JP2009176026A - Monitoring system, server, radio terminal, program, and monitoring method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem that there is no monitoring system capable of property discriminating an erroneous report and a report with low priority. <P>SOLUTION: The monitoring system includes: a state detecting means for detecting the state of a detection object in order to monitor the detection object by detecting the state of the detection object; a determination condition storage means for storing a determination condition corresponding to the state of the detection object which is detected by the state detecting means; and a determining means for determining the state of the detection object, based on the determination condition recorded in the determination condition storage means. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a monitoring system, a monitoring method, a server used for monitoring, a wireless terminal, and a program for detecting a state of a detection target and monitoring the state and the like.

  In recent years, there is a monitoring system that detects a detection target and monitors a position by using wireless technology. In addition, there is a monitoring system that is optimized according to the detection target.

  Patent Documents 1 to 2 are examples of the monitoring system that has performed the optimization.

  In Patent Document 1, a worker who works in an area where there is a high possibility of danger such as a steelworks has a portable wireless terminal (portable machine), and collects position information of the portable wireless terminal in the event of an abnormality. Thus, a monitoring system (a local portable device position display device) that can detect the position of the worker is disclosed. In addition, the portable wireless terminal is provided with a sensor (falling detection unit) that detects the inclination of the portable wireless terminal, and can detect a worker's falling.

  Patent Document 2 discloses a monitoring system (risk management system) used in hospitals. In the monitoring system, doctors, nurses, and patients have portable wireless terminals (ID mouse pendants), and the ID of the portable wireless terminal is used at the time of abnormality or confirmation to manage traffic flow and position. Confirmation is possible.

Japanese Patent No. 3074237 JP 2002-31471 A

  However, there is room for improvement in optimizing the monitoring system according to the detection target.

  For example, in the monitoring system as illustrated, the credibility or priority of information transmitted from the portable wireless terminal cannot be determined.

  Specifically, since the monitoring system reacts immediately according to the detection value of the portable wireless terminal possessed by the detection target, false reports and reports with low priority are constantly being generated. This is because the linked system and personnel operate each time an alarm (notification) is issued to the portable wireless terminal, and a wasteful operation is performed in the case of a false alarm. In addition, when the false alarms continue, the priority of the operation itself for the alarm (notification, notification) is lowered and operated. That is, after confirming the alarm, various operations are performed after confirmation operations by personnel are performed. Furthermore, in a monitoring system or the like that operates day and night, the resources of personnel for confirming alarms are enormous, and the operation for confirming false alarms is a heavy burden. Further, when a large number of alarms are notified from the monitoring target (detection target), the personnel assign the priority order based on the experience of the alarm processing and perform the processing.

  If it demonstrates using patent document 1 thru | or 2, although the monitoring system described in patent document 1 can receive the information which shows the present position and fall state of a portable radio | wireless terminal, it can display on an electronic screen, When the portable wireless terminal is tilted, the monitoring system is immediately notified. This is reported even if the user gets hungry for work or the like, and is also reported when the portable wireless terminal is placed on the desk. In a monitoring system that reports a large number of these false alarms, alarms are often ignored (decrease in priority).

  Further, in the monitoring system described in Patent Document 2, when a call for a patient or the like is notified, the response is determined based on the experience of the person to be monitored or the person in charge of the patient and judgment on the spot. In general, large hospitals are currently notified of many nurse calls. Furthermore, like a serious patient, holding a portable wireless terminal may be a burden on the patient.

  In other words, the monitoring system cannot determine the credibility of the detected value indicating the detected fall state, where the detection target such as a hospital often stands by in a fall state (a lying state). This is because many reports are false reports and low priority reports.

  Further, it is difficult for serious patients, medicines, ampoules, explosives, poisons, measuring instruments, etc. to hold or fix a wireless terminal directly on a detection target, and to reliably monitor the detection target.

  An object of the present invention is to provide a monitoring system capable of determining the credibility and priority of information transmitted from a wireless terminal.

  Another object of the present invention is to provide a monitoring system capable of reliably detecting the state of a detection target.

  The monitoring system of the present invention detects a state of a detection target and monitors the detection target. A state detection unit that detects the state of the detection target and a state of the detection target detected by the state detection unit And a determination condition storage means for storing the determination condition and a determination means for determining the state of the detection target based on the determination condition recorded in the determination condition storage means.

  According to the present invention, it is possible to provide a monitoring system capable of determining the credibility and priority of information transmitted from a wireless terminal.

  Further, according to the present invention, it is possible to provide a monitoring system that can reliably detect the state of the detection target.

  An embodiment of the present invention will be described with reference to FIGS.

  FIG. 1 is a functional block diagram illustrating a monitoring system according to an embodiment.

  Referring to FIG. 1, the monitoring system 1 includes a monitoring server 100 that operates by program control, a position input unit 200 as a state detection unit, a tilt state input unit 300, and a monitoring terminal 400.

  The monitoring server 100 includes a control unit that performs various information processing, a RAM that temporarily stores information, a ROM that stores a basic control program, an input unit that inputs information by a user, an output unit that outputs data and the like, a storage As a device, an HDD, a network control unit for communicating with the Internet or the like via a network, and the like are connected by a bus. The monitoring server 100 is realized as a determination condition storage unit 101, a notification determination unit 102, and a notification unit 103 using hardware resources such as a control unit, a RAM, and an HDD, and a program recorded in the HDD. The HDD stores various programs and data such as an OS (Operating System) and a determination program. The control unit operates based on an instruction from the OS or the determination program, causes the HDD or RAM to function as the determination condition storage unit 101, functions as the notification determination unit 102, and causes the network control unit to function as the notification unit 103. The HDD stores, as the determination condition storage unit 101, a determination condition including a condition for transmitting an alarm and an execution content. Note that the determination condition may be recorded in any format. For example, it may be recorded as a file in the CSV format or may be incorporated in advance in another program. If the control unit of the monitoring server 100 can identify the notification condition, that is sufficient.

  The position input means 200 detects the position of the detection target (monitoring target), and as position information, the detection target identifier of the detection target whose position has been detected, the position identifier of the position where the detection target exists / exists, the position Appearance flags indicating that they have appeared / disappeared are collected and notified to the monitoring server 100. The physical configuration of the position input means 200 may be anything, and there is no particular limitation as long as the position information of the detection target can be detected. The detection target is a thing that is monitored using a monitoring system. For example, it is a human doctor, nurse, patient, or worker. , Poisons, measuring instruments, etc.

  The tilt state input means 300 detects the tilt state of the detection target (monitoring target), and monitors, as the tilt state information, the detection target identifier of the detection target that has detected the change in the tilt state, the tilt state of the detection target, and the like. 100 is notified. The physical configuration of the tilt state input unit 300 may be any type, and there is no particular limitation as long as the tilt state of the detection target can be detected.

  Here, the tilt state information includes the tilt of the detection target, the time after tilting, the time required for tilting, and the like.

  The monitoring terminal 400 is a general information processing terminal. Based on the notification information notified from the monitoring server 100, the monitoring terminal 400 can provide monitoring personnel (monitor, administrator) with images, sounds, sounds, vibrations, and the like. An alarm is notified by either or a combination thereof. As a physical configuration, a personal computer, a monitor, a speaker, a mobile alarm, a mobile terminal such as a mobile phone, or the like may be used.

  In such a configuration, the monitoring system 1 according to the embodiment can determine the credibility and priority of information transmitted from the wireless terminal.

  Next, the operation of the monitoring system 1 according to the first embodiment of the present invention will be described.

  The position input unit 200 notifies (transmits) information such as a detection target identifier, a position identifier, and an appearance flag as detection information to the monitoring server 100 as position information.

  The tilt state input means 300 notifies (transmits) information such as the detection target identifier of the detection target and the tilt state to the monitoring server 100 as the tilt state information.

  When the position information or the tilt state information is notified, the monitoring server 100 scans (searches) the conditions stored in the determination condition storage unit 101 based on the notification determination unit 102, and is notified of the detected detection target. Determines whether or not the condition is satisfied. If the condition is satisfied, the operation described in the execution content is performed.

  When reporting, the monitoring server 100 transmits the notification content to the notification unit 103 based on the notification determination unit 102 and reports to the monitoring terminal 400.

  The monitoring terminal 400 displays the content of the report received from the monitoring server 100 on a display or the like or plays a sound and transmits it to the monitoring staff.

  Next, the overall operation of the monitoring system 1 will be described with reference to the flowcharts of FIGS.

  FIG. 2 is a flowchart illustrating the operation of the monitoring system according to the embodiment.

  The control unit of the monitoring server 100 detects whether the position information from the position information input unit 200 or the tilt state information from the tilt state input unit 300 is input according to the notification determination unit 102 (step A1).

  Based on the notification determination unit 102, the control unit scans the determination condition storage unit 103 and extracts a notification condition that satisfies the condition (step A2).

  The control unit proceeds to the next step if there is a notification condition that satisfies the condition, and ends (returns to the standby state) if there is no notification condition (step A3).

  The control unit executes the execution content of the notification condition and ends (step A4).

  Thus, in this embodiment, since it is configured to determine whether to notify according to the position of the detection target (monitoring target), there is no problem even if the detection target falls. It is possible to make a process of mistaking the fall of the user or lowering the priority.

  Next, a second embodiment of the present invention will be described with reference to FIGS.

  FIG. 3 is a functional block diagram illustrating the monitoring system 2 according to the second embodiment.

  Unlike the monitoring system 1 of the first embodiment, the second embodiment has a configuration in which the notification determination unit 102 is replaced with a notification determination unit 104 and an impact input unit 500 is further added. In addition, the same code | symbol is provided to the same part as 1st Embodiment, and description is abbreviate | omitted.

  Referring to FIG. 3, the monitoring system 2 includes a monitoring server 100 b that operates by program control, a position input unit 200, a tilt state input unit 300, a monitoring terminal 400, and an impact input unit 500. The monitoring server 100b is realized as a determination condition storage unit 101, a notification unit 103, and a notification determination unit 104 using hardware resources such as a control unit, a RAM, and an HDD, and a program recorded in the HDD.

  The impact input means 500 detects the impact received by the detection target (monitoring target), and provides the monitoring server 100 with the detection target identifier of the detection target that detected the impact, the received impact value, and other impact directions as impact information. Notice. The physical configuration of the impact input unit 500 may be any, and there is no particular limitation as long as the impact received by the detection target can be detected.

  In such a configuration, the monitoring system 2 according to the second embodiment can determine the credibility and priority of information transmitted from the wireless terminal.

  Next, the operation of the monitoring system 2 according to the second embodiment will be described.

  The impact input unit 500 notifies (transmits) the detection target identifier of the detected detection target and information such as the impact received by the detection target to the monitoring server 100 as impact information.

  When the position information, the tilt state information, and the impact information are notified, the monitoring server 100b scans (searches) the conditions stored in the determination condition storage unit 101 based on the notification determination unit 104, and is notified of the detection. Determine whether the subject meets the conditions. If the condition is satisfied, the operation described in the execution content is performed.

  When making a notification, the monitoring server 100 b transmits the notification content to the notification unit 103 based on the notification determination unit 104 and notifies the monitoring terminal 400.

  The monitoring terminal 400 displays the content of the report received from the monitoring server 100b on a display or the like or sounds a sound, and transmits it to the monitoring staff.

  Next, the overall operation of the monitoring system 2 will be described with reference to the flowcharts of FIGS.

  FIG. 4 is a flowchart illustrating the operation of the monitoring system 2 according to the second embodiment.

  The control unit of the monitoring server 100b determines whether the position information from the position information input unit 200, the tilt state information from the tilt state input unit 300, and the impact information from the impact input unit 500 have been notified (input) according to the notification determination unit 104. Are detected (step B1).

  Based on the notification determination unit 104, the control unit scans the determination condition storage unit 101 and extracts a notification condition that satisfies the condition (step B2).

  The control unit proceeds to the next step if there is a notification condition that satisfies the condition, and ends (returns to the standby state) if there is no notification condition (step B3).

  The control unit executes the execution contents of the notification condition and ends (step B4).

  Thus, in this embodiment, in addition to the position of the detection target (monitoring target) and the tilted state, it is configured to determine whether or not to notify in accordance with the impact received by the monitoring target. For this reason, even if the detection target is in a position where there is no problem even when the object is toppled, if a shock is received, it is possible to process with a higher priority without misreporting the falling state.

  Next, a third embodiment of the present invention will be described with reference to FIGS.

  FIG. 5 is a functional block diagram illustrating the monitoring system 3 according to the third embodiment.

  Unlike the monitoring system 1 of the first embodiment, the third embodiment has a configuration in which the notification determination unit 102 is replaced with a notification determination unit 105 and a mounting state input unit 600 is added. In addition, the same code | symbol is provided to the same part as 1st Embodiment etc., and description is abbreviate | omitted.

  Referring to FIG. 5, the monitoring system 3 includes a monitoring server 100 c that operates by program control, a position input unit 200, a tilted state input unit 300, a monitoring terminal 400, and a mounting state input unit 600. The monitoring server 100c is realized as a determination condition storage unit 101, a notification unit 103, and a notification determination unit 105 using hardware resources such as a control unit, a RAM, and an HDD, and a program recorded in the HDD.

  The mounting state input unit 600 detects a detection target (monitoring target), and detects, as mounting information, a mounting target identifier of the mounting target on which the detection target is mounted, and detection of a detection target mounted / not mounted on the mounting target. The monitoring server 100 is notified of a target identifier and a mounting flag indicating whether or not a detection target is mounted. There is no particular limitation on the physical configuration of the mounting state input means 600 as long as it can detect whether or not the detection target is mounted on the mounting target. Examples of the physical configuration of the mounting state input unit 600 include a combination of an electronic tag (IC tag) and an electronic tag reader (IC tag reader), a combination of a barcode and a barcode reader, and the like.

  For example, if the detection target is a person, it is an automobile, a wheelchair, a stretcher, a bed, an operating table, etc. If the detection target is an object, a carriage, a carriage, a carriage, etc. It is.

  In such a configuration, the monitoring system 3 according to the third embodiment can detect the state of the detection target and can determine the credibility and priority of information transmitted from the wireless terminal.

  Next, the operation of the monitoring system 2 according to the second embodiment will be described.

  The mounting state input unit 600 notifies (transmits) information such as a mounting target identifier, a detection target identifier, and a mounting flag of the mounting target on which the detection target is mounted to the monitoring server 100 as mounting information.

  The monitoring server 100c scans (searches) the conditions stored in the determination condition storage unit 101 based on the notification determination unit 105 when the position information, the tilt state information, and the mounting information are notified, and the notified detection Determine whether the subject meets the conditions. If the condition is satisfied, the operation described in the execution content is performed.

  When making a notification, the monitoring server 100 c transmits the notification content to the notification unit 103 based on the notification determination unit 105 and notifies the monitoring terminal 400.

  The monitoring terminal 400 displays the content of the report received from the monitoring server 100 on a display or the like or plays a sound and transmits it to the monitoring staff.

  Next, the overall operation of the monitoring system 3 will be described with reference to the flowcharts of FIGS.

  FIG. 6 is a flowchart illustrating the operation of the monitoring system 3 according to the third embodiment.

  The control unit of the monitoring server 100c notifies (inputs) whether the position information from the position information input unit 200, the tilt state information from the tilt state input unit 300, and the mounting information from the mounting state input unit 600 are notified (input). According to this, it detects (step C1).

  Based on the notification determination unit 105, the control unit scans the determination condition storage unit 101 and extracts a notification condition that satisfies the condition (step C2).

  The control unit proceeds to the next step if there is a notification condition that satisfies the condition, and ends (returns to the standby state) if there is no notification condition (step C3).

  The control unit executes the execution contents of the notification condition and ends (step C4).

  Thus, in this embodiment, in addition to the position of the detection target (monitoring target) and the tilted state, it is configured to determine whether to notify according to the mounting state. Even if there is no problem even if the detection target falls down, it is possible to process the fall state without misreporting and by lowering the priority.

  Next, a fourth embodiment of the present invention will be described with reference to FIGS.

  FIG. 7 is a functional block diagram illustrating the monitoring system 4 according to the fourth embodiment.

The fourth embodiment is different from the monitoring system 3 of the third embodiment.
The position input unit 200 is replaced with the position input unit 700, and the position synthesis unit 106 is further added. In addition, the same code | symbol is provided to the same part as 1st thru | or 3rd Embodiment, etc., and description is abbreviate | omitted.

  Referring to FIG. 7, the monitoring system 4 includes a monitoring server 100d that operates by program control, a tilted state input unit 300, a monitoring terminal 400, a mounting state input unit 600, and a position input unit 700. In addition, the monitoring server 100d uses hardware resources such as a control unit, a RAM, and an HDD, and a program such as a position synthesis program recorded in the HDD and the like, using a determination condition storage unit 101, a notification unit 103, a notification determination unit 105, The position synthesizing means 106 is realized. The position input means 700 notifies the monitoring server 100 of the position of the detection target (monitoring target) or information on the position of the mounting target as position information. Information on the position of the mounting target includes information such as the mounting target identifier of the mounting target whose position has been detected, the position identifier of the position where the mounting target exists / exists, and the appearance flag indicating that the position has appeared / has disappeared It is. The physical configuration of the position input unit 700 may be anything, and there is no particular limitation as long as the position information of the detection target and the mounting target can be detected.

  The position synthesizing means 106 is realized by operating a control unit according to a position synthesizing program. The position synthesizing unit 106, upon inputting the position or mounting state of the mounting target, synthesizes the mounting target position as the monitoring target position when the monitoring target is mounted on the mounting target, and sends it to the notification determination unit 105. Notice.

  In such a configuration, the monitoring system 4 according to the fourth embodiment can detect the state of the detection target and can determine the credibility and priority of information transmitted from the wireless terminal.

  Next, the operation of the monitoring system 4 according to the fourth embodiment will be described.

  The position input means 700 notifies (transmits) information such as the detected detection target identifier or mounting target detection target identifier, mounting target identifier, and mounting state to the monitoring server 100 as position information.

  The monitoring server 100d scans (searches) the conditions stored in the determination condition storage unit 101 based on the notification determination unit 105 and the position synthesis unit 106 when the position information, the tilt state information, and the mounting information are notified. Then, it is determined whether the notified detection target satisfies the condition. If the condition is satisfied, the operation described in the execution content is performed.

  When making a notification, the monitoring server 100 b transmits the notification content to the notification unit 103 based on the notification determination unit 105 and notifies the monitoring terminal 400.

  The monitoring terminal 400 displays the content of the report received from the monitoring server 100d on a display or the like or sounds a sound and transmits it to the monitoring staff.

  Next, the overall operation of the monitoring system 4 will be described with reference to FIGS.

  FIG. 8 is a flowchart illustrating the position synthesis operation of the monitoring system 4 according to the fourth embodiment.

  The control unit of the monitoring server 100b notifies whether the position information is input (input) from the position information input unit 700, the tilt state information from the tilt state input unit 300, and the mounting information from the mounting state input unit 600. Detection is performed according to the combining means 106 (step D1).

  The control unit determines whether or not the monitoring target is mounted on the mounting target based on the position synthesizing unit 106. If it is determined that the monitoring target is mounted, the control unit proceeds to the next step. Ends (proceeds to FIG. 9) (step D2).

  Based on the position synthesizing unit 106, the control unit notifies the notification determining unit 105 of the position of the mounting target as the position of the detection target, and ends (proceeds to FIG. 9) (step D3). This means that the position is synthesized by notifying the position information of the mounting target as the position information of the detection target.

  FIG. 9 is a flowchart illustrating the operation of the monitoring system 4 according to the fourth embodiment.

  The control unit of the monitoring server 100d detects whether position information from the position synthesizing unit 106, tilt state information from the tilt state input unit 300, and mounting information from the mounting state input unit 600 are notified (input) according to the notification determining unit 105. (Step E1).

  Based on the notification determination unit 105, the control unit scans the determination condition storage unit 101 and extracts a notification condition that satisfies the condition (step E2).

  The control unit proceeds to the next step when there is a notification condition that satisfies the conditions, and ends (returns to the standby state) when there is no notification condition (step E3).

  The control unit executes the execution contents of the notification condition and ends (step E4).

  In this way, in this embodiment, in addition to the position of the detection target (monitoring target) and the tilted state, the position of the detection target can be synthesized from the position of the mounting target according to the mounting state according to the mounting state. Therefore, it is possible to monitor the position of the detection target with only a simple IC tag or a simple wireless terminal, and the priority of the detection target is lowered without misreporting the detection target. Can be processed.

  Next, the present invention will be described using specific examples with reference to FIGS. The present embodiment makes it possible to detect the position of a patient and a tilted state in a hospital, and to reduce false alarms such as warnings.

  FIG. 10 is a block diagram illustrating the configuration of the embodiment. Referring to FIG. 10, the monitoring system 10 of the present embodiment includes a wireless terminal 1100, location notification terminals 1201, 1202, an access point 1300, a LAN (Local Area Network: LAN) 1400, a monitoring server 1500, a monitoring A terminal 1600.

  The wireless terminal 1100 includes a tilt detection unit 1101 as a tilt state input unit, a position detection unit 1102 as a position input unit, and a transmission unit 1103.

  As the wireless terminal 1100, a mobile phone or a mobile wireless terminal may be used. Note that any sensor may be used as the tilt detection means 1101 of the wireless terminal 1100. Examples of sensors include an acceleration sensor, a tilt detection sensor, a horizontal sensor, or a combination thereof. In the case of using an acceleration sensor, an acceleration sensor that measures particularly a low acceleration up to about 10G is desirable. A biaxial or triaxial acceleration sensor is desirable.

  The monitoring server 1500 includes a reception unit 1501, a wireless terminal attachment target storage unit 1502, a notification determination unit 102, a determination condition storage unit 101, and a notification unit 103.

  The position detection means 1201 and 1202 have a function of transmitting a position identifier, and periodically transmit.

  The access point 1300 connects the wireless terminal 1100 to the LAN 1400.

  The LAN 1400 connects the access point 1300, the monitoring server 1500, and the monitoring terminal 1600 so that they can communicate with each other.

  Each of these means generally operates as follows.

  The wireless terminal 1100 uses the tilt detection unit 1101 to detect the tilt state of the wireless terminal 1100 and sends it to the transmission unit 1103.

  The position detection unit 1102 of the wireless terminal 1100 receives the position identifier notified from the position notification terminal 1202 and sends it to the notification unit 1103.

  The notification unit 1103 notifies the monitoring server 1500 via the access point 1300 and the LAN 1400 of the tilt state notified from the tilt detection unit 1101 or the position identifier and the wireless terminal identifier notified from the position detection unit 1102. .

  When the monitoring server 1500 receives the information notified from the wireless terminal 1100 using the receiving unit 1501, the monitoring server 1500 extracts the wireless terminal identifier from the received information and provides it to the wireless terminal attachment target storage unit 1502. The detected object identifier of the detected object is obtained. Further, the tilt information or the position identifier is extracted from the received information, and notified to the notification determination unit 102 together with the detection target identifier.

  Wireless terminal attachment target storage means 1502 stores a wireless terminal identifier and a detection target identifier of a detection target attached by the wireless terminal as a set. When a wireless terminal identifier is given, the corresponding detection target identifier is returned.

  The determination condition storage unit 101 stores a notification condition including a condition and execution contents.

  The notification determination unit 102 scans the condition stored in the determination condition storage unit 101 when position information or tilt state information is notified, and determines whether the notified detection target satisfies the condition. If the condition is satisfied, the operation described in the execution content is performed. In the case of notification, the notification determination unit 102 notifies the notification unit 103 of the notification content.

  The notification unit 103 notifies the monitoring terminal 400 of the notification content notified from the notification determination unit 102.

  The monitoring terminal 400 displays the notification content notified from the monitoring server 1500 on a display or the like.

  FIG. 11 is a diagram illustrating detection targets. The detection target 1000 carries the wireless terminal 1100 by putting it on the neck, hand, foot, waist or the like.

  FIG. 12 is a diagram illustrating an arrangement example of position notification terminals.

  Position notification terminals will be deployed in each hospital room and corridor. The position notification terminals 1201 to 1211 periodically notify from the room A to the room H and from the hall A to the hall C as position identifiers. By arranging the wireless terminal 1100 in this way, the wireless terminal 1100 can detect the current position wherever it is.

  13, 14, 15, 16, 17, 18, and 19 are diagrams illustrating notification conditions recorded in the determination condition storage unit 101.

  FIG. 13 shows three notification conditions. The number 1 indicates that when the detection target is in the hospital room A, only the position of the detection target is notified, and no notification is made even if a tilted state is input. Similarly, the number 2 indicates that when the patient is in the room B, only the position is notified. The number 3 indicates that when the detection target is neither the room A nor the room B, the position of the detection target and the tilted state are notified.

  In other words, the determination criterion (determination condition) can be changed based on the position information of the detection target depending on the determination condition. In addition, depending on the determination condition, the execution content to be executed after determination can be changed based on the position information of the detection target or the detection target identifier of the detection target. Similarly, it is possible to change the content to be notified or recorded after determination based on the position information of the detection target or the detection target identifier of the detection target depending on the determination condition.

  FIG. 14 shows three notification conditions using priority. The notification determination unit 102 checks the conditions in descending order of priority, executes the execution contents when the conditions are satisfied, and ends. In the example shown in FIG. 14, the conditions are examined in the order of numbers 1, 2, and 3. If the detection target is in room A, the condition of number 1 is satisfied. If the detection target is in room B, the condition of number 2 is satisfied. If the object to be detected is neither room A nor room B, the condition of number 3 is satisfied. In addition, when there are a plurality of conditions having the same priority, all the execution contents may be executed.

  That is, the priority to be determined is defined by the determination condition, and it is possible to determine in descending order of the priority.

  FIG. 15 shows two notification conditions using the location type. FIG. 16 shows the definition of position type, that is, which position identifier belongs to which position type. The notification determination unit 102 refers to the definition of the position type and obtains to which position type the position where the detection target belongs. Further, the notification condition is referenced to check whether the condition corresponding to the position type of the detection target is satisfied, and if it is satisfied, the execution content is executed. If the detection target is in the room A or the room B, the position type is the room, and therefore, the execution content of No. 1 “notify the position of the detection target” is executed.

  That is, it is possible to determine a determination condition (position type) for each predetermined area determined in advance based on the position information of the detection target, and determine according to the determination condition.

  FIG. 17 shows three notification conditions using priority and position type. The notification determination unit 102 refers to the definition of the position type, obtains the position type with the detection target, and then checks the conditions in descending order of priority. If the detection target is in the prohibited entry type, the condition of number 1 is satisfied, and the notification determination unit 102 requests the notification unit 103 to notify an alarm (report or warning) in addition to the position of the detection target. .

  FIG. 18 shows three notification conditions using priority and position type. The notification determination unit 102 refers to the definition of the position type, obtains the position type with the detection target, and then checks the conditions in descending order of priority. In No. 1, when the detection target is in the operating room position type, the person to be operated is acquired from the surgical schedule, and notification is made as to whether or not it matches the detection target.

  FIG. 19 shows an example of a surgical schedule. The operation schedule includes an operation subject identifier, an operation room identifier, an operation start scheduled time, and an operation end scheduled time. The notification determination unit 102 requests the notification unit 103 to acquire the operation target identifier from the operation schedule using the operation room identifier as a key, compares it with the detection target identifier, and notifies the result of whether or not they match.

  Note that the wireless terminal attachment target storage unit 1502 arranged in the monitoring server 1500 in FIG. 10 may be arranged in the wireless terminal 1100 as shown in FIG. In that case, the notification unit 1103 provides the wireless terminal identifier to the wireless terminal attachment target storage unit 1502, obtains the detection target identifier of the detection target to which the wireless terminal is attached, and then uses the detection target identifier instead of the wireless terminal identifier. The monitoring server 1500 is notified via the access point 1300 and the LAN 1400.

  Next, another embodiment will be described with reference to FIGS. 21 to 23 to describe the present invention.

  FIG. 21 is a block diagram showing the configuration of the second embodiment.

  Unlike the monitoring system 10 of the first embodiment, the monitoring system 20 of the second embodiment replaces the notification determination unit 102 provided in the monitoring server with the notification determination unit 104, and further transmits the transmission determination unit provided in the wireless terminal. 1103 is replaced by a transmission determination unit 1104, and an impact detection unit 1105 is further added. The same parts as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.

  Each of these means generally operates as follows.

  The wireless terminal 1100 detects the impact received by the wireless terminal 1100 b using the impact detection unit 1105 and notifies the transmission unit 1104 of the impact. Any sensor may be used as the impact detection means 1105. Examples of sensors include an acceleration sensor, an impact sensor, a drop sensor, or a combination thereof. When an acceleration sensor is used, an acceleration sensor that measures a high acceleration of 8G or more is particularly desirable.

  The wireless terminal 1100 uses the notification unit 1104, the tilt state notified from the tilt detection unit 1101, the position identifier notified from the position detection unit 1102, the impact information notified from the impact detection unit 1105, the wireless terminal identifier, To the monitoring server 1500b via the access point 1300 and the LAN 1400.

  When the position information, the tilted state, or the impact information is notified based on the notification determination unit 104, the monitoring server 1500b scans the conditions stored in the determination condition storage unit 101, and the notified detection target is the condition. Determine whether or not If the condition is satisfied, the operation described in the execution content is performed. In the case of notification, the notification determination unit 104 notifies the notification unit 103 of the notification content.

  22 and 23 are diagrams illustrating examples of notification conditions stored in the determination condition storage unit 101 according to the second embodiment.

  FIG. 22 shows two notification conditions. Number 1 indicates that when the impact detection unit 1105 detects an impact of 8G or more, the position of the detection target, the tilted state, and the impact are notified. Similarly, number 2 indicates that notification is not made (determined not to fall) when the impact is less than 8G.

  FIG. 23 shows six notification conditions using priority. The notification determination unit 104 examines the conditions in descending order of priority, executes the execution contents when the conditions are satisfied, and ends. In the example shown in FIG. 23, the conditions are examined in the order of number 1, number 2, number 3, number 4, number 5, and number 6. If the detection target receives an impact of 10 G or more, the condition of number 1 is satisfied regardless of the position of the detection target. If the detection target is not shocked, is not in the room A, and is in the room B, the condition of number 5 is satisfied. If the detection target is not shocked and neither the room A nor the room B is, the condition of number 6 is satisfied. In addition, when there are a plurality of conditions having the same priority, all the execution contents may be executed.

  Next, still another embodiment will be described with reference to FIGS. 24 to 30 to describe the present invention.

  FIG. 24 is a block diagram showing the configuration of the third embodiment.

  The monitoring system 30 of the third embodiment differs from the monitoring system 10 of the first embodiment in that the notification determination means 102 provided in the monitoring server is replaced by the notification determination means 105, the reception means 1501 is replaced by the reception means 1503, Further, the electronic tag attachment target storage unit 1504 is added. Further, electronic tags (IC tags) 1701 and 1702 and an electronic tag reader (IC tag reader) 1800 are added as a system configuration. The same parts as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.

  When the electronic tags 1701 and 1702 receive a radio wave from the electronic tag reader 1800, they respond with an electronic tag identifier. Note that any electronic tag may be used, as long as the electronic tag electronic tag identifier can be acquired.

  The electronic tag reader 1800 includes response reception means 1801, mounting state determination means 1802, and transmission means 1803.

  The response receiving unit 1801 periodically transmits radio waves and identifies whether or not an electronic tag identifier that is a response from the electronic tag can be received.

  The mounting state determination unit 1802 allows the user of the electronic tag reader to select the loading mode or the unloading mode, and generates mounting state information including the electronic tag identifier of the detected electronic tag.

  The transmission unit 1803 can transmit various information including the mounting state information generated by the mounting state determination unit 1802 via the access point 1300 or the like.

  Each of these means generally operates as follows.

  After loading the electronic tag reader 1800, the loading state determination means 1802 is designated by the user of the electronic tag reader 1800 as a loading mode or a loading / unloading mode. The response receiving unit 1801 periodically transmits radio waves and receives an electronic tag identifier that is a response from the electronic tag. When the response receiving unit 1801 receives the electronic tag identifier, the mounted tag determining unit 1802 notifies the electronic tag identifier that appears. When it is notified to the mounting state determination means 1802 that two electronic tags have appeared sequentially, mounting state information including the first electronic tag identifier that has appeared, the second electronic tag identifier, and the loading mode / unloading mode And requesting notification to the notification means 1803. The notification unit 1803 notifies the monitoring server 1500c of the mounting state information via the access point 1300 and the LAN 1400.

  When the monitoring server 1500c receives the information notified from the wireless terminal 1100 from the receiving unit 1503, the monitoring server 1500c extracts the wireless terminal identifier from the received information and provides it to the wireless terminal attachment target storage unit 1502, where the wireless terminal is attached. A detection target identifier of the detection target is obtained. Furthermore, the monitoring server 1500c extracts the tilt information or the position identifier from the received information, and notifies the notification determination unit 104 as the detection target identifier. When the information notified from the electronic tag reader 1800 is received, the first electronic tag identifier and the second electronic tag identifier that appear from the received information are extracted and provided to the electronic tag attachment target storage unit 1504 to be detected. , And the mounting target identifier. Further, the mode type is extracted from the reception information and notified to the notification determination unit 104 as the mounting state information.

  Using the electronic tag attachment target storage unit 1504, the monitoring server 1500c uses an electronic tag identifier, a type indicating whether the electronic tag attachment target is a detection target or a mounting target, and a detection target to which the electronic tag is attached, or , And the identifiers to be mounted are stored in pairs. When the electronic tag identifier is given, the type indicating whether the attachment target of the electronic tag is the detection target or the mounting target and the detection target attached with the electronic tag or the identifier of the mounting target are returned.

  The notification determination unit 105 scans the condition stored in the determination condition storage unit 101 when the position information, the tilted state, or the mounting information is notified, and determines whether the notified detection target satisfies the condition. To do. If the condition is satisfied, the operation described in the execution content is performed. In the case of notification, the notification determination unit 105 notifies the notification unit 103 of the notification content.

  FIG. 25 is a diagram illustrating an arrangement example of the configuration of the third embodiment.

  The detection target 1000 carries the wireless terminal 1100 by putting it on the neck, hand, foot, waist or the like, and the detection target 1000 carries the electronic tag 1701. The electronic tag 1701 is preferably processed into a wristband type, a ring type, or the like and carried in a shape that does not place a burden on the detection target 1000.

  When the detection target is a person, the mounting target 1900 is a stretcher or a wheelchair, and the electronic tag 1702 is attached to a position where the electronic tag can be read.

  The operator 2000 sets the electronic tag reader 1800 to the loading mode, and then sequentially reads the electronic tags 1701 and 1702 to notify the monitoring server 1500c as loading status information that the detection target 1000 has been loaded on the loading target 1900. it can. In addition, the operator 2000 sets the electronic tag reader 1800 in the unloading mode, and then sequentially reads the electronic tags 1701 and 1702 to indicate that the detection target 1000 is unloaded from the mounting target 1900 as mounting state information. Can be notified.

  26, 27, 28, 29, and 30 are diagrams illustrating notification conditions recorded in the determination condition storage unit 101 according to the third embodiment.

  FIG. 26 shows three notification conditions. No. 1 indicates that when the detection target is mounted on the stretcher A, only the position of the detection target is notified, and no notification is performed even if the tilted state is input. Similarly, the number 2 indicates that only the position is notified when it is mounted on the stretcher B. The number 3 indicates that when the detection target is not mounted on the stretcher A or the stretcher B, the position of the detection target and the tilted state are notified.

  FIG. 27 shows five notification conditions using priority. The notification determination unit 105 checks the conditions in descending order of priority, executes the execution contents when the conditions are satisfied, and ends. In the example shown in FIG. 27, the conditions are examined in the order of number 1, number 2, number 3, number 4, and number 5. If the detection target is in the stretcher A, the condition of number 1 is satisfied. If the detection target is not mounted on the stretcher A, is not in the room A, and is in the room B, the condition of number 4 is satisfied. If the detection target is not mounted on the stretcher A or the wheelchair B and is not in the room A or the room B, the condition of number 5 is satisfied. In addition, when there are a plurality of conditions having the same priority, all the execution contents may be executed.

  FIG. 28 shows two notification conditions using the mounting type. FIG. 29 shows the definition of the mounting type, that is, which mounting target belongs to which mounting type. The notification determination unit 105 refers to the definition of the mounting type and obtains which mounting type the mounting target belongs to. Further, the notification condition is referred to, whether or not the condition corresponding to the mounting type to be mounted is satisfied, and if it is satisfied, the execution content is executed. When the detection target is mounted on a stretcher A, stretcher B, wheelchair, or electric wheelchair, the mounting type of the mounting target is a stretcher, so the execution contents of number 1 and the position of the detection target are notified. Executed.

  FIG. 30 shows three notification conditions using the priority and the installation type. The notification determination unit 105 refers to the definition of the mounting type, obtains the mounting type of the mounting target on which the detection target is mounted, and then checks the conditions in descending order of priority. In the case of No. 1, when the detection target is mounted on the operating table mounting type, the operation target person is acquired from the surgical schedule, and it is notified whether the detection target matches the detection target.

  In addition to those shown in FIG. 25, an electronic tag or an electronic tag reader may be provided.

  FIG. 31 and FIG. 32 are diagrams showing an arrangement example of another configuration of the third embodiment.

  The configuration example of FIG. 31 is different from the configuration example of FIG. 25 in that an electronic tag reader 1800 is installed on the mounting target 1900. When the detection target 1000 is mounted on the mounting target 1900, the electronic tag reader 1800 detects the appearance of the electronic tag 1701 carried by the detection target 1000, whereby the detection target 1000 is mounted on the mounting target 1900. Can be notified to the monitoring server as mounting state information. Further, when the electronic tag reader 1800 detects the disappearance of the electronic tag 1701, the monitoring server 1500 can be notified as the mounting state information that the detection target 1000 has been unloaded from the mounting target 1900.

  32 differs from the configuration example of FIG. 31 in that the detection target 1000 carries the electronic tag reader 1800. When the detection target 1000 is mounted on the mounting target 1900, the electronic tag reader 1800 detects the appearance of the electronic tag 1701 installed on the mounting target 1900, whereby the detection target 1000 is loaded on the mounting target 1900. Can be notified to the monitoring server as mounting state information. Further, when the electronic tag reader 1800 detects the disappearance of the electronic tag 1701, the monitoring server 1500 can be notified as the mounting state information that the detection target 1000 has been unloaded from the mounting target 1900.

  In FIG. 24, the type indicating whether the attachment target of the electronic tag is the detection target or the mounting target recorded in the electronic tag attachment target storage unit 1504 realized in the monitoring server 1500c, and the electronic tag are attached. A pair (combination information) with the detection target or mounting target identifier may be recorded in the electronic tags 1701 and 1702. In this case, when receiving the electronic tag identifier, the response receiving unit 1801 inquires and obtains the attachment type of the electronic tag and the attachment target identifier from the electronic tag whose appearance has been detected, and instead of the electronic tag identifier. The mounting target determination unit 1802 is notified.

  FIG. 33 is a block diagram showing another configuration of the third embodiment. In FIG. 24, the electronic tag attachment target storage means 1504 realized in the monitoring server 1500c may be arranged in the electronic tag reader 1800. In this case, when receiving the electronic tag identifier, the response receiving unit 1801 provides the electronic tag attachment target storage unit 1504 with the electronic tag identifier, obtains the electronic tag attachment target type and the attachment target identifier, The mounting target determination unit 1802 is notified instead of the tag identifier.

  Next, another embodiment will be described with reference to FIGS. 34 to 36 to explain the present invention.

  FIG. 34 is a block diagram showing the configuration of the fourth embodiment.

  The monitoring system 40 of the fourth embodiment differs from the monitoring system 30 of the third embodiment in that the notification determination means 102 provided in the monitoring server is replaced by the notification determination means 105, the reception means 1503 is replaced by the reception means 1505, The wireless terminal attachment target storage unit 1502 is replaced with a wireless terminal attachment target storage unit 1506. Further, the position composition means 106 is added. The same parts as those in the third embodiment are designated by the same reference numerals and the description thereof is omitted.

  Each of these means generally operates as follows.

  When the position synthesizing unit 106 is used to input the position or mounting state of the mounting target, the monitoring server 1500e synthesizes the mounting target position as the detection target position when the detection target is mounted on the mounting target. The notification determination unit 105 is notified.

  When the receiving unit 1505 of the monitoring server 1500e receives the information notified from the wireless terminal 1100, the receiving unit 1505 extracts the wireless terminal identifier from the received information and provides it to the wireless terminal attachment target storage unit 1506, where the wireless terminal is attached. Get the target mounting target identifier. Further, the position identifier is extracted from the received information and notified to the position synthesizing unit 106 together with the detection target identifier. When the information notified from the electronic tag reader 1800 is received, the first electronic tag identifier and the second electronic tag identifier that appear from the received information are extracted and provided to the electronic tag attachment target storage unit 1504 to be detected. , And the mounting target identifier. Further, the mode type is extracted from the received information and notified to the position synthesizing means 106 as mounting state information.

  The wireless terminal attachment target storage unit 1506 stores a wireless terminal identifier and a mounting target identifier to which the wireless terminal is attached as a set. When a wireless terminal identifier is given, the corresponding mounting target identifier is returned.

  FIG. 35 is a diagram illustrating an arrangement example of the configuration of the fourth embodiment.

  As shown in FIG. 35, the detection target 1000 carries the electronic tag 1701 by placing it on the neck, hands, legs, waist or the like. The electronic tag 1701 is preferably processed into a wristband type, a ring type, or the like and carried in a shape that does not place a burden on the detection target 1000.

  An electronic tag 1702 and a wireless terminal 1100 are attached to the mounting target 1900.

  After setting the electronic tag reader 1800 to the loading mode, the worker 2000 sequentially reads the electronic tags 1701 and 1702 to notify the monitoring server 1500e that the detection target 1000 is mounted on the mounting target 1900 as mounting state information. it can. In addition, the operator 2000 sets the electronic tag reader 1800 in the unloading mode, and then sequentially reads the electronic tags 1701 and 1702 to indicate that the detection target 1000 is unloaded from the mounting target 1900 as mounting state information. Can be notified.

  FIG. 36 is a diagram illustrating an arrangement example of another configuration of the fourth embodiment.

  The configuration example of FIG. 36 differs from the configuration example of FIG. 35 in that an electronic tag reader 1800 is installed on the mounting target 1900. When the detection target 1000 is mounted on the mounting target 1900, the electronic tag reader 1800 detects the appearance of the electronic tag 1701 carried by the detection target 1000, whereby the detection target 1000 is loaded on the mounting target 1900. Can be notified to the monitoring server 1500e as mounting state information. Further, when the electronic tag reader 1800 detects the disappearance of the electronic tag 1701, the monitoring server 1500e can be notified as the mounting state information that the detection target 1000 has been unloaded from the mounting target 1900.

  As described above, according to the monitoring system of the present invention, the credibility and priority of information transmitted from a wireless terminal can be determined. In addition, the state of the detection target can be detected with high accuracy.

  The various means are not limited to those illustrated. Various means may be realized using either hardware or software, and any means can be used as long as the means can be realized.

  In addition, the specific configuration of the present invention is not limited to the above-described embodiments, and changes within a range not departing from the gist of the present invention are included in the present invention. For example, if the detection target is a patient and the mounting target is a taxi that moves between the home and the hospital, the taxi GPS is used as the position input means, and the authentication device provided in the taxi is used as the mounting target input means. If a wireless terminal that can detect the tilted state and impact of the patient is used as the state input means and impact input means, the monitoring system can detect the strong impact or tilted state of the patient on the way home via a taxi communication device. Can be monitored. In addition, since acceleration and light impact that are normally received during taxi rides are appropriately processed according to the judgment conditions, they are processed as false alarms, and the reliability of the monitoring system is improved. Moreover, if the priority is improved according to the strength of the impact received by the patient, the priority can be determined.

  The present invention can be applied to any monitoring system as long as it is a system that monitors a detection target using a wireless terminal or an electronic tag. Further, if the detection target is an article, it can be used for traceability to monitor the state of inclination or impact applied during conveyance.

It is a functional block diagram which shows the monitoring system of one Embodiment. It is a flowchart which shows operation | movement of the monitoring system of one Embodiment. It is a functional block diagram which shows the monitoring system 2 of 2nd Embodiment. It is a flowchart which shows operation | movement of the monitoring system 2 of 2nd Embodiment. It is a functional block diagram which shows the monitoring system 3 of 3rd Embodiment. It is a flowchart which shows operation | movement of the monitoring system 3 of 3rd Embodiment. It is a functional block diagram which shows the monitoring system 4 of 4th Embodiment. It is a flowchart which shows the position synthetic | combination operation | movement of the monitoring system 4 of 4th Embodiment. It is a flowchart which shows operation | movement of the monitoring system 4 of 4th Embodiment. It is a block diagram which shows the structure of an Example. It is a figure which shows a detection target. It is a figure which shows the example of arrangement | positioning of a position notification terminal. It is a figure which shows an example of the notification conditions in an Example. It is a figure which shows an example of the notification conditions in an Example. It is a figure which shows an example of the notification conditions in an Example. It is a figure which shows an example of the notification conditions in an Example. It is a figure which shows an example of the notification conditions in an Example. It is a figure which shows an example of the notification conditions in an Example. It is a figure which shows an example of the notification conditions in an Example. It is a block diagram which shows another structure of an Example. It is a block diagram which shows the structure of a 2nd Example. It is a figure which shows an example of the notification conditions in a 2nd Example. It is a figure which shows an example of the notification conditions in a 2nd Example. It is a block diagram which shows the structure of a 3rd Example. It is a figure which shows the example of arrangement | positioning of a structure of a 3rd Example. It is a figure which shows an example of the notification conditions in a 3rd Example. It is a figure which shows an example of the notification conditions in a 3rd Example. It is a figure which shows an example of the notification conditions in a 3rd Example. It is a figure which shows an example of the notification conditions in a 3rd Example. It is a figure which shows an example of the notification conditions in a 3rd Example. It is a figure which shows the example of arrangement | positioning of another structure of a 3rd Example. It is a figure which shows the example of arrangement | positioning of another structure of a 3rd Example. It is a block diagram which shows another structure of a 3rd Example. It is a block diagram which shows the structure of a 4th Example. It is a figure which shows the example of arrangement | positioning of a structure of a 4th Example. It is a figure which shows the example of arrangement | positioning of another structure of a 4th Example.

Explanation of symbols

1 monitoring system 2 monitoring system (one embodiment of the second embodiment)
3. Monitoring system (one embodiment of the third embodiment)
4 monitoring system (one embodiment of the fourth embodiment)
100 monitoring server 100b monitoring server 100c monitoring server 100d monitoring server 101 determination condition storage unit 102 notification determination unit 103 notification unit 104 notification determination unit 105 notification determination unit 106 position composition unit 200 position input unit 300 tilt state input unit 400 monitoring terminal 500 impact Input means 600 Mounting state input means 700 Position input means 1000 Detection target 1100 Wireless terminal 1101 Tilt detection means 1102 Position detection means 1103 Transmission means 1104 Transmission means 1105 Impact detection means 1201, 1202, 1203, 1204, 1205, 1206, 1207, 1208 , 1209, 1210, 1211 Location notification terminal 1300 Access point 1400 LAN (Local Area Network)
1500 Monitoring server 1501 Receiving means 1502 Wireless terminal attachment target storage means 1503 Receiving means 1504 Electronic tag attachment target storage means 1505 Receiving means 1600 Monitoring terminals 1701 and 1702 Electronic tag 1800 Electronic tag reader 1801 Response receiving means 1802 Mounting state determination means 1803 Transmission means 1900 Installation target 2000 Worker

Claims (30)

In a monitoring system that detects a detection target state using a wireless terminal and monitors the detection target,
State detection means for detecting the state of the detection target;
A determination condition storage means for storing a determination condition according to the state of the detection target detected by the state detection means;
A determination unit for determining a state of the detection target detected by the state detection unit based on a determination condition recorded in the determination condition storage unit;
A monitoring system comprising: The state detection means includes
Position input means for detecting the position of the detection target;
Tilt state input means for detecting the tilt state of the detection target;
An impact input means for detecting an impact received by the detection object;
The monitoring system according to claim 1, wherein the monitoring system is a combination of two or more means of a mounting state that can mount the detection target and a mounting state input unit that detects a mounting state that is a mounting relationship between the detection target. .   The monitoring system according to claim 2, further comprising a position synthesizing unit that synthesizes position information with the position of the mounting target as the position of the detection target when the position of the mounting target and the mounting state are detected. .   4. The monitoring system according to claim 2, wherein the determination condition recorded in the determination condition storage means changes a determination criterion (determination condition) based on the position information of the detection target.   5. The determination condition recorded in the determination condition storage means changes execution contents to be executed after determination based on the position information of the detection target or the detection target identifier of the detection target. The monitoring system according to any one of the above.   6. The determination condition recorded in the determination condition storage means changes a content to be notified or recorded after determination based on the position information of the detection target or the detection target identifier of the detection target. A monitoring system according to any one of the above.   The monitoring system according to any one of claims 2 to 6, wherein the determination condition recorded in the determination condition storage means defines a priority to be determined, and is determined in descending order of the priority.   The determination condition recorded in the determination condition storage means is determined according to a predetermined determination area (position type) for each predetermined area based on the position information of the detection target. The monitoring system according to any one of claims 2 to 7.   9. The monitoring system according to claim 2, wherein the tilt state input means is any one or a combination of an acceleration sensor, a tilt detection sensor, and a horizontal sensor.   The monitoring system according to claim 2, wherein the impact input means is any one or a combination of an acceleration sensor, an impact sensor, and a fall sensor.   3. The mounting state input means is any one of or a combination of a combination of an electronic tag (IC tag) and an electronic tag reader (IC tag reader), and a combination of a barcode and a barcode reader. The monitoring system according to any one of 10.   The monitoring system according to any one of claims 2 to 11, wherein the mounting target is any one of an automobile, a wheelchair, a stretcher, a carriage, a carriage, and a transporter.   The monitoring system according to any one of claims 1 to 12, wherein the detection target is any one of a person, a medicine, an ampoule, an explosive, a poison, and a measuring device.   The monitoring system according to any one of claims 1 to 13, wherein the state detection means is realized using a portable wireless terminal or an electronic tag (IC tag).   15. The information processing apparatus according to claim 1, further comprising notification means for notifying a person by an image displayed on an electronic screen, sound, sound, vibration, or a combination thereof according to a determination result of the determination means. One monitoring system. A server used in a monitoring system for monitoring the detection target using a state detection unit that wirelessly notifies the detection target state,
A determination condition storage means for storing a determination condition according to the state of the detection target detected by the state detection means;
A determination unit that determines a state of the detection target based on a determination condition recorded in the determination condition storage unit;
A server comprising: The state of the detection target determined by the determination means is
Two or more combinations of the position of the detection target, the tilted state of the detection target, the impact received by the detection target, and the mounting state that is the mounting relationship between the mounting target and the detection target capable of mounting the detection target The server according to claim 16, wherein there is a server.   18. The server according to claim 17, further comprising a position synthesizing unit configured to synthesize position information using the position of the mounting target as the position of the detection target when the position of the mounting target and the mounting state are detected. The determination condition recorded in the determination condition storage means is:
Changing a determination criterion (determination condition) based on the position information of the detection target;
Based on the position information of the detection target or the detection target identifier of the detection target, change the execution content to be executed after the determination,
Based on the position information of the detection target or the detection target identifier of the detection target, change the content to be notified or recorded after determination,
A determination condition (position type) is determined for each predetermined area determined in advance based on the position information of the detection target, and the determination priority determined according to the determination condition is determined, and the determination is performed in descending order of the priority. ,
The server according to claim 17, wherein the server is any one or a combination thereof.   The server according to any one of claims 16 to 19, wherein the detection target is any one of a person, a medicine, an ampoule, an explosive, a poison, and a measuring device.   21. The information processing apparatus according to claim 16, further comprising notification means for notifying a person by an image, sound, sound, vibration, or a combination thereof displayed on an electronic screen according to a determination result of the determination means. One server. For the server according to any one of claims 16 to 21,
A wireless terminal having state detection means for wirelessly notifying the detection target state. The wireless terminal according to claim 22, wherein
The state detection means includes a position of the detection target, a tilted state of the detection target, an impact received by the detection target, a mounting relationship between the mounting target that can mount the detection target and the detection target. A wireless terminal that transmits any one of or a combination. A program used in a monitoring system for monitoring the detection target by using a state detection unit that wirelessly notifies the detection target state,
A determination condition storage unit that stores a determination condition according to the state of the detection target detected by the state detection unit;
A program that functions as a determination unit that determines a state of the detection target based on a determination condition recorded in the determination condition storage unit.   The control unit, when detecting the position and mounting state of the mounting target, causes the position of the mounting target to function as a position to be detected and functions as a position combining unit that combines position information. Item 25. The program according to item 24.   The notification means according to claim 24 or 25, further comprising a notification means for notifying personnel by an image displayed on an electronic screen, sound, sound, vibration, or a combination thereof according to a determination result of the determination means. program. A monitoring method for detecting a detection target state using a wireless terminal and monitoring the detection target on a server,
Detecting a state of detecting the state of the detection target;
Determining according to the state of the detection target detected by the state detection unit according to the determination condition recorded in a predetermined storage unit;
A monitoring method comprising: A step of detecting a mounting state that is a mounting relationship between the mounting target and the detection target capable of mounting the detection target;
When detecting the position of the mounting target and the mounting state, combining the position information with the position of the mounting target as the position of the detection target;
The monitoring method according to claim 27, further comprising:   29. The monitoring according to claim 27 or 28, further comprising a step of notifying a person by one of an image displayed on an electronic screen, sound, sound, vibration, or a combination thereof according to a determination result of the determination unit. Method. The step of determining according to the state of the detection target includes:
Changing a determination criterion (determination condition) based on the position information of the detection target;
Based on the position information of the detection target or the detection target identifier of the detection target, change the execution content to be executed after the determination,
Based on the position information of the detection target or the detection target identifier of the detection target, change the content to be notified or recorded after determination,
A determination condition (position type) is determined for each predetermined area determined in advance based on the position information of the detection target, and the determination priority determined according to the determination condition is determined, and the determination is performed in descending order of the priority. ,
30. The monitoring method according to any one of claims 27 to 29, wherein the monitoring method is determined by any one or a combination thereof.

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