JP2005312410A - Automatic acquisition system of experimental observation data by web camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an automatic acquisition system for automatically acquiring experimental details (theme/condition), scene image of an experimental phenomenon and environmental data such as date and hour/temperature/humidity, illumination of light, wind speed, clean degree of atmosphere or air, earthquake intensity and sound, and enabling the indication of the data on one image screen and preserving as a file. <P>SOLUTION: This automatic acquisition system is such one that experiment environmental data observation equipment 2, a web camera 3 set on an observation site, an experimental observation terminal 4, and an experimental management server system 5 are connected through Internet 10. The experiment environmental data observation equipment 2 transmits observation data about environment in the observation site to the experimental management server system 5. The web camera 3 transmits the image data of the observation site to the experimental management server system 5 and indicates on a web display 8 of the experimental observation terminal 4. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention automatically acquires environmental data such as scene images (images) of experimental events, temperature, humidity, light illuminance, wind speed, cleanness of air or air, seismic intensity, sound, etc. Web camera experiment observation that can be displayed on a single video (image) screen and saved as a file by adding data such as themes, conditions, experimental methods, observers), date and time (including minutes and seconds) The present invention relates to an automatic data acquisition system.

  When acquiring the growth status of the plant and its environmental change data in the field, it is necessary to actually observe the site. In the same way, observation data is acquired in the same way in the room in the experiment of the chemical reaction or the animal experiment using guinea pigs.

  The experimental data must follow changes in the state data at various time intervals (schedules) such as every hour, every day, every week, every month, and so on. Therefore, in the observation of the experiment, setting of the acquisition date and time (including minutes and seconds) of the experiment data and the storage interval thereof are important.

  It is also an important requirement to obtain environmental data at the observation site for observation in experiments. Usually, environmental data such as temperature, humidity, light illuminance, wind speed, air or air cleanliness, seismic intensity, sound, etc. are important as environmental data that is important for experiments on organisms, animals, chemical reactions, etc. There is data.

  In addition, there are individual methods for acquiring data relating to equipment and communication for acquiring data on temperature, humidity, light illuminance, wind speed, air or air cleanliness, and communication. For example, a color difference meter for measuring the state of plants, a chlorophyll meter, a radiation thermometer, a thermometer for measuring atmospheric and weather conditions, a thermometer, a hygrometer, an anemometer, a rain gauge, and a soil condition. Measure the lawn growth environment with a thermometer, moisture meter, hydrogen ion concentration pH meter, resistance meter, etc. for measurement, import the measurement results into a computer, analyze the measurement results, and send them to the soil Devices for controlling the amount of heat, the amount of light emitted, the amount of air blown, the amount of water spray, the amount of fertilization, etc. are known (see Patent Document 1).

  On the other hand, it is already used in crime prevention, disaster prevention, etc., to watch a video of the situation in the field via a network and to store the video with a Web live camera. For example, in a society where a communication line such as the Internet has developed, a shopping system via the Internet or the like is used.

A camera such as a web camera is installed at a sales site such as a store, a product is photographed with this camera, and a video of the product is sent in real time to a user terminal connected to the Internet. A system for selling products that enables the purchase of products while viewing product images is known (see Patent Documents 2 and 3). Even in the observation of an experiment, it is possible to acquire the event of the experiment as a video.
Japanese Patent Publication No. 8-2216 JP 2003-331152 A JP 2003-296421 A

  Usually, observation of experiments is carried out using equipment that allows humans to directly capture camera images and acquire environmental data such as temperature, humidity, and seismic intensity. Experiments may not be possible due to time, space and cost constraints.

  Even when experiment data is processed using a network, it is necessary to individually acquire each data and totalize those individual digital data files. In addition, during these tabulation operations, it may not be possible to guarantee that the observation data is accurate due to the tabulation mistakes of the workers and the arbitraryness of the workers and researchers.

The present invention aims to solve the above-mentioned conventional problems, and has the following problems.
(1) Scene images (images) of experimental events, environmental data such as temperature, humidity, light illuminance, wind speed, air or air cleanliness, seismic intensity, sound, etc., date and time (including minutes and seconds) data and experiment details ( Themes, conditions, experimental methods, observers, etc.) are added, and these data can be displayed on a single video (image) screen.

(2) Scene images (images) of experimental events, environmental data such as temperature, humidity, light illuminance, wind speed, air or air cleanliness, seismic intensity, sound, etc., date and time (including minutes and seconds) data and experiment details ( Themes, conditions, experimental methods, observers, etc.) are added, and these data can be saved as a single video (image) file.

(3) Scene images (images) of experimental events and environment data such as temperature, humidity, light illuminance, wind speed, air or air cleanliness, seismic intensity, sound, etc. can be acquired and stored automatically. Furthermore, it is possible to automatically set the period for acquiring data and the image capturing time in the case of video.
(4) Centralized management is possible with one server via the network.

  In order to solve the above-mentioned problems, the present invention provides an experimental environment data observation device, a web camera installed at an experiment site, an experiment observation terminal, and an experiment management server system connected by a communication line. An automatic observation observation data acquisition system is provided.

  The experimental environment data observation device may be configured to transmit environmental data observed through a communication line to the experiment management server system.

  The web camera may transmit video data of an observation site to the experiment management server system via a communication line, and the video data may be displayed on a web display unit of the experiment observation terminal.

  The experiment management server system includes an observation data reception unit, a reception data integration processing unit, a date / time processing unit, an experiment content registration unit, a layer display processing unit, a camera signal transmission / reception unit, a video output unit, an image storage processing unit, An image storage unit, a Web display processing unit, and an input unit are provided. The environment data acquired by the experimental environment data observation device and the video data captured by the web camera can be displayed on the same screen and stored as image data. It is good also as a structure which is possible.

  The experimental observation terminal receives an operation signal from the input unit, thereby acquiring environment data by the experimental environment data observation device and taking a video of the observation site by the web camera in real time and storing the image. The image data may be browsed.

  In order to solve the above-mentioned problems, the present invention automatically obtains experimental environment data observation equipment, a web camera installed at an observation site, an experimental observation terminal, and an experimental management server system connected via a communication line. The experiment environment data observation device transmits the observed environment data to the experiment management server system via a communication line, and the web camera transmits the observation site video data via the communication line. Transmitted to the management server system, and displayed on the web display section of the experiment observation terminal, the experiment management server system includes an observation data reception section, a reception data integration processing section, a date / time processing section, an experiment content registration section, a layer Display processing unit, camera signal transmission / reception unit, video output unit, image storage processing unit, image storage unit, Web display processing unit, and input It is possible to display the environment data and the video data on the same screen and store them as an image, and the experimental observation terminal inputs the operation signal from the input unit, thereby allowing the experimental environment to be displayed. Web camera experimental observation characterized in that acquisition of environmental data by a data observation device and photographing of an observation site video by the web camera are performed in real time and the stored image data can be browsed Provide an automatic data acquisition system.

  The environment data may be simultaneously displayed as a layer on the image range of the camera on which the image data captured by the web camera is displayed, and the image data and the environment data may be stored as one image file.

  It is good also as a structure which can set beforehand the date or time interval which acquires the environmental data by the said environmental data observation apparatus automatically.

  The experiment content registration unit is configured such that experiment content data including an observation theme, an observer, an outline, and environmental conditions are registered in advance, and the experiment content data can be displayed on a display screen of video data captured by a web camera. It is good.

Since the present invention has the above solution, the following effects can be obtained.
(1) Since observation is possible even when the researcher is not at the observation site, labor costs in the research can be reduced.
(2) Observation is possible from anywhere in the world.
(3) It is not necessary to totalize individual data.
(4) It becomes difficult to make mistakes and tampering with the tabulation work of experimental data, which supports the accuracy and authenticity of the data.
(5) It can be applied to various fields such as disaster prevention (volcanic activity, earthquake prediction, typhoon), education (observation), crime prevention, and tourism.

  The best mode for carrying out the web camera experiment observation data automatic acquisition system according to the present invention will be described below with reference to the drawings based on the embodiments.

  FIG. 1 is a block diagram showing the overall configuration of a web camera experiment observation data automatic acquisition system 1 according to the present invention. The web camera experiment observation data automatic acquisition system 1 according to the present invention includes an experimental environment data observation device 2, a web camera 3, an experiment observation terminal 44, and an experiment management server system 55 installed at an observation site. , “Internet” is used, but other “communication lines” may be used.)

  The experimental observation terminal 4 is a normal personal computer terminal, and has a function of inputting and transmitting an input unit 6 (camera operation command signal, browsing request command signal, and other data to the experiment management server system 5). .), Output unit 7 (a part having a function of receiving various data such as video data output from the experiment management server system 5. Although it is shown on the left and right in FIG. Actually, they are the same part.), And includes a Web display unit 8 for displaying image data and the like from the output unit 7.

  In this embodiment, the experimental environment data observation device 2 is provided with a temperature / humidity meter, an anemometer, a seismic intensity meter, and an illuminance meter, and can observe temperature / humidity, wind speed, seismic intensity, light illuminance, and the like. . The experimental environment data observation device 2 may be arranged with other experimental environment data observation devices for observing environmental data such as cleanliness of air or air, sound, and the like according to the observation purpose.

  Each of the experimental environment data observation devices 2 is connected to the data transmission unit 9 and further connected to the observation data reception unit 11 of the experiment management server system 5 via the Internet 10. With this configuration, the environmental data observed by the experimental environment data observation device 2 is transmitted to the observation data receiving unit 11 of the experiment management server system 5 through the data transmission unit 9.

  The web camera 3 (web camera) includes a video shooting unit, a video output unit, and an operation control unit (a part that controls the shooting operation and shooting direction of the camera). The camera signal transmission / reception unit 12 is connected.

  The experiment management server system 5 includes an observation data reception unit 11, a camera signal transmission / reception unit 12, a reception data integration processing unit 13, a date / time management unit 14, a date / time processing unit 15, a layer display processing unit 16, a video output A unit 17, an experiment content registration unit 18, an image storage processing unit 19, an image storage unit 20, a Web display processing unit 21, and an input unit 22 are included.

  The experiment management server system 5 can display the environment data acquired by the experiment environment data observation device 2 and the video data acquired by the web camera 3 installed at the observation site on the same screen in the Web display processing unit 21. It is possible to process the data into data, further store it as image data in the image storage unit 20, and transmit it to the experimental observation terminal 4.

  Hereinafter, the experiment management server system 5 will be described in detail. The observation data receiving unit 11 has a function of receiving experimental environment data such as temperature / humidity acquired by various experimental environment data observation devices 2 such as a temperature / humidity meter and transmitting it to the received data integration processing unit 13. It is.

  The reception data integration processing unit 13 has a function of organizing and integrating various experimental environment data such as a temperature / humidity meter.

  The experiment content registration unit 18 registers in advance various data related to the experiment content (referred to as “experiment content data”), such as the experiment observation name, observation theme, observer, overview, environmental conditions, experiment method, and the like. It has a function of transmitting to the display processing unit 16 and providing it for layer display.

  Specifically, the experiment content data is input at the input unit 6 of the experiment observation terminal 4 (the terminal of the administrator of the experiment management server system 5 or the user of this system), and this is input to the experiment management server system 5. To the experiment content registration unit 18 in advance.

  The date / time management unit 14 is originally a part having a date management function built in the computer.

  The date / time processing unit 15 is a data that can display data (referred to as “date / time data”) related to the date and time (including date and time, minutes, and seconds) output from the date / time management unit 14 in a layered manner on the video screen. In addition, it has a function of performing conversion processing to data that can be displayed on the Web, and transmitting this date / time data to the layer display processing unit 16.

  Further, the date / time processing unit 15 can display layers of “observation site video data” acquired by the web camera 3 and experimental environment data, experiment content data, date data, etc. acquired by the experimental environment data observation device 2. It has a function of managing and controlling a schedule for simultaneously storing processed data (hereinafter referred to as “experiment layer display data”).

  That is, at the input unit 6 of the experiment observation terminal 4 (the administrator of the experiment management server system 5 or the user of this system), the administrator or the user, for example, 1 hour later, 1 day later, 1 week later Or, input the storage schedule of “observation site video data” and “experiment layer display data” at the date and time or the storage interval, such as every hour, every day, every week, etc. 22 and further registered in the date / time processing unit 15.

  Then, the date / time processing unit 15 transmits such a storage schedule to the image storage processing unit 19 and simultaneously executes the storage of “observation site video data” and “experiment layer display data”.

  The layer display processing unit 16 receives integrated data relating to various experimental environments such as a temperature / humidity meter from the received data integration processing unit 13, receives experimental content data from the experimental content registration unit 18, and further performs date / time processing. The date / time data signal is received from the unit 15. Then, these data are processed as layer displayable data (this is referred to as “experimental layer display data”) and transmitted to the Web display processing unit 21.

  The camera signal transmission / reception unit 12 receives the operation data (operation signal) of the web camera 3 input to the input unit 6 of the experiment observation terminal 4 by the administrator or the user via the input unit 22, and receives it. In addition to being transmitted to the camera 3, it has a function of receiving “video data of an observation site” acquired by the web camera 3 from the web camera 3 and transmitting it to the video output unit 17.

  That is, camera operation data (data relating to shooting operations such as shooting direction and shooting time) input by the administrator or user in the input unit 6 of the experiment observation terminal 4 is managed via the Internet 10. The data is transmitted from the input unit 22 of the server system 5 to the camera signal transmission / reception unit 12.

  Then, the camera signal transmission / reception unit 12 transmits the operation data of the web camera 3 to the operation control unit of the web camera 3, and the operation control unit of the web camera 3 executes the web data based on the operation data of the web camera 3. It is possible to control the shooting direction and shooting operation of the web camera 3 by controlling the shooting unit of the camera 3.

  The “video data at the observation site” obtained by photographing with the web camera 3 in this way is transmitted from the video output unit 17 of the web camera 3 to the camera signal transmission / reception unit 12 of the experiment management server system 5. The camera signal transmission / reception unit 12 transmits the “observation site video data” to the Web display processing unit 21 via the video output unit 17.

  The Web display processing unit 21 is a layer displayable data (referred to as “experimental layer display data” as described above) composed of observation data, experiment content data, and date / time data related to the experimental environment from the layer display processing unit 16. ) And “video data at the observation site” from the video output unit 17.

  Then, the Web display processing unit 21 processes the “experiment layer display data” and the “observation site video data” into video data (image data) that can be displayed on the web, and the experimental observation terminal 4 via the Internet 10. To the output unit 7.

  The experimental observation terminal 4 can display the “experiment layer display data” and the “observation site video data” received by the output unit 7 on the Web display unit 8. The web display processing unit 21 of the experiment management server system 5 and the web display unit 8 of the experiment observation terminal 4 may be provided in the same personal computer.

  Further, the Web display processing unit 21 transmits “experiment layer display data” and “video data at the observation site” to the image storage processing unit 19 for image storage. That is, when the image storage processing unit 19 receives the storage schedule data of the observation data from the date / time processing unit 15 and transmits this storage schedule data to the Web display processing unit 21, the Web display processing unit 21 stores the storage schedule data. Based on the schedule data, “experimental layer display data” and “observation site video data” are transmitted to the image storage processing unit 19 and further transmitted to the image storage unit 20, and “experimental layer display data” and “observation site display data” are transmitted. Video data "is automatically saved (automatic backup).

  Further, the image storage processing unit 19 inputs a browsing request command signal (operation signal for browsing) to the input unit 6 of the experiment observation terminal 4, and this signal is transmitted to the experiment management server system 5 via the Internet 10. When the browsing request command signal is transmitted to the input unit 22 and further transmitted to the image storage processing unit 19, the “experiment layer display data” and the “observation site video data” are transmitted from the image storage unit 20 to the Web display processing unit 21. Further, it is sent to the output unit 6 of the experimental observation terminal 4 and can be displayed on the Web display unit 8.

(Function)
(1) Path procedure of observation data and observation site video data FIG. 2 is a flowchart for explaining a signal path procedure for displaying “experiment layer display data” and “observation site video data” on the same web display screen. is there.

(B) Experimental environment data observation equipment 2 (temperature / hygrometer, anemometer, seismic intensity meter, illuminometer, etc.) operates at the observation site for observation.
(B) Experimental environment data Observation data (observation data such as temperature / humidity, wind power, seismic intensity, illuminance, etc.) acquired by the observation device 2 is the observation data of the experiment management server system 5 via the data transmission unit 9 and the Internet 10. It is transmitted to the receiving unit 11.

(C) The observation data is sent to the reception data integration processing unit 13, and the raw observation data is processed into desired data and processed. For example, a difference from the previously acquired data is calculated and added. The observation data is sent from the received data integration processing unit 13 to the layer display processing unit 16.
(D) On the other hand, the date / time management unit 14 transmits date / time data to the date / time processing unit 15.
(E) Date / time processing unit 15 further transmits date / time data to layer display processing unit 16.

(F) In the layer display processing unit 16, the observation data from the received data integration processing unit 13 is added to the date / time data from the date / time processing unit 15 and the experiment content data from the experiment content registration unit 18 (the flow in FIG. In addition, the data is processed into data that can be displayed on the video screen (“experimental layer display data”). The “experiment layer display data” is sent to the Web display processing unit 21.

(G) The web camera 3 installed at the observation site images the event at the experiment site and acquires “video data at the observation site”.
(H) “Video data of observation site” acquired by being photographed by the web camera 3 is transmitted to the web camera transmission / reception unit of the experiment management server system 5 via the Internet 10.
(I) Furthermore, “video data at the observation site” is transmitted to the video output unit 17 and is transmitted from the video output unit 17 to the Web display processing unit 21.

(N) The web display processing unit 21 simultaneously processes the “experimental layer display data” from the layer display processing unit 16 and the “observation site video data” from the video output unit 17 into data that can be displayed on the web.
(L) “Experiment layer display data” and “observation site video data” processed into data that can be displayed on the Web are transmitted to the output unit 7 of the experimental observation terminal 4 via the Internet 10 and are displayed on the Web display unit 8. The “experiment layer display data” is displayed as a layer of image data together with the “observation field video data”.

(2) Image Storage Signal Path Procedure FIG. 3 is a flowchart for explaining a signal path procedure for displaying the flow of the date / time data signal.
(B) The server administrator or user can, for example, 1 hour later, 1 day later, 1 week later, 1 hour later, 1 day, 1 week, etc. Enter the storage schedule of the "observation site video data" and "experiment layer display data" at the date and time or the storage interval.
(B) The schedule data is transmitted to the input unit 22 of the experiment management server system 5 via the Internet 10 and registered in the date / time processing unit 15.

(C) Based on the registered schedule data, the date / time processing unit 15 periodically issues an image storage command to the image storage processing unit 19.
(D) Based on this image storage command, the image storage processing unit 19 transmits an image storage signal to the Web display processing unit 21 to store the image data to be stored (“experiment layer display data” and “observation site”). From the Web display processing unit 21.
(D ') The Web display processing unit 21 receives “experimental layer display data” from the layer display processing unit 16 and also receives “video data at the observation site” from the video output unit 17.

(E) The image storage processing unit 19 transmits the image data to be stored received from the Web display processing unit 21 to the image storage unit 20 and stores it. The stored image data is converted into a database each time the image data is stored.
(F) The image data stored in the image storage unit 20 is also sent to the output unit 7 of the experimental observation terminal 4 via the Internet 10 and stored in the storage unit (not shown in FIG. 1) of the experimental observation terminal 4. Automatically backed up.

(G) When the server administrator or the user browses the image data stored in the image storage unit 20, the experiment manager manages the browsing request command signal from the input unit of the experiment observation terminal 4 via the Internet 10. A browsing request command signal is transmitted to the input unit 22 of the server system 5, the image stored in the image storage unit 20 is extracted via the image storage processing unit 19, and the output of the experimental observation terminal 4 is output via the Web display processing unit 21. Send to part 7. The browsing request command signal may be sent directly from the input unit 6 of the experimental observation terminal 4 to the image storage unit 20 via the Internet 10 to extract an image.
(H) The web display unit 8 can display the image for which the browsing request command has been issued.

(3) Procedure for Registering and Displaying Experiment Contents FIG. 4 is a flowchart for explaining a procedure for registering and displaying experiment contents.
(A) The server administrator or user can use the input unit 6 of the experimental observation terminal 4 to input experimental content data (for example, experimental observation name, observation theme, observer, overview, environmental conditions, experimental technique, etc.) Input various data).

(B) The experiment content data is sent from the input unit 6 of the experiment observation terminal 4 to the input unit 22 of the experiment management server system 5 via the Internet 10 and further sent to the experiment content registration unit 18 to be registered in advance. .
(C) The experiment content data registered in advance in the experiment content registration unit 18 is transmitted to the layer display processing unit 16 and processed so that the layer can be displayed as a part of the experiment layer display data. As a result, the image can be saved simultaneously with the video and can be displayed on the Web.

  With the configuration as described above, in the web camera experiment observation data automatic acquisition system 1 according to the present invention, the web camera 3 installed at the observation site captures an event occurring at the site and “video data at the observation site”. In addition, observation data relating to the temperature / hygrometer and the like acquired by various experimental environment data observation devices 2 such as a temperature / hygrometer can be acquired.

The observed environmental data includes light illuminance, wind speed, air or air cleanliness, seismic intensity, etc. in addition to temperature and humidity. Observation data is processed into “experimental layer display data” that can be displayed in layers along with date / time data and experimental content data (experimental observation name, observation theme, observer, outline, environmental conditions, experimental data, etc.) Is done.

  Then, the Web display processing unit 21 of the experiment management server system 5 transmits these “experiment layer display data” and “observation site video data” to the output unit 7 of the experiment observation terminal 4 through the Internet 10. The experimental observation terminal 4 that has received these data causes the occurrence of the event on the video display area of the web camera 3 in which the video event (the event at the observation site is visualized) is displayed on the Web display unit 8. It is possible to display “experimental layer display data” including the observed data at the same time.

  Furthermore, in the web camera experiment observation data automatic acquisition system 1 according to the present invention, the experiment management server system 5 can store “experiment layer display data” and “observation site image data” as one image file. .

  In the web camera experimental observation data automatic acquisition system 1 according to the present invention, the environmental data acquired by the experimental environment data observation device 2 is always transmitted to the observation data reception unit 11 and input to the reception data integration processing unit 13. .

  Then, if the date / time processing unit 15 sets a schedule for automatically acquiring and storing observation data as the date / time and interval, the layer display processing unit 16 continuously transmits the data with the set date / time and interval schedule. And can be sent to the Web display processing unit 21.

  Furthermore, if the date and time for storing observation data is set in advance in the date / time processing unit 15, the image storage processing unit 19 continuously displays the “experiment layer display data” according to the set date and time schedule. And “observation site video data” can be stored in the image storage unit 20 as one video file.

  Further, the web camera experiment observation data automatic acquisition system 1 has a function of registering in advance in the experiment content registration unit 18 and transmitting it to the layer display processing unit 16 for use in layer display.

  As described above, the present invention can automatically acquire and store observation data related to events at the observation site and video data obtained by shooting according to a preset schedule, and can be centrally managed by a single server via a network. it can.

  As described above, the best mode for carrying out the web camera experiment observation data automatic acquisition system according to the present invention has been described based on the embodiments, but the present invention is not limited to such embodiments, and claims It goes without saying that there are various embodiments within the scope of the technical matters described in the above.

  Since the web camera experiment observation data automatic acquisition system according to the present invention has the above-described configuration, when acquiring the growth state of the plant and its environmental change data in the field, the experiment of chemical reaction, guinea pigs, etc. were also used indoors. When obtaining observation data in animal experiments, it can be applied to various fields such as disaster prevention (volcanic activity, earthquake prediction, typhoon), education (observation), crime prevention, and tourism.

It is a block diagram which shows the whole structure of the Example of this invention. It is a figure explaining the path | route procedure of the observation data of the Example of this invention, and the video data of an observation field. It is a figure explaining the path | route procedure of the image preservation | save signal of the Example of this invention. It is a figure explaining the experiment content registration and display procedure of the Example of this invention.

Explanation of symbols

1 Web camera experiment observation data automatic acquisition system
2 Experimental environment data observation equipment
3 Web cameras installed at the observation site
4 Terminal for experimental observation
5 Experiment management server system
6 Input section of the experimental observation terminal
7 Terminal output part for experiment observation
8 Web display
9 Data transmitter
10 Internet
11 Observation data receiver
12 Camera signal transmitter / receiver
13 Received data integration processing section
14 Date / Time Management Department
15 Date / time processing section
16 Layer display processing section
17 Video output section
18 Experiment Content Registration Department
19 Image storage processor
20 Image storage
21 Web display processing unit
22 Input section

Claims (9)

  A web camera experiment observation data automatic acquisition system comprising an experiment environment data observation device, a web camera installed at an experiment site, an experiment observation terminal, and an experiment management server system connected by a communication line.   The web camera experimental observation data automatic acquisition system according to claim 1, wherein the experimental environmental data observation device transmits environmental data observed via a communication line to an experiment management server system.   The web camera transmits video data of an observation site to the experiment management server system via a communication line, and the video data can be displayed on a web display unit of the experiment observation terminal. Item 2. A Web camera experiment observation data automatic acquisition system according to Item 1.   The experiment management server system includes an observation data reception unit, a reception data integration processing unit, a date / time processing unit, an experiment content registration unit, a layer display processing unit, a camera signal transmission / reception unit, a video output unit, an image storage processing unit, An image storage unit, a Web display processing unit, and an input unit are provided. The environment data acquired by the experimental environment data observation device and the video data captured by the web camera can be displayed on the same screen and stored as image data. The web camera experiment observation data automatic acquisition system according to claim 1, which is possible.   The experimental observation terminal receives an operation signal from the input unit, thereby acquiring environment data by the experimental environment data observation device and taking a video of an observation site by the web camera in real time and storing the image. The web camera experiment observation data automatic acquisition system according to claim 1, wherein the image data can be browsed. An experimental environment data observation device, a web camera installed at an observation site, an experimental observation terminal, and an experiment management server system are connected to each other via a communication line.
The experimental environment data observation device transmits the observed environmental data to the experiment management server system via a communication line,
The web camera transmits the observation site video data to the experiment management server system via a communication line, and displays it on the web display unit of the experiment observation terminal.
The experiment management server system includes an observation data reception unit, a reception data integration processing unit, a date / time processing unit, an experiment content registration unit, a layer display processing unit, a camera signal transmission / reception unit, a video output unit, an image storage processing unit, An image storage unit, a Web display processing unit, and an input unit are provided, the environment data and the video data can be displayed on the same screen and stored as an image,
The experimental observation terminal receives an operation signal from the input unit, thereby acquiring environment data by the experimental environment data observation device and taking a video of an observation site by the web camera in real time and storing the image. Web camera experiment observation data automatic acquisition system, characterized in that it is configured to allow browsing of image data that has been recorded.   The environmental data is simultaneously displayed as a layer on a video range of a camera on which video data captured by the web camera is projected, and the video data and the environmental data are stored as one video file. The web camera experiment observation data automatic acquisition system according to any one of 1 to 6.   The web camera experiment observation data automatic acquisition system according to any one of claims 1 to 7, wherein the date and time interval for automatically acquiring environmental data by the environmental data observation device can be set in advance.   The experiment content registration unit is pre-registered with experiment content data including an observation theme, an observer, an outline, and environmental conditions, and the experiment content data can be displayed on a display screen of video data taken by a web camera. The web camera experiment observation data automatic acquisition system according to any one of claims 6 to 8.

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