etc. It can also be provided as a processing method of the attendance confirmation system.

  In the second embodiment, when only the monitor terminal 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 monitor terminal, it is further determined by the mobile monitor. This is an embodiment in which the protection request can be made to the mobile body protector. For example, this embodiment is useful in the case where it is determined that the mobile monitoring person needs urgent based on the mobile position information of the mobile, or when the mobile monitoring person can not protect it.

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

  When the server control unit 33 of the monitoring server 3 of FIG. 3 transmits the alert information and the mobile object position information to the mobile monitoring person machine 4, further monitoring of protection request inquiry information is performed from the server internet connection IF unit 32. It is transmitted to the mobile surveillance terminal 4 by the method selected by the mobile station transmission method information.

  FIG. 10 is a flow chart showing the processing algorithm of the surveillance operator control unit 44 in the mobile surveillance device 4.

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

  FIG. 11 is a flowchart showing the 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 circuit IF unit has received the protection request information from the mobile surveillance terminal 4, the alert information and the mobile object location information are transmitted to the server internet circuit IF. It is transmitted from the unit 32 to the mobile guardian 5.

  In the first embodiment, when the mobile object confirmation device 2 can not catch the GPS signal even if the mobile object is out of the specified area, or when the mobile object confirmation device 2 has run out of battery, the mobile object monitor I can not know.

  The third embodiment, in addition to the first embodiment, shows a method of providing the mobile observer with necessary information in the above case.

  In the present embodiment, it is assumed that the parameter of the abnormal reference comprises the GPS activation time and the GPS non-reception time. The GPS non-reception time is a temporal parameter for determining whether the 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 moving object is out of the defined area and may be out of the GPS area, the moving object confirmation device 2 is out of battery or the power ONOFF switch is the moving object confirmation device 2 The mobile surveillance device 4 is provided with the power-off alert information that is considered to have the possibility of the power-off state in the case of

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

  The server control unit 33 of the monitoring server 3 is that the mobile communication unit 31 has not received the confirmation information for the GPS activation time and has received the GPS signal for the GPS non-reception time (fixed value). If it is determined that the mobile communication unit 31 determines that there is no mobile communication unit 31 in the mobile communication response time (fixed value), the mobile communication unit 31 is called. If it is determined that the response to the call has been received, the out-of-area GPS out-of-service area alert information is determined; if it is determined that the response has not been received during the mobile communication response time, the power OFF alert information; Based on the transmission target information, the IF unit 32 transmits the information to the mobile surveillance device 4 and / or the mobile guardian 5.

  FIG. 13 is a flow chart showing the processing algorithm of the surveillance operator control unit 44 in the mobile surveillance device 4.

  If the supervisor control unit 44 of the mobile surveillance unit 4 determines that the surveillance unit Internet line IF unit 41 has received the out-of-area GPS out-of-area alert information or the power-off alert information, the monitor unit 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 flow chart showing the processing algorithm of the guardian control unit 53 in the mobile protector 5.

  If the guardian device control unit 53 of the mobile object guardian device 5 determines that the guardian device Internet line IF unit 51 receives the out-of-area GPS out-of-area alert information or the power-off alert information, the guardian device monitor The section 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 monitoring biological information of a mobile unit in the first to third embodiments. For that 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 control unit 24.

  In the present embodiment, the living body alert standard is set in the server control unit 33 of the monitoring server 3, and each standard value (such as a recommended value of a provider of the mobile remote monitoring system according to the present invention) is in advance. It is assumed that the mobile monitor can be input and set from the user IF unit 43 at any time, at any time, under the guidance of the provider of the present system, or the like by the mobile monitor.

  In the present embodiment, the parameters of the living body alert reference include living body alert reference information indicating whether the living body alert reference is to be acceleration and / or temperature or / and pulse, danger acceleration when the living body alert reference information includes acceleration, The dangerous temperature when the temperature is included in the biological alert reference information, and the dangerous pulse when the biological alert reference information includes a pulse.

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

  The checking machine control unit 24 of the moving body checking machine 2 detects the acceleration information from the acceleration sensor, the temperature information from the temperature sensor, and the pulse information from the pulse sensor at intervals of a biological information interval (fixed value). Send from

  FIG. 16 is a flowchart showing the 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 biological alert reference information set in the server control unit 33 is accelerated. When 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 temperature is included in the biological alert reference information. If it is determined that the danger temperature is exceeded, and if the biological alert reference information includes a pulse, if it is determined that the pulse information exceeds the danger pulse set in the server control unit 33, Based on the transmission target information from the server internet connection IF unit 32, the living body alert information 4 or / and the moving body monitor And transmits it to the Mamorusha machine 5.

  FIG. 17 is a flow chart showing the processing algorithm of the surveillance operator control unit 44 in the mobile surveillance device 4.

  If it is determined that the surveillance device control unit 44 of the mobile surveillance device 4 has received the biological alert information from the surveillance device Internet line IF unit 41, the surveillance device machine monitoring unit 42 displays the biological alert information. Display.

  FIG. 18 is a flow chart showing the processing algorithm of the guardian control unit 53 in the mobile protector 5.

  If the guardian machine control unit 53 of the mobile protector machine 5 determines that the biological alert information has been received from the guardian machine internet connection IF unit 51, the danger alert information is sent to the guardian machine monitoring unit 52. Display.

  FIG. 19 is a flow chart showing the processing algorithm of the supervisor control unit 44 in the mobile surveillance device 4 at the time of each reference input.

  The monitoring device control unit 44 of the mobile monitoring device 4 receives the vital alert reference information input from the user IF unit 43, the dangerous speed based on the vital alert reference information, the dangerous temperature, the dangerous pulse, and the like. Is transmitted from the monitor terminal Internet line IF unit 41 to the monitoring server 3.

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

  The server control unit 33 of the monitoring server 3 is a server that transmits the vital alert reference information, the dangerous speed, the dangerous temperature, and the dangerous pulse based on the vital alert reference information, which are transmitted from the mobile supervisor 4. The control unit 33 is set.

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

  FIG. 21 is a view showing an example of the display of the monitor of the monitor terminal 42 in the present embodiment. In FIG. 21, arrows in the horizontal direction indicate the flow of data (mainly position information), the vertical lines indicate servers, and the position information etc. from the mobile (in fact, the mobile identification 2) to the server (monitoring server 3) ) Are transmitted to the mobile observer (actually, the mobile observer 4) and the mobile guardian (actually, the mobile protector 5), and for various mobiles (mobile groups), An example is shown in which mobile observers (mobile observer group) and various mobile guardians (mobile guardian group) are displayed on one screen of the monitor of the observer terminal. A mobile watcher (one of a mobile watcher group) is in need of a mobile watcher (one of a mobile watcher group) and a mobile watcher (a mobile watcher group) It indicates that one or more mobile guardians are displayed for optional selection.

  FIG. 22 is a view showing another example of the display of the monitor terminal monitor 42 in the present embodiment. In FIG. 22, arrows in the horizontal direction indicate the flow of data (mainly confirmation information), the vertical lines indicate servers, and the confirmation information etc. from the mobile unit (actually, the mobile unit 2) to the server (monitoring server 3) The mobile remote monitoring system according to the present invention (hereinafter referred to as “this embodiment”) is transmitted to the mobile monitor (actually, the mobile monitor 4) via the) and the mobile monitor selects a student as the mobile. An example of using this system (abbreviated as "the system") as an attendance confirmation system is shown. 21 on the supervisor's machine monitor 42 switches to 22.

  According to 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 mobiles (mobile groups) A business that can be developed by participation of business, including a company, a crime prevention association, a crime prevention volunteer, a pet detective, etc.) into this system, and a comprehensive mobile remote surveillance system can be built and business can be developed by one surveillance server of this system. A model can be provided (see FIG. 21). In addition, when the mobile body monitor is a school, kindergarten, school, etc., or the mobile body protector is a security guard (security company), a crime prevention association, a crime prevention volunteer, a pet detective, etc. It can also be an agent that provides this system, and it can provide a business model of business development by agentization, such as being able to expand the business in such a way that it can be used by many mobile observers (see FIG. 21). In addition, since the mobile observer (one of the mobile observer groups) can arbitrarily select the mobile protector (one or more of the mobile protector groups), the mobile It becomes a matching system between the body watcher group and the mobile protector 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 can be easily applied to business development, such as application of the present system and development into a attendance confirmation system (see FIGS. 21 and 22).

Reference Signs List 1 fixed machine 11 short distance wireless transmission unit 2 mobile object verification device 21 short distance wireless reception unit 22 GPS reception unit 23 mobile communication unit 24 confirmation unit control unit 3 monitoring server 31 to mobile communication unit 32 server internet circuit IF unit 33 Server control unit 4 Mobile body monitoring person machine 41 Supervisory person machine Internet line IF portion 42 Supervisory person machine monitoring portion 43 User IF portion 44 Supervisory machine control portion 5 Mobile body guardian machine 51 Guardian body Internet line IF portion 52 Guardian Aircraft monitor 53 Parental aircraft controller

Claims (4)

A processing method in a mobile remote monitoring system for transmitting position information and the like of the mobile from the mobile confirmation to a mobile supervisor at a remote position when the mobile confirmation carried by the mobile exceeds a predetermined area. There,
The mobile remote monitoring system includes a fixed machine, the mobile check device, a monitoring server, a mobile monitor device, and a mobile protector device, and the fixed device includes a short distance wireless transmission unit. The mobile confirmation device includes a short distance wireless reception unit, a GPS reception unit, a mobile communication unit, and a confirmation unit control unit that controls the short distance wireless reception unit, the GPS reception unit, and the mobile communication unit. The monitoring server includes a mobile communication unit, a server internet circuit IF unit, and a server control unit for controlling the mobile communication unit and the server internet circuit IF unit, and The monitor device controls the monitor terminal Internet line IF unit, the monitor terminal device monitor unit, the user IF unit, the monitor terminal Internet line IF unit, the monitor terminal device monitor unit, and the user IF unit And a control unit for controlling the guardian body Internet circuit IF unit and the guardian device monitor unit, the guardian device Internet circuit IF unit and the guardian device monitor unit. Machine control unit, and
While the near-field wireless receiving unit is receiving at least one near-field wireless communication from one or more of the fixed devices, the confirmation machine control unit of the mobile object validating machine stops the GPS receiving unit Sending confirmation information from the mobile communication unit at a predetermined interval, and activating the GPS receiving unit and sending a GPS signal from the mobile communication unit when not receiving the confirmation information;
When it is determined that the mobile body position information obtained by receiving the GPS signal from the mobile communication unit by the server control unit of the monitoring server is in an alert state based on a preset alert standard. Transmitting mobile location information from the server internet circuit IF unit to the mobile surveillance terminal or / and the mobile guardian based on a preset transmission target standard;
Displaying the mobile body position information received from the supervisor machine Internet line IF unit on the basis of a transmission target standard by the supervisor machine control unit of the mobile body surveillance unit on the supervisor machine monitor unit;
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 unit protector machine;
The monitor standard setter unit of the mobile body monitor standard transmits the alert standard and the transmission target standard input from the user IF section to the monitoring server from the internet link IF section of the monitor standard, and Setting the transmission target criteria in the supervisor control unit;
Setting the alert criteria and the transmission target criteria received from the server internet connection IF unit in the server control unit by the server control unit of the monitoring server;
When transmitting the mobile location information to each device by the server control unit of the monitoring server, if the transmission target is only a mobile surveillance person's aircraft, a request for protection request is made together, and the protection is performed within a predetermined time. Transmitting the mobile location information from the server internet connection IF unit to the mobile guardian in case of response to the request inquiry;
A processing method characterized by comprising. A processing method in a mobile remote monitoring system for transmitting position information and the like of the mobile from the mobile confirmation to a mobile supervisor at a remote position when the mobile confirmation carried by the mobile exceeds a predetermined area. There,
The mobile remote monitoring system includes a fixed machine, the mobile check device, a monitoring server, a mobile monitor device, and a mobile protector device, and the fixed device includes a short distance wireless transmission unit. The mobile confirmation device includes a short distance wireless reception unit, a GPS reception unit, a mobile communication unit, and a confirmation unit control unit that controls the short distance wireless reception unit, the GPS reception unit, and the mobile communication unit. The monitoring server includes a mobile communication unit, a server internet circuit IF unit, and a server control unit for controlling the mobile communication unit and the server internet circuit IF unit, and The monitor device controls the monitor terminal Internet line IF unit, the monitor terminal device monitor unit, the user IF unit, the monitor terminal Internet line IF unit, the monitor terminal device monitor unit, and the user IF unit And a control unit for controlling the guardian body Internet circuit IF unit and the guardian device monitor unit, the guardian device Internet circuit IF unit and the guardian device monitor unit. Machine control unit, and
While the near-field wireless receiving unit is receiving at least one near-field wireless communication from one or more of the fixed devices, the confirmation machine control unit of the mobile object validating machine stops the GPS receiving unit Sending confirmation information from the mobile communication unit at a predetermined interval, and activating the GPS receiving unit and sending a GPS signal from the mobile communication unit when not receiving the confirmation information;
When it is determined that the mobile body position information obtained by receiving the GPS signal from the mobile communication unit by the server control unit of the monitoring server is in an alert state based on a preset alert standard. Transmitting mobile location information from the server internet circuit IF unit to the mobile surveillance terminal or / and the mobile guardian based on a preset transmission target standard;
Displaying the mobile body position information received from the supervisor machine Internet line IF unit on the basis of a transmission target standard by the supervisor machine control unit of the mobile body surveillance unit on the supervisor machine monitor unit;
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 unit protector machine;
The monitor standard setter unit of the mobile body monitor standard transmits the alert standard and the transmission target standard input from the user IF section to the monitoring server from the internet link IF section of the monitor standard, and Setting the transmission target criteria in the supervisor control unit;
Setting the alert criteria and the transmission target criteria received from the server internet connection IF unit in the server control unit by the server control unit of the monitoring server;
When the server control unit of the monitoring server determines that the confirmation information and the GPS signal are abnormal based on the abnormal reference, the mobile communication unit calls the telephone number of the mobile communication unit. After that, abnormal information (outside ARIA GPS out-of-area alert information, power off alert information) according to when the mobile communication unit receives / does not receive a response to the calling within a predetermined time, the server internet line IF Transmitting from the unit to the mobile surveillance terminal or / and the mobile guardian terminal;
Displaying the abnormal information received from the monitor terminal Internet line IF unit on the monitor terminal monitor unit by the monitor terminal control unit of the mobile unit monitor terminal; Displaying the abnormal information received from the guardian device Internet line IF unit on the guardian device monitor unit by the guardian device control unit;
A processing method characterized by comprising. The processing method in the mobile remote monitoring system according to claim 1 or 2 , further comprising:
The moving object confirmation machine includes an acceleration sensor, a temperature sensor, and a pulse sensor controlled by the confirmation machine controller.
Transmitting the biological information from the acceleration sensor, the temperature sensor, and the pulse sensor at predetermined intervals from the mobile communication unit by the confirmation machine control unit of the mobile object confirmation machine;
When the server control unit of the monitoring server determines that the biological information received from the mobile communication unit is a biological alert state based on a preset biological alert standard, the biological alert information is the server Internet Transmitting from the line IF unit to the mobile surveillance terminal or / and the mobile guardian terminal;
Displaying the vital alert information received from the supervisor terminal Internet line IF unit on the supervisor unit monitor unit by the supervisor unit control unit of the mobile unit supervisor unit; Displaying the biological alert information received from the guardian device Internet line IF unit on the guardian device monitor unit by the guardian device control unit;
Transmitting the vital alert standard inputted from the user IF unit by the supervisor unit control unit of the mobile surveillance unit to the monitoring server from the supervisor terminal internet connection IF unit;
Setting the biological alert reference received from the server internet connection IF unit to the server control unit by the server control unit of the monitoring server;
A processing method characterized by comprising. The business model by the processing method in the mobile remote monitoring system according to any one of claims 1 to 3 .

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