WO2015040905A1 - センサ設置位置特定支援システム、及びセンサ設置位置特定支援方法 - Google Patents
センサ設置位置特定支援システム、及びセンサ設置位置特定支援方法 Download PDFInfo
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- WO2015040905A1 WO2015040905A1 PCT/JP2014/065961 JP2014065961W WO2015040905A1 WO 2015040905 A1 WO2015040905 A1 WO 2015040905A1 JP 2014065961 W JP2014065961 W JP 2014065961W WO 2015040905 A1 WO2015040905 A1 WO 2015040905A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/50—Service provisioning or reconfiguring
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
- H04L67/12—Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/50—Network services
- H04L67/52—Network services specially adapted for the location of the user terminal
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/02—Services making use of location information
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/02—Services making use of location information
- H04W4/029—Location-based management or tracking services
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/30—Services specially adapted for particular environments, situations or purposes
- H04W4/38—Services specially adapted for particular environments, situations or purposes for collecting sensor information
Definitions
- the present invention relates to a sensor installation position specification support system and a sensor installation position specification support method that support specifying positions where various sensors are efficiently installed.
- Each type of sensor has a sensor function and a communication function, and collects detected sensor information to a server, for example, by wireless communication, and executes various types of information processing.
- the wireless sensor node itself is provided with self-position specifying means (for example, a GPS position detecting device having a GPS antenna) for specifying its own position, and the sensor information and position information detected by the sensor are monitored.
- a sensor network for transmitting to is disclosed.
- the monitoring server collects the position information of all sensors and creates a map indicating the relative positions of the wireless sensor nodes.
- the detection range of the sensor is easily influenced by the surrounding environment where the sensor is installed. Therefore, it is necessary to specify the installation position of the sensor while checking the detection state, and in order to grasp the installation position of the sensor, more accurate and inexpensive self-position specifying means is required.
- the present invention has been made in view of such circumstances, and a sensor installation position identification support system that can accurately identify the position information of a sensor even if the sensor to be installed does not have a GPS function. And a sensor installation position specifying support method.
- a sensor installation position specifying support system includes a sensor for detecting characteristic information of an object, a portable terminal capable of data communication with the sensor, a server for collecting information, In the sensor installation position specifying support system, the portable terminal associates the acquired position information with identification information for identifying the sensor to the server, and position information acquisition means for acquiring position information related to the position of the portable terminal.
- a position information transmitting means for transmitting the position information receiving means for receiving the position information and the identification information from the portable terminal, and an appropriate installation position of the sensor based on the received position information.
- a determination means for determining whether or not the result is a result transmission means for transmitting a determination result by the determination means to the portable terminal. That.
- the mobile terminal acquires position information regarding its own position, and transmits the acquired position information to the server in association with identification information for identifying the sensor.
- the server receives the position information and the identification information from the mobile terminal, determines whether or not the sensor installation position is appropriate based on the received position information, and transmits the determination result to the mobile terminal.
- the position information of the position where the sensor is installed can be reliably collected in the server without providing the sensor itself with a means for acquiring the position information, for example, an expensive GPS chip.
- the determination result of whether or not the installation position of the sensor to be newly installed is appropriate can be confirmed on the mobile terminal.
- the installation position of the sensor can be changed to an appropriate position, and the installation work can be supported so that the sensor can be installed at an optimal position.
- the position information acquisition unit acquires longitude information and latitude information as position information using GPS.
- the mobile terminal acquires the longitude information and the latitude information as position information using GPS, it is not necessary to provide an expensive GPS chip to acquire the position information in the sensor itself, and the number of sensors to be installed Even if it is enormous, it does not increase the cost of the entire system.
- the position information transmission unit obtains the identification information of the sensor by performing data communication with the sensor by non-contact short-range communication.
- the server can easily determine which sensor is the position information. It is possible to determine whether or not the installation position of the sensor to be newly installed is appropriate by comparing the position information of the sensor already installed and the position information of the sensor to be newly installed. it can.
- the server stores information related to a detectable range of each sensor, and the determination unit is already installed based on the received position information. It is preferable to determine whether the installation position is appropriate by comparing the position information of the sensor with the position information of the sensor to be newly installed.
- a sensor installation position specification support method includes a sensor for detecting characteristic information of an object, a portable terminal capable of data communication with the sensor, and collecting information.
- a sensor installation position specification support method that can be executed by a sensor installation position specification support system comprising a server that performs a process of acquiring position information about its own position, and the acquired position information, And transmitting to the server in association with identification information for identifying a sensor, the server receiving the position information and the identification information from the portable terminal, and based on the received position information.
- the method includes a step of determining whether or not an installation position of the sensor is appropriate, and a step of transmitting a determination result to the mobile terminal.
- the mobile terminal acquires position information regarding its own position, and transmits the acquired position information to the server in association with identification information for identifying the sensor.
- the server receives the position information and the identification information from the mobile terminal, determines whether or not the sensor installation position is appropriate based on the received position information, and transmits the determination result to the mobile terminal.
- the position information of the position where the sensor is installed can be reliably collected in the server without providing the sensor itself with a means for acquiring the position information, for example, an expensive GPS chip.
- the determination result of whether or not the installation position of the sensor to be newly installed is appropriate can be confirmed on the mobile terminal.
- the installation position of the sensor can be changed to an appropriate position, and the installation work can be supported so that the sensor can be installed at an optimal position.
- the sensor installation position specifying support method preferably acquires longitude information and latitude information as position information using GPS.
- the mobile terminal acquires the longitude information and the latitude information as position information using GPS, it is not necessary to provide an expensive GPS chip to acquire the position information in the sensor itself, and the number of sensors to be installed Even if it is enormous, it does not increase the cost of the entire system.
- the sensor installation position specifying support method according to the present invention acquires the identification information of the sensor by performing data communication with the sensor by non-contact short-range communication.
- the server can easily determine which sensor is the position information. By comparing with the position information of other sensors, it can be determined whether or not the installation position is appropriate.
- the server stores information related to the detectable range of each sensor, and based on the received position information, newly adds the position information of the already installed sensor. It is preferable to determine whether or not the installation position is appropriate by comparing the position information of the sensor to be installed.
- the position information of the position where the sensor is installed can be reliably collected in the server without providing the sensor itself with a means for acquiring the position information, for example, an expensive GPS chip.
- the determination result of whether or not the installation position of the sensor to be newly installed is appropriate can be confirmed on the mobile terminal.
- the installation position of the sensor can be changed to an appropriate position, and the installation work can be supported so that the sensor can be installed at an optimal position.
- FIG. 1 is a block diagram showing a configuration of a sensor installation position specifying support system according to an embodiment of the present invention.
- the sensor installation position specification support system sequentially installs a plurality of sensor nodes 1 for detecting characteristic information of an object.
- the mobile terminal 2 is brought close to the sensor node 1, the mobile terminal 2 is connected to the sensor node 1 by non-contact short-range communication, for example, NFC (Near Field Communication).
- NFC Near Field Communication
- the mobile terminal 2 that has received the characteristic information of the object is equipped with a GPS that communicates with the satellite 4. Therefore, the longitude information and latitude information of the portable terminal 2 can be acquired as position information.
- the mobile terminal 2 is connected so that data communication with the server 3 is possible.
- the portable terminal 2 transmits the identification information of the sensor node 1, the characteristic information, and the position information of the portable terminal 2 to the server 3. It is preferable to transmit to the server 3 when the portable terminal 2 performs non-contact short-range communication with each sensor node 1 and acquires characteristic information and identification information.
- FIG. 2 is a block diagram showing a configuration example of the mobile terminal 2 of the sensor installation position specifying support system according to the embodiment of the present invention.
- the mobile terminal 2 according to the embodiment of the present invention includes at least a CPU (central processing unit) 21, a memory 22, a storage device 23, an input unit 24, a display unit 25, a GPS communication unit 26, a communication interface 27, and the hardware described above.
- the internal bus 28 connects the two.
- the CPU 21 is connected to each hardware unit as described above of the portable terminal 2 via the internal bus 28, controls the operation of each hardware unit described above, and according to a computer program stored in the storage device 23. Perform various software functions.
- the memory 22 is composed of a volatile memory such as SRAM, SDRAM, etc., and a load module is expanded when the computer program is executed, and stores temporary data generated when the computer program is executed.
- the storage device 23 includes a built-in fixed storage device (hard disk), a volatile memory such as SRAM, and a nonvolatile memory such as ROM.
- the computer program stored in the storage device 23 is downloaded via the communication interface 27 as information such as a program and data, and is executed from the storage device 23 to the memory 22 at the time of execution.
- the storage device 23 includes a position information storage unit 231 that stores position information in association with identification information acquired from each sensor node 1.
- the position information of the portable terminal 2 at the time when the identification information of the sensor node 1 is acquired by performing data communication with the sensor node 1 by non-contact short-range communication is identified as the position information of the sensor node 1. It is stored in association with information.
- the GPS communication means 26 is connected to the internal bus 28 and receives radio waves emitted from a plurality of satellites 4 orbiting over the earth through the antenna provided in the GPS communication means 26, thereby Information (coordinate position) can be calculated and indicated by longitude information and latitude information.
- Information can be calculated and indicated by longitude information and latitude information.
- the coordinate position is preferably calculated when the mobile terminal 2 performs non-contact near field communication with the sensor node 1. This is because it is not always necessary to perform GPS communication, so that the processing load on the CPU 21 can be reduced.
- the communication interface 27 is connected to an internal bus 28, and can transmit and receive data to and from the server 3 by being connected to an external network such as the Internet, LAN, or WAN.
- the input means 24 is a data input device such as a touch display or a button key, and accepts data input.
- the display means 25 is a display device such as an LCD integrated with a touch display, and displays an image necessary for operation.
- FIG. 3 is a block diagram showing a configuration example of the server 3 of the sensor installation position specification support system according to the embodiment of the present invention.
- the server 3 according to the embodiment of the present invention includes at least a CPU (central processing unit) 31, a memory 32, a storage device 33, an I / O interface 34, a video interface 35, a portable disk drive 36, a communication interface 37, and the above-described components. It consists of an internal bus 38 for connecting hardware.
- CPU central processing unit
- the CPU 31 is connected to the hardware components as described above of the server 3 via the internal bus 38, controls the operation of the hardware components described above, and according to the computer program 101 stored in the storage device 33. Perform various software functions.
- the memory 32 is composed of a volatile memory such as SRAM or SDRAM, and a load module is expanded when the computer program 101 is executed, and stores temporary data generated when the computer program 101 is executed.
- the storage device 33 includes a built-in fixed storage device (hard disk), a volatile memory such as SRAM, and a nonvolatile memory such as ROM.
- the computer program 101 stored in the storage device 33 is downloaded by a portable disk drive 36 from a portable recording medium 90 such as a DVD or CD-ROM in which information such as programs and data is recorded. To the memory 32 and executed.
- a computer program downloaded from an external computer connected to the network via the communication interface 37 may be used.
- the storage device 33 includes a sensor information storage unit 331.
- the sensor information storage unit 331 may detect the position information of each sensor node 1 and the characteristic information of the target object in association with the identification information for identifying the sensor node 1 that has been installed. Information on detection conditions such as a detectable range that is a possible range is stored.
- the communication interface 37 is connected to an internal bus 38, and by connecting to an external network such as the Internet, LAN, WAN, etc., data can be transmitted / received to / from a plurality of sensor nodes 1 and portable terminals 2. ing.
- the identification information and position information of the sensor node 1 are received from the portable terminal 2, and a determination result as to whether or not the installation position of the sensor node 1 to be newly installed is appropriate is transmitted to the portable terminal 2. Further, the detected characteristic information and identification information are received from the sensor node 1.
- the I / O interface 34 is connected to a data input medium such as a keyboard 341 and a mouse 342, and receives data input.
- the video interface 35 is connected to a display device 351 such as a CRT monitor or LCD, and displays a predetermined image.
- FIG. 4 is a functional block diagram of the mobile terminal 2 and the server 3 of the sensor installation position specifying support system according to the embodiment of the present invention.
- the identification information acquisition unit 201 of the mobile terminal 2 acquires non-contact short-range communication by bringing it close to the sensor node 1 and acquires identification information for identifying the sensor node 1.
- the position information acquisition unit 202 of the mobile terminal 2 receives radio waves from the plurality of satellites 4 via the GPS communication unit 26, and acquires longitude information and latitude information as position information.
- assist GPS AGPS
- AGPS assist GPS
- position information can be acquired even indoors.
- the position information transmission unit 203 of the mobile terminal 2 transmits the acquired position information to the server 3 in association with identification information for identifying the sensor node 1.
- the position information receiving unit 301 of the server 3 receives position information and identification information from the mobile terminal 2.
- the determination unit 302 of the server 3 determines whether or not the installation position of the sensor node 1 to be newly installed is appropriate based on the received position information.
- the sensor information storage unit 331 of the server 3 stores information on the already installed sensor node 1.
- FIG. 5 is an exemplary diagram of a data configuration of data stored in the sensor information storage unit 331 of the server 3 of the sensor installation position specification support system according to the embodiment of the present invention.
- the sensor information storage unit 331 has a range that can function as a sensor, together with identification information and position information (longitude information and latitude information) of the installed sensor node 1, that is, the target object.
- Information on a detectable range (hereinafter referred to as a sensing region) that is a range in which characteristic information can be detected is stored.
- the sensing area is a circular area, and the radius is stored.
- the present invention is not limited to this, and a plurality of plot points may be stored as the relationship between the central angle ⁇ and the limit distance r with the sensor node 1 as the center (r ⁇ coordinate system).
- the determination unit 302 determines that the ratio of the overlapping area between the sensing area of the already installed sensor node 1 and the sensing area of the sensor node 1 to be newly installed is a predetermined ratio of the sensing area. For example, it is determined whether or not it is 5% or more and 10% or less of the entire sensing area. When the ratio of the overlapping area is smaller than 5%, it is determined that the sensing area is inappropriate as the installation position of the sensor node 1 because the sensing area does not overlap and the characteristic information cannot be detected. . In addition, when the ratio of the overlapping area is larger than 10%, the sensing area is excessively overlapped, so that the total number of sensor nodes 1 to be installed may increase and the cost may be increased. Judged as inappropriate for the installation area.
- FIG. 6 is an image diagram of determination in the determination unit 302 of the server 3 of the sensor installation position specification support system according to the embodiment of the present invention. As shown in FIG. 6A, when the sensing area 6a of the sensor node 1 to be newly installed does not overlap with the sensing area 6b of the already installed sensor node 1, the determination unit 302 determines that the sensor node 1 Is transmitted to the portable terminal 2 as a determination result.
- the mobile terminal 2 When the mobile terminal 2 receives the determination result, the user changes the installation position of the sensor node 1 and repeats the same processing to indicate that the installation position of the sensor node 1 is appropriate (appropriate information). And trial and error until it is received as a judgment result.
- the determination result includes direction information indicating in which direction the sensor node 1 should be moved.
- the server 3 calculates direction information to be moved, and transmits it to the portable terminal 2 together with the determination result. Thereby, the user who received the determination result in the portable terminal 2 can move the sensor node 1 to an appropriate position in a short time according to the received direction information.
- the determination unit 302 transmits information (appropriate information) indicating that the installation position of the sensor node 1 is inappropriate to the mobile terminal 2 as a determination result.
- the user When the mobile terminal 2 receives the determination result, the user changes the installation position of the sensor node 1 and repeats the same processing, thereby indicating information (appropriate information) indicating that the installation position is appropriate as the determination result. Trial and error until received. However, if the direction information indicating in which direction the sensor node 1 should be moved is included in the determination result, the sensor node 1 can be moved more efficiently.
- the position information 6p of the sensor node 1 to be newly installed and the position information 6q of the already installed sensor node 1 are acquired, the position information 6p and the position information 6q It can be seen that it suffices to move them in the direction of the arrows so as to be separated from each other on a straight line connecting the two.
- the server 3 calculates direction information to be moved, and transmits it to the portable terminal 2 together with the determination result. Thereby, the user who received the determination result in the portable terminal 2 can move the sensor node 1 to an appropriate position in a short time according to the received direction information.
- the determination unit 302 determines that the installation position of the sensor node 1 is appropriate. Information indicating that there is information (appropriate information) is transmitted to the portable terminal 2 as a determination result. At the same time, the sensor information storage unit 331 stores the identification information and position information of the sensor node 1.
- the result transmission unit 303 transmits the determination result of the determination unit 302 to the mobile terminal 2. It goes without saying that the direction information described above may be included in the determination result to be transmitted.
- the result receiving unit 204 of the mobile terminal 2 receives the determination result from the server 3.
- the result display unit 205 displays the received determination result on the display unit 25 together with, for example, map information.
- FIG. 7 is a view showing an example of determination result display in the portable terminal 2 of the sensor installation position specification support system according to the embodiment of the present invention.
- the mark ⁇ indicates the sensor node 1b that has already been installed, and the mark ⁇ indicates the sensor node 1a that is to be newly installed.
- the distance between the sensor node 1a to be newly installed and the already installed sensor node 1b is far away, and an “NG” sign indicating that the installation position is inappropriate is displayed. It is displayed.
- the sensing area of the sensor node 1a to be newly installed does not overlap with the sensing area of the already installed sensor node 1b, it is necessary to bring the sensor node 1a to be newly installed closer to the sensor node 1b. There is.
- FIG. 7A the direction in which the sensor node 1a is brought closer is indicated by an arrow.
- the direction of the arrow is displayed based on vector information calculated from the position information of the sensor node.
- the gyroscope together with the mobile terminal 2
- the absolute direction of the actual moving direction is displayed, so that the user can move the sensor node 1a while viewing the screen display.
- the distance between the sensor node 1a to be newly installed and the already installed sensor node 1b is too short, and “NG” indicating that the installation position is inappropriate.
- a sign is displayed.
- the ratio of the overlapping area of the sensing area of the sensor node 1a to be newly installed and the sensing area of the already installed sensor node 1b is greater than a predetermined ratio, for example, greater than 10%, the new installation is attempted. It is necessary to keep the sensor node 1a away from the sensor node 1b.
- FIG. 7B the direction away from the sensor node 1a is indicated by an arrow.
- the direction of the arrow is displayed based on vector information calculated from the position information of the sensor node.
- the gyroscope together with the mobile terminal 2
- the absolute direction of the actual moving direction is displayed, so that the user can move the sensor node 1a while viewing the screen display.
- an “OK” sign indicating that the distance between the sensor node 1a to be newly installed and the already installed sensor node 1b is appropriate is displayed.
- the ratio of the overlapping area between the sensing area of the sensor node 1a to be newly installed and the sensing area of the already installed sensor node 1b is appropriate, and the installation position of the sensor node 1a to be newly installed is appropriate. Indicates that it is appropriate.
- FIG. 8 is a flowchart showing processing procedures of the CPU 21 of the portable terminal 2 and the CPU 31 of the server 3 of the sensor installation position specification support system according to the embodiment of the present invention.
- the CPU 21 of the mobile terminal 2 performs non-contact short-range communication by bringing it close to the sensor node 1 and acquires identification information for identifying the sensor node 1 (step S801).
- the CPU 21 receives radio waves from the plurality of satellites 4 via the GPS communication means 26, and acquires longitude information and latitude information as position information (step S802).
- position information such as position information
- AGPS assist GPS
- the CPU 21 transmits the acquired position information to the server 3 in association with identification information for identifying the sensor node 1 (step S803).
- the CPU 31 of the server 3 determines whether or not position information has been received from the portable terminal 2 (step S811). When the CPU 31 determines that position information has not been received (step S811: NO), the CPU 31 enters a reception waiting state. When the CPU 31 determines that the position information has been received (step S811: YES), the CPU 31 stores, based on the received position information, identification information and position information regarding the sensor node 1 that has already been installed. The information storage unit 331 is inquired to determine whether or not the installation position is appropriate (step S812).
- the sensor information storage unit 331 detects a range that can function as a sensor, that is, characteristic information of an object, together with identification information and position information (longitude information and latitude information) of the sensor node 1 that is already installed.
- Information relating to a detectable range (hereinafter referred to as a sensing region) that is a range in which the image can be detected is stored. Therefore, the position of the mobile terminal 2 is set as the position of the sensor node 1 to be newly installed, or there is no detection omission in the sensing area, or the number of sensor nodes 1 to be installed is not excessively overlapped. Considering the above, it is determined whether or not the installation position is appropriate.
- the ratio of the overlapping area between the sensing area of the already installed sensor node 1 and the sensing area of the sensor node 1 to be newly installed is within a predetermined ratio of the sensing area, for example, the entire sensing area It is judged whether it is 5% or more and 10% or less.
- the ratio of the overlapping area is smaller than 5%, it is determined that the sensing area is inappropriate as the installation position of the sensor node 1 because the sensing area does not overlap and the characteristic information cannot be detected.
- the ratio of the overlapping area is larger than 10%, the sensing area is excessively overlapped, so that the total number of sensor nodes 1 to be installed may increase and the cost may be increased. It is determined that the installation position is inappropriate.
- step S812 NO
- step S813 the CPU 31 calculates direction information that is information regarding the direction in which the sensor node 1 should move.
- step S812: YES the CPU 31 stores position information and the like in the sensor information storage unit 331 (step S814).
- CPU31 transmits the judgment result containing direction information to the portable terminal 2 (step S815).
- CPU21 of the portable terminal 2 judges whether the judgment result was received (step S804).
- step S804 NO
- the CPU 21 determines that the determination result has not been received (step S804: NO)
- the CPU 21 enters a reception waiting state.
- the CPU 21 determines that the determination result has been received (step S804: YES)
- the CPU 21 displays the received determination result (step S805).
- the user can move the sensor node 1 to an optimal position while confirming whether the installation position of the sensor node 1 is appropriate.
- the position information of the position where the sensor node 1 is installed can be reliably obtained without providing the sensor node 1 itself with a means for acquiring the position information, such as a GPS communication device. Can be collected. Further, according to the relative positional relationship between the sensor nodes 1, it is possible to confirm the determination result of whether or not the installation position of the sensor node 1 to be newly installed is appropriate with the mobile terminal 2, While confirming the determination result, the installation position of the sensor node 1 can be changed to an appropriate position, and the installation work can be supported so that the sensor node 1 can be installed at an optimal position.
- the mobile terminal 2 and the sensor node 1 are not limited to data communication by NFC, but are close enough to allow the position of the mobile terminal 2 to be regarded as the position of the sensor node 1. Any means capable of data communication may be used.
- the present invention provides, for example, an infrared sensor that detects the invasion of small animals into a farmland having an enormous size, a radioactivity distribution detection sensor in an earthquake-stricken area, and a temperature distribution detection sensor in the ocean.
- an infrared sensor that detects the invasion of small animals into a farmland having an enormous size
- a radioactivity distribution detection sensor in an earthquake-stricken area in an earthquake-stricken area
- a temperature distribution detection sensor in the ocean As the system has a relatively large number of sensors to be installed, such as the installation of the system, it can be expected that a greater effect is achieved.
Abstract
Description
2 携帯端末
3 サーバ
4 衛星
21、31 CPU
22、32 メモリ
23、33 記憶装置
26 GPS通信手段
Claims (8)
- 対象物の特性情報を検出するセンサと、
該センサとデータ通信することが可能な携帯端末と、
情報を収集するサーバと
を備えるセンサ設置位置特定支援システムにおいて、
前記携帯端末は、
自己の位置に関する位置情報を取得する位置情報取得手段と、
取得した位置情報を、前記センサを識別する識別情報に対応付けて前記サーバへ送信する位置情報送信手段と
を備え、
前記サーバは、
前記携帯端末から前記位置情報及び前記識別情報を受信する位置情報受信手段と、
受信した前記位置情報に基づいて、前記センサの設置位置が適切であるか否かを判断する判断手段と、
該判断手段による判断結果を前記携帯端末へ送信する結果送信手段と
を備えることを特徴とするセンサ設置位置特定支援システム。 - 前記位置情報取得手段は、GPSを用いて経度情報及び緯度情報を位置情報として取得することを特徴とする請求項1に記載のセンサ設置位置特定支援システム。
- 前記位置情報送信手段は、非接触の近距離通信により前記センサとデータ通信して前記センサの前記識別情報を取得することを特徴とする請求項1又は2に記載のセンサ設置位置特定支援システム。
- 前記サーバは、各センサの検出可能範囲に関する情報を記憶してあり、
前記判断手段は、受信した位置情報に基づいて、既に設置されているセンサの位置情報と新たに設置しようとするセンサの位置情報とを対比して設置位置が適切であるか否かを判断することを特徴とする請求項1乃至3のいずれか一項に記載のセンサ設置位置特定支援システム。 - 対象物の特性情報を検出するセンサと、
該センサとデータ通信することが可能な携帯端末と、
情報を収集するサーバと
を備えるセンサ設置位置特定支援システムで実行することが可能なセンサ設置位置特定支援方法において、
前記携帯端末は、
自己の位置に関する位置情報を取得する工程と、
取得した位置情報を、前記センサを識別する識別情報に対応付けて前記サーバへ送信する工程と
を含み、
前記サーバは、
前記携帯端末から前記位置情報及び前記識別情報を受信する工程と、
受信した前記位置情報に基づいて、前記センサの設置位置が適切であるか否かを判断する工程と、
判断結果を前記携帯端末へ送信する工程と
を含むことを特徴とするセンサ設置位置特定支援方法。 - GPSを用いて経度情報及び緯度情報を位置情報として取得することを特徴とする請求項5に記載のセンサ設置位置特定支援方法。
- 非接触の近距離通信により前記センサとデータ通信して前記センサの前記識別情報を取得することを特徴とする請求項5又は6に記載のセンサ設置位置特定支援方法。
- 前記サーバは、各センサの検出可能範囲に関する情報を記憶し、
受信した位置情報に基づいて、既に設置されているセンサの位置情報と新たに設置しようとするセンサの位置情報とを対比して設置位置が適切であるか否かを判断することを特徴とする請求項5乃至7のいずれか一項に記載のセンサ設置位置特定支援方法。
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