JP2012027702A - Environmental information acquisition device, portable terminal, environmental information gathering system and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an environmental information acquisition device, a portable terminal and the like which are excellent in convenience and inexpensive.SOLUTION: An environmental information acquisition device 10 performs communication with an environment sensor 20 installed outside that detects the surrounding environment and transmits environmental information representing the detected environment. The environmental information acquisition device 10 comprises; environmental information acquisition means for acquiring the environmental information by communicating with the environmental sensor 20; a storage unit for storing the environmental information acquired by the environmental information acquisition means; and transmission processing means for transmitting the environmental information stored in the storage unit to the exterior. The environmental information acquisition device 10 is loaded inside of a mobile body 3 which is available for other purposes of use.

Description

  The present invention relates to an environment information acquisition device, a portable terminal, an environment information collection system, and a program used in, for example, agriculture, forestry, fisheries, civil engineering, and the like.

  As described in Patent Document 1, this type of environment information acquisition device is used in a field for managing crops, and relays data such as cultivation environment.

JP 2006-146570 A

  However, since such an environment information acquisition apparatus is installed outdoors, the housing has a very robust structure for the environment resistance. And since it is a robust casing, it will have a fixed base that requires further strength to fix it at its installation location, and the environmental information acquisition device described above is limited in installation location and product price There has been a problem of making it expensive.

  The present invention has been made in view of the above points, and provides a convenient and inexpensive environment information acquisition device and portable terminal, an environment information collection system using them, and a program for realizing them. For the purpose.

An environmental information acquisition apparatus according to a first aspect of the present invention includes:
An environmental information acquisition device that communicates with an environmental sensor installed outdoors that detects the surrounding environment and transmits environmental information representing the detected environment.
Environmental information acquisition means for communicating with the environmental sensor to acquire the environmental information;
A storage unit for storing the environmental information acquired by the environmental information acquisition unit;
Transmission processing means for transmitting the environmental information stored in the storage unit to the outside;
With
The environmental information acquisition device is mounted in a mobile body that can be used for other purposes.

A mobile terminal according to a second aspect of the present invention is:
Environmental information acquisition means for detecting the surrounding environment and acquiring environmental information by communicating with an environmental sensor installed outdoors for transmitting environmental information representing the detected environment;
A storage unit for storing the environmental information acquired by the environmental information acquisition unit;
Transmission processing means for transmitting the environmental information stored in the storage unit to the outside;
Is provided.

The program according to the third aspect of the present invention is:
Computer
An environmental information acquisition means for detecting the surrounding environment, communicating with an environmental sensor installed outdoors for transmitting environmental information representing the detected environment, acquiring the environmental information and recording it in a storage unit;
Transmission processing means for transmitting the environmental information stored in the storage unit to the outside;
To function as.

An environmental information collection system according to a fourth aspect of the present invention is:
An environmental sensor installed outdoors that detects the surrounding environment and transmits environmental information representing the detected environment;
An environmental information acquisition device that communicates with the environmental sensor to acquire the environmental information, and transmits the acquired environmental information to the outside;
An environmental information collection server for acquiring the environmental information by acquiring the environmental information transmitted to the outside by the environmental information acquisition device;
With
The environmental information acquisition device is mounted in a mobile body that can be used for other purposes.

An environmental information collection system according to a fifth aspect of the present invention is:
An environmental sensor installed outdoors that detects the surrounding environment and transmits environmental information representing the detected environment;
A portable terminal that communicates with the environmental sensor to acquire the environmental information, and transmits the acquired environmental information to the outside;
An environmental information collection server for acquiring the environmental information by acquiring the environmental information transmitted to the outside by the environmental information acquisition device;
Is provided.

  According to the present invention, it is possible to provide a convenient and inexpensive environment information acquisition device or portable terminal, an environment information collection system using them, and a program for realizing them.

It is a figure which shows the structure of the environmental information collection system which concerns on one Embodiment of this invention. It is a figure which shows the structure of the environmental sensor which concerns on one Embodiment of this invention, and an environmental information acquisition apparatus. It is a figure which shows an example of the data content of the date time information and environmental information which the environmental sensor which concerns on one Embodiment of this invention records. It is a flowchart which shows the environment information acquisition process which the control part of the environment information acquisition apparatus which concerns on one Embodiment of this invention performs. It is a figure which shows an example of the data content of environmental information, date time information, and identification information which are recorded on the memory | storage part of the environmental information acquisition apparatus which concerns on one Embodiment of this invention. It is a flowchart which shows the environment information transmission process which the control part of the environment information acquisition apparatus which concerns on one Embodiment of this invention performs.

  An embodiment according to the present invention will be described with reference to the drawings. In addition, this invention is not limited by the following description and drawing. Needless to say, modifications (including deletion of components) can be added as appropriate to the configurations shown in the following description and drawings. Moreover, in the following description, in order to make an understanding of this invention easy, description of a known technical matter is abbreviate | omitted suitably.

  A configuration of an environment information collection system according to an embodiment of the present invention will be described with reference to FIG. The environmental information collection system according to the present embodiment is used in agriculture, acquires and accumulates temperature in the field, underground temperature, and the like, and provides the user with accumulated information or information obtained by processing the accumulated information by some method. It is.

  The environment information collection system 1 includes an environment information acquisition device 10, an environment sensor 20, an environment information collection server 30, and a computer 40.

  The environmental sensor 20 is configured to include one or more sensors, and a predetermined number is installed at a desired position in the field. The temperature, humidity, underground temperature, soil quality (Ph value), illuminance (sunlight or artificial light) The surrounding environment such as light intensity), atmospheric pressure, and landscape is detected by a sensor. The environment sensor 20 generates and outputs environment information representing the detected environment. The environmental sensor 20 communicates with the environmental information collection device 10 and transmits the environmental information to the environmental information acquisition device 10 (data transmission).

  The environment information acquisition apparatus 10 is a predetermined information processing apparatus and is mounted in the mobile body 3 (for example, installed detachably). The moving body 3 is a vehicle such as a work vehicle (tractor or the like) or a truck. The environment information acquisition apparatus 10 moves as the moving body moves. The environment information acquisition device 10 performs wireless communication in accordance with a communication standard such as ZigBee (registered trademark) with the environment sensor 20 within a predetermined distance range as it moves, and the environment information collection device 10 transmits the environment information. Receive and get. The environment information acquisition apparatus 10 communicates with the environment information collection server 30 using a communication method such as 3G (wireless telephone line) and transmits the acquired environment information to the environment information collection server 30.

  The environment information collection server 30 is a server computer and communicates with the environment information acquisition apparatus 10 to acquire environment information. The environment information collection server 30 accumulates and records this environment information for each environment information acquisition apparatus 10. The environmental information collection server 30 processes this environmental information as appropriate. The environment information collection server 30 communicates with the computer 40 via the network 5 such as the Internet, and distributes environment information or information obtained by processing the environment information (post-processing information) according to a request of the computer 40.

  The computer 40 acquires environmental information and post-processing information from the environmental information collection server 30 according to user operations and the like. The acquired environmental information and post-processing information are used by the processing of the computer 40 or by the user as, for example, judgment materials useful for monitoring the field conditions (weather etc.) and for growing agricultural products.

  Next, the configuration of the environment information acquisition apparatus 10 and the environment sensor 20 will be described in more detail with reference to FIG.

  The environmental sensor 20 includes an illuminance sensor 21a, a humidity sensor 21b, a temperature sensor 21c, an atmospheric pressure sensor 21d, an underground temperature sensor 21e, a soil sensor 21f, an imaging device 21g, a control unit 22, and a communication unit. 23, a battery 24, and a storage unit 25.

  At least a part of the environmental sensor 20 is buried in the ground (field). Then, the surrounding environment as described below is detected, and environment information representing the detected surrounding environment is generated and output.

  The illuminance sensor 21 a outputs an electrical signal corresponding to the intensity (illuminance) of light that illuminates the illuminance sensor 21 a to the control unit 22. In this way, the illuminance sensor 21a detects the illuminance of outside light.

  The humidity sensor 21 b outputs an electrical signal corresponding to the ambient humidity to the control unit 22. In this way, the humidity sensor 21b detects the ambient humidity.

  The temperature sensor 21 c outputs an electrical signal corresponding to the ambient temperature (atmospheric temperature) to the control unit 22. In this way, the temperature sensor 21c detects the temperature.

  The atmospheric pressure sensor 21 d outputs an electrical signal corresponding to the ambient atmospheric pressure to the control unit 22. In this way, the atmospheric pressure sensor 21d detects the atmospheric pressure.

  The underground temperature sensor 21 e outputs an electrical signal corresponding to the surrounding underground temperature to the control unit 22. In this way, the underground temperature sensor 21e detects the underground temperature.

  The soil sensor 21 f outputs an electrical signal corresponding to the surrounding soil (PH) to the control unit 22. In this way, the soil sensor 21f detects the soil.

  The imaging device 21g (camera or the like) images a landscape in a preset direction, and outputs captured image information (electric signal corresponding to the landscape) representing the captured image to the control unit 22. In this way, the imaging device 21g functions as a sensor that detects a landscape.

  The communication unit 23 includes an antenna and the like. The communication unit 23 becomes a medium when the control unit 22 performs wireless communication. In addition, when the environment information acquisition device 10 is located within a predetermined distance, the communication unit 23 receives an environment information transmission request from the environment information acquisition device 10, and sends the received transmission request to the control unit 22. Supply. The control unit 22 performs such communication according to a communication standard such as ZigBee.

  The battery 24 (power source) is composed of a button battery or the like, and appropriately supplies power to necessary components among the components of the environment sensor 20 to operate the environment sensor 20.

  The storage unit 25 is configured by a storage device such as a hard disk or a flash memory. The storage unit 25 records environment information described later in association with date information. The environment information and date information are sequentially recorded in the storage unit 25 by the control unit 22 every predetermined period.

  The control unit 22 is composed of a microcomputer or the like. The controller 22 is normally in a sleep state (standby state) for power saving. The control unit 22 has a built-in calendar unit that measures a predetermined date and time. The control unit 22 refers to the calendar unit, starts up every predetermined period, controls each of the sensors (including the imaging device 21g), and acquires an electrical signal output from each sensor. The control unit 22 generates predetermined data (environment information) representing each environment based on the acquired electrical signal, and records and accumulates the data in the storage unit 23. At this time, the control unit 22 refers to the calendar unit, acquires date / time data (date / time information) representing the date and time when the environment information is acquired, and associates the date / time information with the environment information. In addition, it is recorded in the storage unit 23.

  FIG. 3 shows data contents of a plurality of date / time information recorded in the storage unit 25 and a plurality of environment information associated with each date information. In FIG. 3, environmental information is acquired and recorded every hour. For example, in the top row, the date / time information is data representing 10:00 on July 10, 2010, and the environment information is illuminance, a1 lux (lx), humidity, b1 percent (%), It is data representing information including each value of atmospheric temperature as c1 °, atmospheric pressure as d1 Pascal (Pa), underground temperature as e1 °, soil as f1 (PH), and image 1 as a landscape. .

  In addition, the control unit 22 is activated when a request for transmission of environmental information is received via the communication unit 23, and the date / time information and environmental information of all sets recorded in the storage unit 25 are Is acquired from the storage unit 25, and the acquired date / time information and environment information are transmitted to the environment information acquisition device 10 via the communication unit 23 together with identification information unique to the environment information acquisition device 10 that is set in advance. To do. Note that the control unit 22 deletes the transmitted information from the storage unit 25. In this way, the control unit 22 transmits the environment information to the environment information acquisition apparatus 10 that has entered within a predetermined distance.

  The environment information acquisition apparatus 10 includes a control unit 11, a storage unit 12, a display unit 13, an operation unit 14, a first communication unit 15, a second communication unit 16, a position detection unit 17, a power supply And a connection unit 18. The environment information acquisition apparatus 10 may be, for example, a device in which the following functions are added to a terminal of a car navigation system.

  The control unit 11 includes a microcomputer including a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like. The control unit 11 (CPU) controls the entire environment information acquisition apparatus 10 according to a program recorded in the ROM, and performs processing described later.

  The storage unit 12 is configured by a storage device such as a hard disk or a flash memory, and data such as environmental information is recorded by the control unit 11.

  The display unit 13 includes a liquid crystal display device or the like, and displays a predetermined screen under the control of the control unit 11, for example.

  The operation unit 14 includes, for example, a contact sensor provided in the liquid crystal display device, and supplies operation information corresponding to an operation from the user to the control unit 11.

  In the present embodiment, the display unit 13 and the operation unit 14 constitute a touch panel.

  The first communication unit 15 is configured by a communication device including an antenna and the like. The first communication unit 15 serves as a medium when the control unit 11 performs communication. The control unit 11 communicates with the environment information collection server 30 via the first communication unit 15 by a communication method such as 3G.

  The second communication unit 16 is configured by a communication device including an antenna and the like. The second communication unit 16 serves as an intermediary when the control unit 11 performs communication. The control unit 11 communicates with the environment information acquisition device 10 through the second communication unit 16 according to a communication standard such as ZigBee.

  The position detection unit 17 includes a GPS (Global Positioning System) receiver and the like, and detects the position of the environment information acquisition device 10. The position detection unit 17 detects the position of the environment information acquisition device 10 under the control of the control unit 11 and supplies the control unit 11 with position information representing this position (for example, expressed by latitude and longitude). .

  The power supply connection unit 18 is electrically connected to a battery 3a included in the moving body 3 connected to the cord via a cord, a cigar socket of the moving body 3, and the like. The power supply connection unit 18 is configured by a predetermined power supply circuit or the like, and operates the environment information acquisition apparatus 10 based on the power supplied from the battery 3a by transforming the voltage applied from the battery 3a.

  The moving body 3 includes an ECU (electronic control unit), and operation information is supplied from the environmental information acquisition device 10 from the ECU. The operation information is data representing, for example, the speed of the moving object, the operation time, and the like.

  In the present embodiment, the control unit 11 has a built-in calendar unit that measures a predetermined date and time. The control unit 11 refers to the calendar unit, controls the position detection unit 17 for each predetermined period, causes the position detection unit 17 to detect the position, and outputs the position information. The control unit 11 acquires the position information supplied from the position detection unit 17, refers to the calendar unit, acquires date / time data (date / time information) representing the date and time when the environment information is acquired, and the date The time information and the position information are recorded in the storage unit 23 in association with each other. The control unit 11 periodically performs these processes.

  In addition, the control unit 11 acquires movement information supplied from the ECU, refers to the calendar unit, acquires date / time data (date / time information) representing the date and time at the time of acquiring environment information, and the date time The information and the movement information are associated and recorded in the storage unit 23. The control unit 11 always performs these processes when the moving body 3 is operating.

  Said date time information and said position information, and said date time information and said movement information are information which shows the driving | running state etc. of the moving body 3, and are contained in operation information in this embodiment. The operation information may include only one of position information and movement information, and may not include date / time information.

  Next, environmental information acquisition processing performed by the control unit 11 will be described with reference to FIG. The environment information acquisition process is started when the user gives an instruction to start the environment information acquisition process by operating the operation unit 14. When an operation signal representing such an operation is supplied from the operation unit 14, the control unit 11 starts an environment information acquisition process. The control unit 11 appropriately displays a predetermined operation screen on the display unit 13, and the user performs a predetermined process while viewing the operation screen.

  First, the control unit 11 wirelessly transmits an environment information transmission request signal via the second communication unit 16 (step S101). This transmission request signal arrives only within a predetermined distance from the environment information acquisition apparatus 10.

  Next, the control unit 11 determines whether the user has given an instruction to end the acquisition of environment information by operating the operation unit 14 (step S102). When an operation signal representing such an operation is supplied from the operation unit 14, the control unit 11 determines that an environment information acquisition end instruction has been given (step S <b> 102; YES), and ends the present process. In addition, if the operation signal representing such an operation is not supplied from the operation unit 14, the control unit 11 determines that the environment information acquisition end instruction is not given (step S <b> 102; NO), and the process of step S <b> 103. I do.

  The control unit 11 determines whether environment information has been acquired in the process of step S103. When the environmental sensor 20 is within a predetermined distance from the environmental information acquisition apparatus 10 (the moving body 3), the environmental sensor 20 receives a transmission request. Upon receiving the transmission request, the environmental sensor 20 is activated and transmits one or more sets of environmental information and date / time information recorded in the storage unit 25 together with its own identification information to the control unit 11 (hereinafter, referred to as the following). Then, this information is called environmental information etc.). In this case, the control unit 11 receives environment information and the like wirelessly via the second communication unit 16. When such a reception is received, the control unit 11 determines that the environment information has been acquired (step S103; YES), and performs the process of step S104. Further, when there is no such reception, the control unit 11 determines that the environment information has not been acquired (step S103; NO), and performs the process of step S101. In the present embodiment, by such processing, the control unit 11 performs short-range communication with the environmental sensor 20 that is within a predetermined distance, or until the environmental sensor 20 performs short-range communication with the environmental sensor 20 ( Wait until it is within a certain distance.

  In step S <b> 104, the control unit 11 records the acquired environment information or the like in the storage unit 12, and displays that fact (for example, “environment information has been acquired”) on the display unit 13. Then, the control part 11 performs the process of step S101 again.

  In this process, the control unit 11 tries to communicate with the environmental sensor 20 until an instruction to end acquisition of environmental information is received, and records the environmental information and the like transmitted by the environmental sensor 20 in the storage unit 12 for each environmental sensor 20. Go. The contents of the environmental information and the like recorded in this way are shown in FIG. As shown in FIG. 5, a plurality of sets of environment information and date / time information are recorded in association with the identification information of the environment sensor 20 for each environment sensor 20.

  Next, environmental information transmission processing performed by the control unit 11 will be described with reference to FIG. The environment information transmission process is started when the user gives an instruction to start the environment information transmission process by operating the operation unit 14. When an operation signal representing such an operation is supplied from the operation unit 14, the control unit 11 starts an environment information transmission process. The control unit 11 appropriately displays a predetermined operation screen on the display unit 13, and the user performs a predetermined process while viewing the operation screen.

  First, the control unit 11 acquires environmental information and operation information recorded in the storage unit 12 from the storage unit 12 (step S201). And the control part 11 transmits the acquired environmental information etc. and operation information to the environmental information collection server 30 via the 1st communication part 15 with the identification information preset in the environmental information acquisition apparatus itself. (Step S202), and this process is terminated.

  The environment information collection server 30 records the environment information and the operation information received from the environment information acquisition device 10 together with the identification information of the environment information acquisition device 10. At this time, the environment information and the operation information are recorded in association with the identification information of the environment information acquisition device 10. In this way, the environment information and the operation information are recorded in the storage unit 12 for each environment information acquisition device 10. The image collection server 30 may perform processing such as predetermined editing on the received environment information and operation information (information after processing (information after processing) is also recorded in the storage unit). In addition, the computer 40 accesses the environmental information collection server 30 by a user operation, downloads environmental information, operation information, and post-processing information from the environmental information collection server, and performs predetermined processing using the information. . Thereby, for example, the environment in the field can be managed as data.

  In the present embodiment, the environment sensor 20 detects the surrounding environment by the configuration and processing as described above, and transmits environment information representing the detected environment. And this environmental sensor 20 is installed outdoors. The environment information acquisition apparatus 10 communicates with the environment sensor 20 to acquire environment information (control unit 11), a storage unit 12 that stores the environment information acquired by the environment information acquisition unit, and a storage Transmission processing means (control unit 11) for transmitting the environment information stored in the unit 12 to the outside. Then, the environment information acquisition apparatus 10 is mounted in the movable body 3 that can be used for other purposes (for example, installed on a dashboard or the like). Thereby, since the moving body 3 has a role of a housing, there is no problem that the installation place is limited and the product price is expensive. For this reason, the environment information acquisition apparatus 10 according to the present embodiment is a convenient and inexpensive apparatus. In particular, the environmental information acquisition device 10 may be a device having other functions such as a car navigation terminal device or a vehicle instrument, and in this case, the environmental information acquisition device 10 is convenient and inexpensive. Device.

  In the present embodiment, the environment information acquisition apparatus 10 is connected to the battery 3a in the moving body 3 and operates by the power supplied by the battery 3a by the configuration and processing as described above. As a result, it is not necessary to supply power to the environment information acquisition apparatus 10 from the outside, and it is easy to secure the power. For this reason, the environment information acquisition apparatus 10 according to the present embodiment is a convenient and inexpensive apparatus.

  In the present embodiment, the control unit 11 (transmission processing means) also transmits operation information to the environment information collection server 30 via the environment information acquisition device 10 by the configuration and processing as described above. As a result, not only the environment but also the operation information of the mobile 3 can be managed. As a result, for example, operation information under a certain environment can be grasped, so that the operation status of the mobile body 3 can be predicted under a similar environment in the future, for example.

  As described above, in this embodiment, the environment information acquisition device 10 can bridge the difference (relay of data) by absorbing the difference in communication protocol between the environment sensor 20 and the environment information collection server 30. At the same time, the operation information can be added to the environment information and transmitted to the environment information collection server 30.

  Moreover, in the above, the environment information acquisition device 10 separately performs acquisition of environment information and operation information and transmission of these information. Thus, for example, even in a situation where 3G radio waves are poor, the environmental information acquisition apparatus 10 can transmit information to the environmental information collection server 30 with high accuracy. The environmental information acquisition apparatus 10 may automatically transmit these information immediately after acquiring environmental information and operation information. Thereby, the environment information acquisition apparatus 10 can quickly transmit information to the environment information collection server 30.

  In addition, the environment information acquisition apparatus 10 and the environment sensor 20 may communicate with each other by wire. In this case, both of the communication units are connection units that connect wired cables (for example, USB connection (Universal Serial Bus)).

  Moreover, the identification information of the environmental sensor 20 may be set by the user. For example, the control unit 11 receives an input of identification information during the process of step S104. When the user inputs identification information via the operation unit 14, the control unit 11 records the identification information corresponding to this operation in association with the recording of the environment information. Thereby, the identification information can be set according to the user's preference.

  Since the environmental information includes a captured image, the field information can be visually grasped.

  The environment information collection system 1 can be used not only for fields but also for other agriculture such as paddy fields. Moreover, the environmental information collection system 1 can also be used for forestry such as mountainous areas. Moreover, the environmental information collection system 1 can also be used for fisheries such as the sea and rivers. The environment information collecting system 1 can also be used for civil engineering work. The mobile body 3 may also be a ship or the like depending on the intended use. Moreover, the sensor with which the environment sensor 20 is provided is not limited to the above combination, and can be changed or omitted as appropriate. In particular, these sensors are appropriately changed depending on the application. For example, when the environmental sensor 20 is installed in a paddy field, the underground temperature sensor 21e can be, for example, a water temperature sensor that outputs an electrical signal corresponding to the surrounding water temperature and detects the water temperature. In addition, the soil sensor 21f can be a water quality sensor that detects the water quality and outputs an electrical signal according to the surrounding water quality (PH), for example. For example, when environmental information is used in civil engineering, the environmental information and post-processing information are used for monitoring the situation at the work site (weather etc.) and for judging abnormalities in dangerous areas. When used, it is used as a judgment material to monitor the situation of the farm (weather etc.) and to cultivate farmed fish.

  Further, the environment information collection server 30 may transmit environment information and operation information to the environment information acquisition apparatus 10. The environment information acquisition apparatus 10 displays the contents of these information on the display unit 13. As a result, environmental information and operation information are fed back to the user of the environmental information acquisition apparatus 10.

  In addition, the sensor included in the environmental sensor 20 may be installed outside the environmental sensor 20.

  Note that the control unit 11 (transmission processing means) may transmit environmental information (environment information, operation information, etc.) to the mobile terminal (mobile phone) via the first communication unit 15. For example, the control unit 11 (transmission processing unit) communicates with the portable terminal via the first communication unit 15 according to a communication standard such as BlueTooth (registered trademark) and transmits the information to the portable terminal. In this case, the mobile terminal transmits the environment information (environment information, operation information, etc.) to the environment information collection server 30 using a 3G communication method (mobile phone communication method). In this way, the environment information is transmitted to the environment information collection server 30 via the mobile terminal. That is, the environment information collection server 30 may acquire the environment information transmitted to the outside (here, the mobile terminal) by the control unit 11. With such a configuration, the environment information can be appropriately transmitted to the environment information collection server 30 by a conventionally established communication method (3G communication method using a portable terminal).

  Note that the program may be one that causes a CPU to perform the above processing in cooperation with an OS (Operation System). In this case, the OS is also recorded in the ROM or the like. Further, the program may be recorded on a portable storage medium (for example, CD-ROM (Compact Disk Read Only Memory), DVD-ROM (Digital Versatile Disk Read Only Memory)) and supplied (installed). The program may be supplied to the environment information acquisition apparatus 10 via a network. In these cases, the program is recorded in the storage unit 12 such as a flash memory.

  The ROM, flash memory, or portable storage medium in which the program is recorded becomes a computer-readable storage medium that stores the program. The program may operate the environment information acquisition apparatus 10 in which at least a part of the functions is realized by a dedicated circuit. That is, the environment information acquisition apparatus 10 may be anything that performs the above-described processing as a whole, and the program only needs to operate such an environment information acquisition apparatus 10.

  The environmental information acquisition device may be a mobile terminal (such as a mobile phone) having the above-described configuration. Such a portable terminal can be configured by using a conventional one, and does not cause a problem in a robust casing or securing a power source, and is a convenient and inexpensive portable terminal. In this case, the mobile terminal is not mounted on the moving body 3. In the above description, the environment information acquisition apparatus 10 does not have a predetermined power source, but if it is a mobile terminal, the power source itself has.

DESCRIPTION OF SYMBOLS 1 Environmental information collection system 3 Mobile body 5 Network 10 Environmental information acquisition apparatus 11 Control part 20 Environmental sensor 30 Environmental information collection server 40 Computer

Claims (9)

An environmental information acquisition device that communicates with an environmental sensor installed outdoors that detects the surrounding environment and transmits environmental information representing the detected environment.
Environmental information acquisition means for communicating with the environmental sensor to acquire the environmental information;
A storage unit for storing the environmental information acquired by the environmental information acquisition unit;
Transmission processing means for transmitting the environmental information stored in the storage unit to the outside;
With
The environmental information acquisition device is mounted in a mobile body that can be used for other purposes.
An environmental information acquisition device characterized by that. The environmental information acquisition device is connected to a battery in the mobile body and operates with electric power supplied by the battery.
The environment information acquisition apparatus according to claim 1. The transmission processing means transmits the environment information to a server;
The environment information acquisition apparatus according to claim 1, wherein the environment information acquisition apparatus is an environment information acquisition apparatus. The transmission processing means transmits the environment information to a mobile terminal.
The environment information acquisition apparatus according to claim 1, wherein the environment information acquisition apparatus is an environment information acquisition apparatus. The storage unit stores operation information about the moving body,
The transmission processing means also transmits the operation information together with the environmental information.
The environment information acquisition apparatus according to claim 1, wherein the environment information acquisition apparatus is an environment information acquisition apparatus. Environmental information acquisition means for detecting the surrounding environment and acquiring environmental information by communicating with an environmental sensor installed outdoors for transmitting environmental information representing the detected environment;
A storage unit for storing the environmental information acquired by the environmental information acquisition unit;
Transmission processing means for transmitting the environmental information stored in the storage unit to the outside;
A portable terminal comprising: Computer
An environmental information acquisition means for detecting the surrounding environment, communicating with an environmental sensor installed outdoors for transmitting environmental information representing the detected environment, acquiring the environmental information and recording it in a storage unit;
Transmission processing means for transmitting the environmental information stored in the storage unit to the outside;
A program characterized by functioning as An environmental sensor installed outdoors that detects the surrounding environment and transmits environmental information representing the detected environment;
An environmental information acquisition device that communicates with the environmental sensor to acquire the environmental information, and transmits the acquired environmental information to the outside;
An environmental information collection server for acquiring the environmental information by acquiring the environmental information transmitted to the outside by the environmental information acquisition device;
With
The environmental information acquisition device is mounted in a mobile body that can be used for other purposes.
Environmental information collection system characterized by that. An environmental sensor installed outdoors that detects the surrounding environment and transmits environmental information representing the detected environment;
A portable terminal that communicates with the environmental sensor to acquire the environmental information, and transmits the acquired environmental information to the outside;
An environmental information collection server for acquiring the environmental information by acquiring the environmental information transmitted to the outside by the environmental information acquisition device;
An environmental information collecting system characterized by comprising:

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