JP3951670B2 - Central management device, sensor network system, sensor management device, information processing program, and computer-readable recording medium recording the program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention provides data to a plurality of sensor networks each having a plurality of sensors and a sensor management device that receives sensor information from the sensors and controls several sensors based on a predetermined purpose. Central management apparatus for performing communication, sensor network system including a plurality of sensor networks and central management apparatus, sensor management apparatus, information processing program related to the system, and computer-readable recording medium storing the information processing program It is about. Specifically, the present invention relates to a sensor network system that receives the sensor information and controls several sensors based on an object different from the object.
[0002]
[Prior art]
In recent years, many different types of various sensors are installed in our living spaces and the like according to purposes such as vehicle theft monitoring, indoor intrusion monitoring, and fire monitoring. These sensors usually constitute a sensor network for each installation purpose. We can achieve the intended purpose based on the sensor information in the sensor network.
[0003]
[Problems to be solved by the invention]
However, recently, it has been desired to effectively use sensors by using sensor information from a plurality of sensors in a plurality of sensor networks and using the information for purposes other than the installation purpose.
[0004]
For example, consider a sensor network provided in each of a plurality of robots. Each sensor network is provided with a sensor for detecting the position of the robot, a sensor for detecting the moving speed of the robot, and the like. By using position information and speed information by the sensors of each sensor network, it becomes possible to control the walking state so as not to collide with each other.
[0005]
An object of the present invention is to provide a sensor network that can be used for purposes other than installation purposes by using sensor information from a plurality of sensors in a plurality of sensor networks.
[0006]
[Means for Solving the Problems]
In order to solve the above problems, the central management device of the present invention includes a plurality of sensors. A plurality of sensor management devices that receive sensor information from the sensors and control several sensors; and Central management device for data communication Sensor network system comprising Because The sensor management device generates control information for controlling the sensor and / or selection information for selecting the sensor information to be transmitted to the information processing device based on the instruction information sent from the information processing device. Sensor information selected based on the external information processing unit, the sensor control unit for controlling the sensor based on the control information sent from the external information processing unit, and the selection information sent from the external information processing unit A sensor information processing unit that transmits the information to the information processing device, and at least one of the plurality of sensor management devices includes the information processing device. And The sensor management apparatus as the information processing apparatus further includes an instruction information generation unit that generates instruction information and transmits the instruction information to another sensor management apparatus, and the central management apparatus performs the instruction information based on a predetermined purpose. A plurality of instruction information generation programs for generating various instructions, and storing the instruction information generation program from the storage unit and transmitting the instruction information generation program to a sensor management apparatus including the instruction information generation unit And an instruction information generation unit of the sensor management device updates processing contents of the instruction information generation unit based on an instruction method generation program sent from the central management device. It is characterized by that.
[0007]
The central management device having the above configuration receives the sensor information from the sensor network by transmitting the selection instruction information to the sensor network based on a predetermined purpose in the instruction information generation unit, and the sensor information processing unit The sensor information is processed based on the information. From the processing result, the central management apparatus transmits control instruction information to the sensor network based on a predetermined purpose in the instruction information generation unit. Thereby, several sensors are controlled.
[0008]
Therefore, the central management apparatus of the present invention can receive a plurality of pieces of sensor information from a plurality of sensor networks and can control some of the plurality of sensor networks. Accordingly, the sensor can be used for a purpose other than the purpose of installing the sensor network, and a plurality of sensors belonging to different sensor networks can be used.
[0009]
The sensor network system according to the present invention includes a plurality of the sensor networks and the central management device configured as described above that performs data communication with the sensor networks.
[0010]
Similarly to the above, the sensor network system configured as described above can use sensors for purposes other than the installation purpose of the sensor network, and can use sensors belonging to different sensor networks.
[0011]
Furthermore, the sensor network system of the present invention includes a sensor management device that, in the above configuration, receives sensor information from a plurality of sensors and controls several sensors. The apparatus generates external control information for selecting control information for controlling the sensor and / or selection of sensor information to be transmitted to the central management apparatus based on the instruction information sent from the central management apparatus. Based on the control information sent from the external information processing unit, the sensor control unit for controlling the sensor, and the selected sensor information based on the selection information sent from the external information processing unit. And a sensor information processing unit for transmission to the central management apparatus.
[0012]
According to the above configuration, since the sensor management device deployed in each sensor network has the same configuration as other sensor management devices, the central management device that performs data communication with the sensor management device can share the instruction information. The processing in the instruction information generation unit of the central management device can be reduced.
[0013]
The sensor management device of the present invention is a sensor management device that receives sensor information from a plurality of sensors and controls several sensors, and based on instruction information sent from the information processing device, Control information for controlling a sensor and / or an external information processing unit that generates selection information for selecting sensor information to be transmitted to the information processing device, and control information sent from the external information processing unit A sensor control unit that controls the sensor, and a sensor information processing unit that processes the selected sensor information based on the selection information sent from the external information processing unit and transmits the selected sensor information to the information processing device. It is characterized by providing.
[0014]
In the sensor management device configured as described above, the external information processing unit sends the control information to the sensor control unit and sends the selection information to the sensor information processing unit based on the instruction information sent from the information processing device. The sensor control unit controls the sensor based on the control information, and the sensor information processing unit processes the selected sensor information based on the selection information and transmits the selected sensor information to the information processing apparatus.
[0015]
Therefore, the sensor management apparatus of the present invention controls the sensor and / or processes the selected sensor information and transmits it to the information processing apparatus based on the instruction information from any information processing apparatus. Accordingly, the information processing apparatus can use the sensor for a purpose other than the purpose of installing the sensor network, and can use sensors belonging to different sensor networks.
[0016]
Furthermore, the sensor management apparatus of the present invention is characterized in that, in the above configuration, an instruction information generation unit that generates instruction information and transmits the instruction information to another sensor management apparatus is further provided.
[0017]
Since the sensor management apparatus having the above configuration can transmit instruction information to another sensor management apparatus in the same manner as the information processing apparatus, sensor control from sensors belonging to another sensor network can be performed. Can be performed.
[0018]
Therefore, the sensor networks provided with the sensor management apparatus of the present invention can be operated in cooperation by using sensor information.
[0019]
In addition, the sensor network system of the present invention includes a plurality of sensors, at least one sensor management device including an instruction information generation unit, a plurality of sensor management devices having the above configuration that may include an instruction information generation unit, and the sensor A central management device that performs data communication with the management device is provided.
[0020]
Similarly to the above, the sensor network system configured as described above can use sensors for purposes other than the installation purpose of the sensor network, and can use sensors belonging to different sensor networks.
[0021]
Furthermore, the sensor network system of the present invention includes a storage unit in which a central management device stores a plurality of instruction information generation programs for generating instruction information based on a predetermined purpose, corresponding to various purposes, and the storage unit A transmission unit that extracts the program from the transmission unit and transmits the program to the sensor management device including an instruction information generation unit. The processing contents of the instruction information generation unit are updated based on the above.
[0022]
According to the above configuration, the central management apparatus transmits the instruction information generation program to the instruction information generation unit of the sensor management apparatus, so that the sensor management apparatus can operate in cooperation with another sensor management apparatus. it can.
[0023]
Therefore, in the sensor network system of the present invention, the central management apparatus can operate the sensor management apparatuses in a coordinated manner according to a desired purpose. At this time, the processing in the central management apparatus can be reduced compared to the case where the central management apparatus collects sensor information and controls the sensor. In addition, the sensor management device often has a physical distance to the central management device or a distance on the communication network that is significantly longer than that of the sensor management device that operates cooperatively. However, the processing speed can be increased as compared with the case where the central management device collects sensor information and controls the sensor.
[0024]
In the sensor management device and / or the central management device, the operation of each unit can be realized on a computer by an information processing program. Furthermore, by storing the information program in a computer-readable recording medium, the operation of each unit in the sensor management device and / or the central management device can be realized on an arbitrary computer.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
Less than The figure It demonstrates based on 1-4.
[0026]
Figure 2 , It is a block diagram showing a schematic configuration of a sensor network system . SE The sensor network system 1 includes a plurality of sensor networks 3a to 3d each including a plurality of sensors 5, and a central management device 2 that manages the sensor networks 3a to 3d. Data communication with the device 2 is possible via the communication network 6. Hereinafter, when the sensor networks 3a to 3d are not particularly distinguished, they are referred to as “sensor network 3”.
[0027]
In addition, as shown in FIG. 2, the sensor network system 1 transmits a server 7 having various programs and data to be transmitted to the system 1 and requests from users to the system 1, and A user terminal device 8 for providing information from the system 1 to a user is connected via a communication network 6.
[0028]
The sensor network 3 includes a plurality of sensors 5 and a sensor management device 4 that manages the sensors 5. The number of sensors 5 managed by one sensor management device 4 can be from several to several hundreds. In the sensor network 3 for security management, the number is usually about 10. The sensor networks 3 may overlap each other as shown in FIG.
[0029]
FIG. 3 is a conceptual diagram illustrating an example in which a plurality of sensor networks 3 overlap each other. In the example of FIG. 3, one sensor 5 belongs to a plurality of sensor networks 3, or two sensor management devices (sensor network controllers) 4 exist in one sensor network 3. As described above, when the sensor 5 is managed by a plurality of sensor management devices 4, even if one sensor management device 4 breaks down, the other sensor management device 4 can operate normally. Become. Therefore, it is desirable to manage the sensors 5 requiring high reliability by the plurality of sensor management devices 4 as described above.
[0030]
In order for the plurality of sensor management devices 4 to identify individual sensors 5, each sensor 5 is assigned a unique sensor ID. In the system of FIG. 2, the use of a large number of sensors 5 can more accurately meet the user's request. For this purpose, the sensor ID may be set to a high bit (for example, 64 bits or more). As the sensor ID, for example, an IP address (32-bit width) of TCP / IP (Transmission Control Protocol / Internet Protocol) can be used. In order to increase the sensor ID, the IP address is expanded to 128-bit width. IPv6 can be used.
[0031]
The sensor management device 4 converts the sensor information from the sensor 5 so as to conform to the transmission method of the communication network 6, and outputs it to the central management device 2 via the communication network 6. Examples of the communication network 6 include public lines such as the Internet, telephone lines (including ISDN (Integrated Services Digital Communication Network), PHS (Personal Handyphone System) lines, mobile phone lines, etc.), LANs (Local Area Networks), and the like. These combinations are mentioned.
[0032]
The sensor management device 4 and the sensor 5 in the sensor network 3 are each provided with a communication device. The communication device of the sensor management device 4 is a parent device, and the communication device of the sensor 5 is a child device. Communication is performed between the parent device and the child device.
[0033]
Communication between the parent device and the child device may be wireless communication or wired communication. As wireless communication, for example, wireless LAN standard or Bluetooth (registered trademark) standard weak radio waves, those using short-distance radio such as specific low-power radio, those using optical radio, near-field infrared communication, etc. are conceivable. . As wired communication, one using a LAN or one using a dedicated wiring can be considered.
[0034]
As a communication method between the parent device and the child device, there are bidirectional communication or unidirectional communication, which differs depending on the type of the sensor 5. above The sensor management device 4 converts the sensor information from the sensor 5 into a transmission method suitable for the communication network 6 and transmits the data to the central management device 2 via the communication network 6 and controls the sensor 5. It has a function as a controller. For this reason, when the sensor 5 is controlled by receiving a control signal or the like from the sensor management device 4, the communication method is bidirectional communication. On the other hand, in the case where the sensor 5 unilaterally sends a signal to the sensor management device 4, the communication method is unidirectional communication from the child device to the parent device.
[0035]
The sensor 5 includes a detection unit that performs detection. As an interface between the detection unit and a communication device (slave device), for example, RS-232C, RS-485, DeviceNET, or the like is used. be able to. An analog current, an analog voltage, a pulse signal, or the like as a detection result by the detection unit is sent from the sensor 5 to the sensor management device 4 via the interface and the communication device (slave device).
[0036]
Various sensors are used as the sensor 5 of the sensor network 3, and examples thereof are given below.
[0037]
Examples of detecting the human body include a photoelectric sensor, a beam sensor, an ultrasonic sensor, an infrared sensor, and the like. Examples of detection of movement and destruction of an object include a vibration sensor and an acceleration sensor (3D sensor, ball semiconductor sensor). Examples of detecting sound include a microphone, a sound sensor, and an acoustic sensor. A video camera or the like is used to detect video. Examples of detecting a fire or the like include a temperature sensor, a smoke sensor, and a humidity sensor. Examples of devices mounted on vehicles include GPS (Global Positioning System), acceleration sensors, wiper ON / OFF sensors, vibration sensors, and tilt sensors. There are an illumination ON / OFF sensor, a water leak sensor, and the like installed in the room. There are rain gauges, anemometers, thermometers, etc. installed outdoors. In addition to these, there are various types such as a capacitance level sensor, a capacitance intrusion sensor, a current sensor, a voltage sensor, a reed switch that detects opening / closing of a door, and a clock that detects time.
[0038]
Thus, the sensor 5 of the sensor network 3 is not limited to what is generally referred to as a “sensor”, and is sent to the sensor management device 4 by detecting a phenomenon and converting the detection result into an electrical signal. Includes any equipment that can.
[0039]
The sensor 5 of the sensor network 3 may include an active sensor. An active sensor is, for example, a video camera. In addition to a CCD (Charge Coupled Device) as a detection unit that performs detection, an active sensor has a zoom function, an autofocus function, a direction switching function for switching a shooting direction, and the like. It is provided and can operate automatically or by a control signal from the sensor management device 4. Such an active sensor can perform more accurate detection according to the phenomenon. For example, in the example of the video camera, a moving object (smoke or the like) within the shooting range is detected and the shooting direction is changed to that direction, whereby the moving object can be shot more accurately.
[0040]
Further, the sensor 5 of the sensor network 3 may include an autonomous sensor. Here, the autonomous sensor refers to a sensor that periodically notifies the sensor management device 4 and the central management device 2 of information related to the sensor itself. The information regarding the sensor itself is, for example, information on the type (including contents that can be detected) and arrangement (position, installation location) of the sensor. In the present application, “sensor information” is used as a term indicating either one or both of information detected by the sensor and information related to the sensor itself.
[0041]
The sensor may be attached to a moving body such as a vehicle. When the sensor moves, the information obtained from the detection result of the sensor may change. For example, considering a thermometer attached to a vehicle as a sensor, when the temperature is detected by the sensor, the point at which the detection result represents the temperature differs depending on the position of the vehicle, that is, the position of the sensor. . If an autonomous sensor is used in such a case, it is possible to recognize at which point the temperature is constantly detected.
[0042]
In addition, when the sensor management device 4 corresponding to the autonomous sensor is used, when a new autonomous sensor is added, it can be easily added like so-called plug and play.
[0043]
These sensors 5 are usually selected according to a specific purpose such as vehicle theft monitoring, indoor intrusion monitoring, fire monitoring, and the like, and are installed at an appropriate place according to the purpose. In addition, the sensor network 3 is usually configured for each purpose, and processing such as monitoring and notification for achieving the purpose is performed by the central management device 2, for example. The system 1 in FIG. 2 makes it possible to use a sensor installed for a specific purpose for other purposes.
[0044]
The sensor 5 can be roughly classified into three types of a periodic type, an event type, and a polling type according to a detection result notification method, that is, how to send a detection signal of the detection result to the sensor management device 4. Here, the periodic sensor notifies the detection result in a predetermined time period. The event type sensor is for notifying the detection result when the sensor 5 detects a predetermined phenomenon, for example, when detecting a physical quantity or the like exceeding a threshold value. The polling type sensor is for notifying the detection result when receiving a notification command for the detection result from the sensor management device 4 side.
[0045]
Next, the configuration of the sensor management device 4 in the sensor network 3 will be described. FIG. 4 is a block diagram showing a schematic configuration of the sensor management device 4.
[0046]
The sensor management device 4 receives sensor information such as analog currents, analog voltages, and pulse signals sent from a plurality of sensors 5 based on a predetermined installation purpose, and controls the controllable sensor 5. is there. The sensor management device 4 converts the sensor information into digital data suitable for the transmission method of the communication network 6 and transmits the digital data to the central management device 2.
[0047]
The sensor management device 4 includes a CPU (Central Processing Unit) 41 that performs various processes, a storage unit 42 that stores various data and various programs, a communication I / F unit 43 that interfaces with the communication network 6, A sensor I / F unit 44 that interfaces with the sensor 5 is provided.
[0048]
The sensor I / F unit 44 converts the sensor information from the sensor 5 into a predetermined digital format and transmits it to the CPU 41. At this time, the sensor I / F unit 44 needs to specify which sensor 5 is the sensor information.
[0049]
The sensor I / F unit 44 does not need to be specified when the sensor information includes a sensor type or a sensor ID. When the sensor I / F unit 44 does not include the sensor type or sensor ID, for example, The type or sensor ID of the sensor is specified by the type or number, the specified type or sensor ID of the sensor is added to the sensor information, and the sensor information is transmitted to the CPU 41.
[0050]
Further, the sensor I / F unit 44 converts the sensor control signal from the CPU 41 into an appropriate transmission format and transmits it to the specific sensor 5.
[0051]
The communication I / F unit 43 converts the sensor information data transmitted from the CPU 41 so as to conform to the transmission method of the communication network 6, and transmits the converted data to the central management device 2 via the communication network 6. In addition, the communication I / F unit 43 converts the instruction information data transmitted from the central management device 2 via the communication network 6 into a predetermined digital format and transmits it to the CPU 41.
[0052]
The instruction information data includes instruction information such as sensor information to be transmitted to the central management apparatus 2 and sensor information instruction data for instructing the processing contents, and sensor control instruction data for instructing sensor control.
[0053]
The CPU 41 performs various data processing and instructions to various control circuits, and thereby controls the entire sensor management device 4. The CPU 41 functions as each functional block of the external information processing unit 45, sensor information processing unit 46, and sensor control unit 47.
[0054]
The external information processing unit 45 performs sensor information processing and sensor control performed by the sensor information processing unit 46 based on instruction information data transmitted from the central management device 2 via the communication network 6 and the communication I / F unit 43. A process for controlling the sensor 5 performed by the unit 47 is instructed.
[0055]
The sensor information processing unit 46 performs a predetermined process on the sensor information (primary data) sent from the sensor 5 via the sensor I / F unit 44, and the sensor information data (secondary data) subjected to the process. Based on the data, a signal indicating the sensor 5 to be controlled and the control content is transmitted to the sensor control unit 47. The sensor information processing unit 46 transmits the sensor information data to the central management device 2 via the communication I / F unit 43 and the communication network 6. The sensor information processing unit 46 may store the sensor information data in the storage unit 42 and send the sensor information data to the central management device 2 in response to a request from the central management device 2. In addition to the sensor information, additional information such as the sensor type and the data amount is added to the sensor information data.
[0056]
The sensor information processing unit 46 may process sensor information based on an instruction from the external information processing unit 45. In this case, only useful sensor information data among the sensor information data sent from the sensor 5 is sent to the central management device 2, and the amount of data sent to the central management device 2 can be reduced.
[0057]
For example, as primary data from a video camera as the sensor 5, that is, image data, data of about 20 to 30 kilobits per screen may be constantly sent for 3 screens per second. The sensor information processing unit 46 performs processing such as thinning out an image with a small change on the primary data to generate secondary data that is useful and has a small amount of data.
[0058]
The sensor control unit 47 controls the sensor 5 by sending a control signal to the sensor 5 via the sensor I / F unit 44. The control of the sensor 5 includes control of the detection information transmission cycle in the periodic sensor, control of the threshold value of the event sensor, polling control for the polling sensor, or operation control of the active sensor. Which sensor 5 is controlled by the sensor control unit 47 is based on a command from the external information processing unit 45 or the sensor information processing unit 46.
[0059]
Next, the configuration of the central management device 2 in the sensor network 3 will be described. FIG. 1 is a block diagram showing a schematic configuration of the central management device 2. here The central management device 2 generates instruction information corresponding to a desired purpose and transmits the instruction information to the sensor management device 4.
[0060]
The central management device 2 includes a CPU 21 that performs various processes, a storage unit 22 that stores various data and various programs, and a communication I / F unit 23 that interfaces with the communication network 6.
[0061]
The communication I / F unit 23 converts the instruction information data transmitted from the CPU 21 so as to conform to the transmission method of the communication network 6, and transmits the converted data to the sensor management device 4 via the communication network 6. In addition, the communication I / F unit 23 converts the sensor information data transmitted from the sensor management device 4 via the communication network 6 into a predetermined digital format and transmits the data to the CPU 21.
[0062]
The storage unit 22 stores various programs and data for performing various processes in the CPU 21. The storage unit 22 stores a plurality of instruction information generation programs 221 corresponding to various purposes. Each instruction information generation program stores contents for generating instruction information to be transmitted to the sensor management device 4 based on each purpose.
[0063]
The instruction information includes selection instruction information for selecting sensor information to be transmitted from the sensor management apparatus 4 to the central management apparatus 2 and control instruction information for controlling the sensor 5. The instruction information may be any one of selection instruction information and control instruction information, or information including both.
[0064]
The CPU 21 performs various data processing and instructions to various control circuits, and thereby controls the entire central management apparatus 2. The CPU 21 functions as functional blocks of the sensor information processing unit 211 and the update information transmission unit 212.
[0065]
The sensor information processing unit 211 performs various processes on the sensor information data transmitted from the sensor management device 4 via the communication network 6 and the communication I / F unit 23. In addition, user request data indicating a user request is transmitted from the user terminal device 8 to the sensor information processing unit 211 via the communication network 6 and the communication I / F unit 23, and the sensor information processing unit 211 transmits the transmitted user request data. Various processes are performed based on the request data.
[0066]
The instruction information generation unit 212 generates instruction information data based on a predetermined purpose, and transmits the instruction information data to the sensor management device 4 via the communication I / F unit 23 and the communication network 6. The instruction information generation unit 212 performs processing based on one of a plurality of instruction information generation programs 221 stored in the storage unit 22.
[0067]
In the sensor network system 1 configured as described above, the user terminal device 8 or the like is required to acquire sensor information and / or control the sensor 5 for a plurality of sensor networks 3 based on a predetermined purpose. Then, the central management device 2 reads the instruction information generation program 221 corresponding to the purpose from the storage unit 22 and transfers it to the instruction information generation unit 212.
[0068]
The instruction information generation unit 212 generates instruction information data based on the program 221, selects the sensor management device 4 to be transmitted, and transmits the generated instruction information data to the selected sensor management device 4. .
[0069]
When the instruction information data is a selection instruction, the sensor management apparatus 4 to which the instruction information data is transmitted transmits the data from the external information processing unit 45 to the sensor information processing unit 46, and the sensor information processing unit 46 Then, the sensor information data obtained by processing the sensor information based on the instruction information data is transmitted to the central management device 2. If the instruction information data instruction is a control instruction, the sensor management device 4 transmits the data from the external information processing unit 45 to the sensor control unit 47, and the sensor control unit 47 converts the instruction information data into the instruction information data. Based on this, the sensor 5 is controlled.
[0070]
When sensor information data is transmitted from the sensor management device 4 to the central management device 2, the central management device 2 processes the sensor information in the sensor information processing unit 211. The processed sensor information is transmitted to the user terminal device 8 as result information, for example, or transmitted to the instruction information generation unit 212 to give further instructions to the sensor management device 4.
[0071]
Therefore, the sensor network system 1 of the present invention can receive a plurality of sensor information from the plurality of sensors 5 of the plurality of sensor networks 3 and can control some of the sensors 5 in the plurality of sensor networks 3. Thereby, the sensor can be used for a purpose different from the installation purpose of the sensor network 3, and a plurality of sensors belonging to different sensor networks 3 can be used.
[0072]
In addition, since the sensor management device 4 deployed in each sensor network 3 has the same configuration as the other sensor management devices 4, the format of instruction information data transmitted from the central management device 2 is changed for each sensor management device 4. do not have to. Thereby, the processing burden in the instruction information generation unit 212 of the central management device 2 can be reduced.
[0073]
[Form of implementation state〕
Next, the present invention The fruit The embodiment will be described with reference to FIGS. In addition, Paragraphs [0025] to [0072] The components having the same functions as those described in the above are denoted by the same reference numerals, and the description thereof is omitted.
[0074]
FIG. 5 is a block diagram illustrating a schematic configuration of the central management device 2 in the sensor network system 1 according to the present embodiment. Compared with the central management device 2 shown in FIG. 1, the central management device 2 includes an input information processing unit 213 instead of the sensor information processing unit 211, and a program transmission unit 214 instead of the instruction information generation unit 212. The point which is provided differs and other structures are the same.
[0075]
The input information processing unit 213 performs various processes on the sensor information data transmitted from the sensor management device 4 via the communication network 6 and the communication I / F unit 23. When user request data indicating a user request is transmitted from the user terminal device 8 to the input information processing unit 213 via the communication network 6 and the communication I / F unit 23, the input information processing unit 211 is transmitted. Various processes are performed based on the user request data.
[0076]
Although not shown in the figure, the input information processing unit 213 performs processing for creating processing result data and transmitting it to the user terminal device 8 based on the sensor information data.
[0077]
In the present embodiment, when data requesting that the sensor network 3 perform a cooperative operation is transmitted from an information processing device such as the sensor management device 4 or the user terminal device 8, the input information processing unit 213 receives the data. Is transmitted to the program transmission unit 214.
[0078]
Based on the data, the program transmission unit 214 selects a program 221 corresponding to a desired purpose from a plurality of instruction information generation programs 221 stored in the storage unit 22, the communication I / F unit 23, The data is transmitted to the sensor management device 4 via the communication network 6.
[0079]
FIG. 6 is a block diagram showing a schematic configuration of the sensor management device 4 in the present embodiment. Compared to the sensor management apparatus 4 shown in FIG. 4, the sensor management apparatus 4 includes an instruction information generation unit 48 added to the CPU 41, an instruction information generation program 421 stored in the storage unit 42, and an external The processing contents in the information processing unit 45 are different, and the other configurations are the same.
[0080]
Similar to the instruction information generation unit 212 shown in FIG. 1, the instruction information generation unit 48 generates instruction information data based on a predetermined purpose, and transmits other information via the communication I / F unit 43 and the communication network 6. The data is transmitted to the sensor management device 4. The instruction information generation unit 48 performs processing based on the instruction information generation program 421 stored in the storage unit 42.
[0081]
When the instruction information generation program is transmitted from the central management device 2 in addition to the processing contents of the external information processing unit 45 shown in FIG. 4, the external information processing unit 45 stores the program in the storage unit 42. Do.
[0082]
Furthermore, when sensor information data is transmitted from another sensor management device 4, the external information processing unit 45 processes the sensor information data and transmits it to the instruction information generating unit 48. The instruction information generation unit 48 may transmit further instruction information data to the sensor management device 4 or another sensor management device 4 based on the sensor information processed by the external information processing unit 45.
[0083]
In the sensor network system 1 having the above-described configuration, data requesting that the sensor networks 3 perform a cooperative operation based on a predetermined purpose is transmitted from an information processing device such as the sensor management device 4 or the user terminal device 8 to the central management device 2. The central management device 2 reads out the instruction information generation program 221 corresponding to the purpose in the program transmission unit 214, and either one or both of the sensor management devices 4 of the sensor network 3 performing the cooperative operation. Transmit to.
[0084]
The sensor management device 4 to which the program 221 is transmitted is stored as an instruction information generation program 421 in the storage unit 42 by the external information processing unit 45, and an instruction is generated based on the instruction information generation program 421 in the instruction information generation unit 48. Information is generated and transmitted to another sensor management device 4 that performs cooperative operation.
[0085]
Therefore, in the sensor network system 1 of the present embodiment, a certain sensor network 3 can receive sensor information from the sensors 5 of another sensor network 3 and can control the sensors 5 of another sensor network 3. Thereby, cooperation operation can be performed between the sensor networks 3.
[0086]
At this time, the processing in the central management device 2 can be reduced compared to the case of the first embodiment in which the central management device 2 collects sensor information and controls the sensor 5. In addition, the sensor management device 4 often has a physical distance to the central management device 2 or a distance on the communication network 6 that is significantly longer than that of the sensor management device 4 that operates cooperatively. It is possible to increase the processing speed when the central management device 2 collects sensor information and controls the sensor 5.
[0087]
Then apply Target Is enumerated.
[0088]
[Apply Target 1]
Consider a case in which a sensor network 3 is formed for each passenger car using a plurality of sensors 5 installed in the passenger car. . Ahead For example, by acquiring sensor information related to slip on a snowy road from the sensor network 3a of the passenger car to be run, the sensor network 3b of the subsequent passenger car sets detection conditions and detection timing of the road surface condition, or prevents slipping. Various controls such as these can be performed.
[0089]
[Apply Target 2]
Consider a case in which a sensor network 3 is formed for each robot by using a plurality of sensors 5 arranged in the robot. . Some The robot sensor network 3a can control the walking state so as not to collide with other robots, for example, by acquiring sensor information of position and moving speed from the sensor network 3b of other robots.
[0090]
[Apply Target 3]
Consider a case in which sensor networks 3a and 3b are formed on the upstream side and the downstream side of the production line in the field of factory automation (FA), respectively. . under The flow-side sensor network 3b can adjust the downstream production volume and production speed, for example, by acquiring sensor information on the production volume and production speed from the upstream sensor network 3a.
[0091]
[Apply Target 4]
In the FA field, sensor networks 3a and 3b are respectively formed on a first production line (for example, a PET bottle production line) and a second production line (for example, a lid production line) for producing related products. Think if you . First The sensor network 3b of the second production line acquires, for example, the number of PET bottles produced from the sensor network 3a of the first production line and the sensor information having a shape that is screwed with the lid at the tip thereof. The number and shape of lids to be produced in the two production lines can be determined.
[0092]
In addition, each part in CPU21 of the central management apparatus 2 demonstrated above and CPU41 of the sensor management apparatus 4 may be implement | achieved by the program (information processing program) performed by each CPU21 * 41.
[0093]
The information processing program is stored in a computer-readable recording medium such as the storage unit 22 of the central management device 2 or the storage unit 42 of the sensor management device 4. In addition to the storage units 22 and 42, the information processing program may be supplied by a program medium that is read by a drive device provided in the central management device 2 or the sensor management device 4 as an external storage device, for example.
[0094]
The program medium is a recording medium configured to be separable from the main body, and is a tape system such as a magnetic tape or a cassette tape, a magnetic disk such as a floppy disk or a hard disk, or an optical disk such as a CD-ROM / MO / MD / DVD. It may be a medium carrying a fixed program including a semiconductor memory such as a disk system, an IC card (including a memory card) / optical card, or a mask ROM, EPROM, EEPROM, flash ROM, etc. .
[0095]
The information processing program may be downloaded to the central management device 2 or the sensor management device 4 through a communication network including the Internet. When the information processing program is downloaded from the communication network, the download program may be stored in the central management device 2 or the sensor management device 4 in advance, or may be installed from another recording medium. The content stored in the recording medium is not limited to a program, and may be data.
[0096]
【The invention's effect】
As described above, the central management apparatus according to the present invention is a central management apparatus that performs data communication with a plurality of sensor networks each including a plurality of sensors, and receives sensor information to be received in the sensor network based on a predetermined purpose. Selection instruction information for instructing and / or control instruction information for instructing the sensor network to control some sensors, and transmitting the instruction information to the sensor network as instruction information, and a sensor from the sensor network When information is received, a sensor information processing unit that processes the sensor information based on the purpose is provided.
[0097]
Thereby, while being able to use a sensor for the objective different from the installation objective of a sensor network, there exists an effect which can utilize the some sensor which belongs to a separate sensor network.
[0098]
Further, as described above, the sensor network system of the present invention is configured to include a plurality of the sensor networks and the central management device configured as described above that performs data communication with the sensor network.
[0099]
Thereby, also in the sensor network system, the sensor can be used for a purpose different from the purpose of installing the sensor network, and the sensor belonging to different sensor networks can be used.
[0100]
Furthermore, as described above, the sensor network system of the present invention includes a sensor management device that, in the above configuration, receives sensor information from a plurality of sensors and controls several sensors. The sensor management apparatus receives control information for controlling the sensor and / or selection information for selecting sensor information to be transmitted to the central management apparatus based on the instruction information transmitted from the central management apparatus. Based on control information sent from the external information processing unit to be generated, control information sent from the external information processing unit, and selected based on selection information sent from the external information processing unit It is a structure provided with the sensor information processing part which processes sensor information and transmits to a central management apparatus.
[0101]
As a result, the sensor management device deployed in each sensor network has the same configuration as other sensor management devices, so the central management device that performs data communication with the sensor management device can share the instruction information, There is an effect that processing in the instruction information generation unit of the apparatus can be reduced.
[0102]
The sensor management device of the present invention is a sensor management device that receives sensor information from a plurality of sensors and controls several sensors as described above, and includes instructions sent from the information processing device. Based on the information, an external information processing unit that generates control information for controlling the sensor and / or selection information for selecting the sensor information to be transmitted to the information processing device, and the external information processing unit Sensor information for controlling the sensor based on the control information obtained, and sensor information for processing the selected sensor information based on the selection information sent from the external information processing unit and transmitting the selected sensor information to the information processing device And a processing unit.
[0103]
As a result, the information processing apparatus can use the sensor for a purpose other than the purpose of installing the sensor network, and has the effect of being able to use the sensors belonging to different sensor networks.
[0104]
Furthermore, as described above, the sensor management device of the present invention has a configuration further including an instruction information generation unit that generates instruction information and transmits the instruction information to another sensor management device in the above configuration.
[0105]
Thereby, the sensor networks provided with the sensor management device of the present invention have an effect that they can operate in cooperation by using sensor information.
[0106]
In addition, as described above, the sensor network system of the present invention includes a plurality of sensors, at least one sensor management device including an instruction information generation unit, and a plurality of sensor managements configured as described above, which may include an instruction information generation unit. And a central management device that performs data communication with the sensor management device.
[0107]
Thereby, also in the sensor network system, the sensor can be used for a purpose different from the purpose of installing the sensor network, and the sensor belonging to different sensor networks can be used.
[0108]
Further, as described above, the sensor network system of the present invention includes a storage unit in which a central management device stores a plurality of instruction information generation programs for generating instruction information based on a predetermined purpose corresponding to various purposes. And a transmission unit that extracts the program from the storage unit and transmits the program to the sensor management device including an instruction information generation unit, and the external information processing unit in the sensor management device is sent from a central management device. The processing contents of the instruction information generation unit are updated based on the instruction method generation program.
[0109]
Thereby, the sensor network system of this invention can carry out the cooperative operation | movement of the sensor management apparatuses according to the desired objective by the central management apparatus. At this time, the processing in the central management apparatus can be reduced compared to the case where the central management apparatus collects sensor information and controls the sensor. In addition, the sensor management device often has a physical distance to the central management device or a distance on the communication network that is significantly longer than that of the sensor management device that operates cooperatively. However, the processing speed can be increased as compared with the case where the central management device collects sensor information and controls the sensor.
[0110]
In the sensor management device and / or the central management device, the same effects as described above can be obtained even if the operation of each unit is realized on a computer by an information processing program. Further, by storing the information program in a computer-readable recording medium, the operation of each unit in the sensor management device and / or the central management device can be realized on an arbitrary computer. Has the effect of.
[Brief description of the drawings]
[Figure 1] SE It is a block diagram which shows schematic structure of the central management apparatus in a sensor network system.
[Figure 2] SE It is a block diagram which shows schematic structure of a sensor network system.
FIG. 3 is a conceptual diagram showing an example in which a plurality of sensor networks overlap.
4 is a block diagram showing a schematic configuration of a sensor management device in the sensor network system of FIG. 2;
FIG. 5 shows the present invention. The fruit It is a block diagram which shows schematic structure of the central management apparatus in the sensor network system which concerns on embodiment.
FIG. 6 The fruit It is a block diagram which shows schematic structure of the sensor management apparatus in the sensor network system which concerns on embodiment.
[Explanation of symbols]
1 Sensor network system
2 Central management device
3 Sensor network
4 Sensor management device
5 Sensor
6 Communication network
22 Memory unit
42 Memory unit
45 External information processor
46 Sensor Information Processing Unit
47 Sensor control unit
48 Instruction information generator
211 Sensor information processing unit
212 Instruction information generator
214 Program transmission unit
221 Instruction information generation program
421 Instruction information generation program

Claims (7)

A sensor network system comprising a plurality of sensors, a plurality of sensor management devices that receive sensor information from the sensors and control several sensors, and a central management device that performs data communication with the sensor management devices There,
The sensor management device includes:
An external information processing unit for generating control information for controlling the sensor and / or selection information for selecting the sensor information to be transmitted to the information processing device based on the instruction information sent from the information processing device;
A sensor control unit for controlling the sensor based on the control information sent from the external information processing unit;
A sensor information processing unit that processes the selected sensor information based on the selection information sent from the external information processing unit and transmits the selected sensor information to the information processing device;
At least one of the plurality of sensor management devices is the information processing device ,
The sensor management device as the information processing device further includes an instruction information generation unit that generates instruction information and transmits the instruction information to another sensor management device.
The central management device is:
A storage unit that stores a plurality of instruction information generation programs for generating the instruction information based on a predetermined purpose, corresponding to various purposes;
A program transmission unit that takes out the instruction information generation program from the storage unit and transmits the program to a sensor management device including the instruction information generation unit;
An instruction information generation unit of the sensor management apparatus generates instruction information based on an instruction information generation program sent from the central management apparatus. In addition to the sensor management device including the instruction information generation unit, the central management device is also the information processing device,
The central management device is:
An instruction information generation unit that takes out an instruction information generation program corresponding to a certain purpose from the storage unit, generates instruction information based on the extracted instruction information generation program, and transmits the instruction information to the sensor management device;
The sensor network system according to claim 1, further comprising: a sensor information processing unit that processes the sensor information based on the purpose when sensor information is received from the sensor management device.   The sensor network system according to claim 1, wherein a plurality of sensor management apparatuses receive sensor information from at least one of the sensors.   The central management apparatus with which the sensor network system of any one of Claim 1 to 3 is equipped.   The sensor management apparatus with which the sensor network system of any one of Claim 1 to 3 is equipped.   The information processing program for making a computer implement | achieve operation | movement of each part in the sensor management apparatus and / or central management apparatus of any one of Claim 1 to 3.   A computer-readable recording medium on which the information processing program according to claim 6 is recorded.

Images