CN112114763B

CN112114763B - Data visualization storage control system

Info

Publication number: CN112114763B
Application number: CN202010954266.5A
Authority: CN
Inventors: 赵娟
Original assignee: Inner Mongolia Zhongfumingfeng Agriculture Technology Co ltd
Current assignee: Inner Mongolia Zhongfumingfeng Agriculture Technology Co ltd
Priority date: 2020-06-05
Filing date: 2020-09-11
Publication date: 2022-02-08
Anticipated expiration: 2040-09-11
Also published as: CN112114763A

Abstract

The invention discloses a data visualization storage control system, which comprises a visualization display system, an information acquisition system and a data memory, wherein the visualization display system comprises: first controller, touch-control display screen, display screen drive module, first communication module, cloud platform is connected to first communication module, receives the crop data that information acquisition system gathered through cloud platform, and stores in the data memory, first controller receives in real time touch-control display screen's the command of controlling, according to control the command follow corresponding data is transferred to the data memory in, through display screen drive module is in drive display on the touch-control display screen, touch-control display screen includes lower floor's display area and suspension display area, suspension display area is in the upper portion in lower floor's display area, suspension display area includes a display area at least.

Description

Data visualization storage control system

Technical Field

The invention belongs to the technical field of data display, and particularly relates to a data visualization storage control system.

Background

Data visualization is an important improvement point of large-scale data analysis in the existing industry, agriculture and the like, unified coordination control is required to be carried out in massive micro data, an advanced data storage and data visualization display control mode is required, macroscopic analysis can be conveniently carried out on monitored data through data visualization to provide a fact basis for decision making, microscopic data analysis can also be carried out, the abnormity of each device or object can be conveniently found, the problem of corresponding occurrence can be conveniently solved through analysis abnormity, data visualization is carried out on the aspects of agriculture along with the continuous development of intelligent agriculture, the method is an important means for improving the production efficiency of agriculture caused by agricultural intellectualization, after information acquisition is carried out on massive data of agriculture, macroscopic and microscopic analysis processing is carried out on the whole intelligent agriculture, and the crop yield is conveniently improved, the use efficiency of agricultural machinery is how to conveniently provide quick and accurate agricultural visual data, which is a difficult problem to be solved aiming at the quick development of agricultural intelligence in the future.

Disclosure of Invention

The data visualization storage control system comprises a display screen driving module, a first driving module and a second driving module, the first driving module is used for driving the lower-layer display area, the lower-layer display area is used for displaying geographical position information of crop distribution, the second driving module is used for displaying the detailed state of crops, when the first geographical position area of the lower-layer display area of the screen is clicked or requested to be displayed through the manipulation instruction, the first controller retrieves data for the first geographic location area from the data store, the lower layer display area is driven by the first driving module to display detailed geographic information of the first geographic position area and the distribution state of crops in the first geographic position area, and driving the suspension display area to display the detailed state of the crops corresponding to the first geographical position area through a second driving module.

In the data visualization storage control system, the floating display area is preferably four display areas.

The data visualization storage control system is characterized in that the detailed state comprises any one of product output conditions, agricultural machinery and agricultural implement distribution histograms, crop classification and enterprise order distribution.

The data visualization storage control system, first communication module pass through cloud platform with information acquisition system real-time communication to real-time updating crop data, information acquisition system includes: the system comprises a sensor, a data converter, a second controller and a second communication module; the sensor is used for monitoring the growth state, variety distribution, planting position and output quality of crops, and transmits the first data of monitoring to the data converter, the data converter is categorised the data of receiving the sensor, directly sends numerical data to the second controller, transmits non-numerical data after converting the transmission for the second controller, the second controller carries out analysis processing to the first data of receiving and the second data of prestoring to pass through second communication module with analysis processing's result and upload to the cloud platform.

The second controller comprises an input unit, a comparison unit, a processing unit, a storage unit and an output unit, the input unit receives the first data and the second data, the storage unit stores the second data, the second data are respectively transmitted to the comparison unit and the processing unit when the first data are received, the processing unit searches the corresponding second data according to the received first data and calls the corresponding second data from the storage unit to the comparison unit, the comparison unit compares and analyzes the current first data and the second data, judges whether the deviation between the current first data and the pre-stored second data is smaller than a preset deviation value or not, if so, the first data are output to the processing unit, and the processing unit respectively transmits the first data to the storage unit for storage, the data is transmitted to the second communication module through an output unit and uploaded to the cloud platform; if the deviation is not smaller than the preset deviation value, the processing unit carries out sensor safety correction according to the deviation, monitors the deviation again, judges that the deviation is smaller than the preset deviation value, if the deviation is still not smaller than the preset deviation value, sends a first data abnormal signal to the second communication module, searches the position of the abnormal first data, and uploads the abnormal signal to the cloud platform through the second communication module after the abnormal signal is matched with the position; the numerical data at least comprises the number of varieties, planting area and planting position of the crops, and the non-numerical data at least comprises the growth state data of the crops.

The data visualization storage control system, the data converter at least includes: the circuit comprises switching tubes M1-M16, current sources I1-I7, an inverter U1, a comparator U2, capacitors C1-C3, switching units S1-S4, resistors R1-R2 and adjustable resistors R3-R4; the controllable end of the switch tube M1 is used as the input end to connect with the sensor, one non-controllable end of the switch tube M1 is connected with the power supply, the other non-controllable end is connected with one end of the current source I1, and the other end of the current source I1 is grounded; one end of the current source I2 is connected with a power supply, the other end is respectively connected with a non-controllable end of the switch tube M2 and a controllable end of the switch tube M6, the other non-controllable end of the switch tube M2 is respectively connected with a controllable end of the switch tube M3 and an input end of the inverter U1, and an output end of the inverter U1 is connected with a controllable end of the switch tube M4; one end of the current source I3 is connected with a power supply, the other end is respectively connected with the controllable end of the switch tube M2 and a non-controllable end of the switch tube M3, and the other non-controllable end of the switch tube M3 is grounded; one non-controllable end of the switch tube M4 is connected with a power supply, the other non-controllable end is connected with one end of a capacitor C1, and the other end of the capacitor C1 is grounded; one end of the current source I4 is connected with the power supply, the other end of the current source I4 is respectively connected with a non-controllable end of the switch tube M5 and a non-controllable end of the switch tube M6, the other non-controllable end of the switch tube M5 is connected with one end of the current source I5, the controllable end is connected with one end of the adjustable resistor R4, one end of the adjustable resistor R4 is connected with one end of the current source I5, and the other end of the current source I5 is grounded; the other non-controllable end of the switch tube M6 is respectively connected to one non-controllable end of the switch tube M7 and the controllable end of the switch tube M8, and the other non-controllable end of the switch tube M7 is grounded; one non-controllable end of the switch tube M9 is connected with a power supply, the controllable ends are respectively connected with the controllable end and the other non-controllable end of the switch tube M11, the other non-controllable end of the switch tube M9 is respectively connected with one non-controllable end of the switch tube M8 and one end of the switch unit S4, the other non-controllable end of the switch tube M8 is connected with one end of the current source I6, the controllable end of the switch tube M8 is connected with one end of the resistor R1, the other end of the resistor R1 is respectively connected with the controllable end of the switch tube M10 and one end of the resistor R2, the other end of the resistor R2 is connected with the controllable end of the switch tube M12, one non-controllable end of the switch tube M10 is connected with the power supply, the other non-controllable end is connected with one end of the current source I6, the other end of the current source I6 is grounded, one non-controllable end of the switch tube M11 is connected with the power supply, the other non-controllable end of the switch tube M12 is connected with the controllable end of the switch tube M12, the other end of the switch tube M6 is connected with the controllable end of the switch tube M13, a non-controllable end of the switch tube M13 is connected to a non-controllable end of the switch tube M14 and one end of the capacitor C3, respectively, and another non-controllable end of the switch tube M13 is connected to the positive input end of the comparator U2 and another non-controllable end of the switch tube M15, respectively; the controllable end of the switch tube M14 is connected with the controllable end of the switch tube M15, the other non-controllable end of the switch tube M14 is connected with the other non-controllable end of the switch tube M16, one non-controllable end of the switch tube M15 and one non-controllable end of the switch tube M16 are connected and then connected with the negative input end of the comparator U2, the controllable end of the switch tube M14 is connected with one end of the adjustable resistor R3, and the other end of the adjustable resistor R3 is connected with one end of the current source I7; the other end of the current source I7 is grounded; the adjustable ends of the adjustable resistors R3-R4 are connected with the second controller.

The output end of the comparator U2 is connected with the second controller, the second controller adjusts the resistance values of the adjustable resistors R3-R4, and the conversion accuracy of the data converter is adjusted by adjusting the resistance values of the adjustable resistors R3-R4.

The data visualization storage control system is characterized in that a suspension display area is preferably suspended in the range of a lower display area and follows the display content of the lower display area to dynamically follow and transform, the display screen driving module further comprises a third driving module, the third driving module is used for associating information of a first driving module and a second driving module which are regularly displayed to form an associated driving block, when the display screen is regularly displayed, the touch display screen is directly driven by the third driving module, a first controller is not needed to be associated in the driving process, when the display screen is irregularly displayed, the display screen is respectively driven and displayed by the first driving module and the second driving module, and the first controller associates driving information of the first driving module and the second driving module.

The data visualization storage control system, lower floor's display area still includes system shutdown module, camera display module, error information display module, returns the last level display module, system shutdown module, camera display module, error information display module, return that last level display module is all fixed the fixed position in lower floor's display area clicks the system shutdown module, first controller control visual display system shutdown operation clicks the camera display module is used for lower floor's display area lights the camera of monitoring crops, clicks the error information display module is used for lighting the suggestion visual display system's error information clicks it then returns last level display interface to return to the last level display module.

The beneficial effect of this application: according to the invention, the relevant information such as crops and the like in different geographic positions is collected, uploading is carried out through the cloud platform, data storage is carried out through the data server, and data dynamic display is carried out through the visual display platform, so that the display and viewing of the state, the distribution condition and the like of the relevant information such as the crops and the like can be conveniently and rapidly known. As one of the main improvement points of the invention, the display area is optimized, the suspension display area is set, the display of the lower-layer display area is carried out through the first driving module, the suspension display is carried out through the second driving module, and the joint driving is carried out through the third driving module, so that the dynamic following visual display can be carried out quickly, the pertinence of the data visual display is improved, and the data viewing is convenient and clear at a glance. The invention has the advantages that the data cloud platform is arranged to classify, collect and analyze multiple crop data, compare and analyze the data to determine whether the collected crop data is matched with the preset data, if the collected crop data is not matched with the preset data, the reason is searched, the data cloud platform is beneficial to normal monitoring of the crop data, the abnormity of the crop data is reduced, the local data abnormity analysis can be performed through the second controller, the difficulty of displaying the data abnormity in the data display of the first controller is reduced, the effective data display is rapidly performed, and the visual impression is improved. The first controller and the second controller transmit data through the cloud platform, and data in a wide range can be conveniently displayed in a centralized mode.

Drawings

FIG. 1 is a diagram of a data visualization storage control system according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of an information acquisition system according to the present invention.

FIG. 3 is a schematic diagram of a data converter according to the present invention.

FIG. 4 is a schematic diagram of another embodiment of a data visualization storage control system according to the present invention.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

As shown in fig. 1, a schematic diagram of an embodiment of a data visualization storage control system disclosed in the present invention includes a visualization display system, an information acquisition system, and a data storage, where the visualization display system includes: first controller, touch-control display screen, display screen drive module, first communication module, cloud platform is connected to first communication module, receives the crop data that information acquisition system gathered through cloud platform, and stores in the data memory, first controller receives in real time touch-control display screen's the command of controlling, according to control the command follow corresponding data is transferred to the data memory in, through display screen drive module is in drive display on the touch-control display screen, touch-control display screen includes lower floor's display area and suspension display area, suspension display area is in the upper portion in lower floor's display area, suspension display area includes a display area at least.

Fig. 2 is a schematic diagram of the information acquisition system of the present invention. The data visualization storage control system, first communication module pass through cloud platform with information acquisition system real-time communication to real-time updating crop data, information acquisition system includes: the system comprises a sensor, a data converter, a second controller and a second communication module; the sensor is used for monitoring the growth state, variety distribution, planting position and output quality of crops, and transmits the first data of monitoring to the data converter, the data converter is categorised the data of receiving the sensor, directly sends numerical data to the second controller, transmits non-numerical data after converting the transmission for the second controller, the second controller carries out analysis processing to the first data of receiving and the second data of prestoring to pass through second communication module with analysis processing's result and upload to the cloud platform.

Fig. 3 is a schematic diagram of the data converter of the present invention. The data converter includes at least: the circuit comprises switching tubes M1-M16, current sources I1-I7, an inverter U1, a comparator U2, capacitors C1-C3, switching units S1-S4, resistors R1-R2 and adjustable resistors R3-R4; the controllable end of the switch tube M1 is used as the input end to connect with the sensor, one non-controllable end of the switch tube M1 is connected with the power supply, the other non-controllable end is connected with one end of the current source I1, and the other end of the current source I1 is grounded; one end of the current source I2 is connected with a power supply, the other end is respectively connected with a non-controllable end of the switch tube M2 and a controllable end of the switch tube M6, the other non-controllable end of the switch tube M2 is respectively connected with a controllable end of the switch tube M3 and an input end of the inverter U1, and an output end of the inverter U1 is connected with a controllable end of the switch tube M4; one end of the current source I3 is connected with a power supply, the other end is respectively connected with the controllable end of the switch tube M2 and a non-controllable end of the switch tube M3, and the other non-controllable end of the switch tube M3 is grounded; one non-controllable end of the switch tube M4 is connected with a power supply, the other non-controllable end is connected with one end of a capacitor C1, and the other end of the capacitor C1 is grounded; one end of the current source I4 is connected with the power supply, the other end of the current source I4 is respectively connected with a non-controllable end of the switch tube M5 and a non-controllable end of the switch tube M6, the other non-controllable end of the switch tube M5 is connected with one end of the current source I5, the controllable end is connected with one end of the adjustable resistor R4, one end of the adjustable resistor R4 is connected with one end of the current source I5, and the other end of the current source I5 is grounded; the other non-controllable end of the switch tube M6 is respectively connected to one non-controllable end of the switch tube M7 and the controllable end of the switch tube M8, and the other non-controllable end of the switch tube M7 is grounded; one non-controllable end of the switch tube M9 is connected with a power supply, the controllable ends are respectively connected with the controllable end and the other non-controllable end of the switch tube M11, the other non-controllable end of the switch tube M9 is respectively connected with one non-controllable end of the switch tube M8 and one end of the switch unit S4, the other non-controllable end of the switch tube M8 is connected with one end of the current source I6, the controllable end of the switch tube M8 is connected with one end of the resistor R1, the other end of the resistor R1 is respectively connected with the controllable end of the switch tube M10 and one end of the resistor R2, the other end of the resistor R2 is connected with the controllable end of the switch tube M12, one non-controllable end of the switch tube M10 is connected with the power supply, the other non-controllable end is connected with one end of the current source I6, the other end of the current source I6 is grounded, one non-controllable end of the switch tube M11 is connected with the power supply, the other non-controllable end of the switch tube M12 is connected with the controllable end of the switch tube M12, the other end of the switch tube M6 is connected with the controllable end of the switch tube M13, a non-controllable end of the switch tube M13 is connected to a non-controllable end of the switch tube M14 and one end of the capacitor C3, respectively, and another non-controllable end of the switch tube M13 is connected to the positive input end of the comparator U2 and another non-controllable end of the switch tube M15, respectively; the controllable end of the switch tube M14 is connected with the controllable end of the switch tube M15, the other non-controllable end of the switch tube M14 is connected with the other non-controllable end of the switch tube M16, one non-controllable end of the switch tube M15 and one non-controllable end of the switch tube M16 are connected and then connected with the negative input end of the comparator U2, the controllable end of the switch tube M14 is connected with one end of the adjustable resistor R3, and the other end of the adjustable resistor R3 is connected with one end of the current source I7; the other end of the current source I7 is grounded; the adjustable ends of the adjustable resistors R3-R4 are connected with the second controller.

Fig. 4 is a schematic diagram of another embodiment of a data visualization storage control system according to the present invention, which includes: the main control core mainly has the functions that the core algorithm is used for calculating data and processing all work related to the data, the brand-new storage algorithm is mainly used for calculating a data storage mode and carrying out regular data migration and exchange, the algorithm changes the storage mode into a playing method like a magic cube, the data can be safer, the data safety can be guaranteed, meanwhile, the better management data can be changed into the data to be placed like goods, and the data are cleanly packaged and conveniently and safely extracted. The local server is mainly used for creating a physical environment for a data visualization storage control system, the storage matrix is mainly used for hardware storage equipment for the server, the data security storage matrix is an optimal choice, the local server not only can provide data security, but also can provide the security of physical storage hardware, a plurality of storage arrays can back up each other or regularly clear useless data, and meanwhile, an anti-theft mechanism is provided. The main function of the safety algorithm is to provide the safest virtual environment for the visual storage control system of the host, and the attack and defense war is automatically carried out according to the algorithm, so that data damage or loss is prevented, the safety algorithm is automatically upgraded, data are filed in a safe environment, the physical sensor is mainly used in a place where the storage matrix is stored in the server room, an alarm is given when the storage matrix leaves a slot position, and a supervisor is informed, the power management system is mainly used for managing the integrity of the storage system, solving the sudden power failure condition, automatically analyzing the power distribution for a core area according to the power failure condition, reducing the probability of loss and data damage, and simultaneously ensuring the supply of a standby power supply in the core area. As shown in figure 4 of the drawings,

the data visualization storage system is characterized by a data visualization interaction storage mode, a brand-new storage algorithm and a safety algorithm, hardware equipment with a brand-new concept is used in hardware, the brand-new storage hardware with the brand-new storage algorithm is specially used, data safety and data integrity are greatly improved, data cannot be stolen or damaged, a brand-new self-learning safety algorithm is adopted, the data environment is safe and reliable, a distributed power management system is better and better added, and the condition that power is cut off can be ensured for a core area to keep data safety. The technical difficulty is that a brand-new storage algorithm is a set of completely new multi-dimensional logic requiring technical breakthrough, a security algorithm is also required technical breakthrough, server storage hardware is constructed by matching with the brand-new storage algorithm in the aspect of architecture, and some hardware can not be purchased at all by customization.

Claims

1. The data visualization storage control system is characterized by comprising a visualization display system, an information acquisition system and a data storage, wherein the visualization display system comprises: the crop data acquisition system comprises a first controller, a touch display screen, a display screen driving module and a first communication module, wherein the first communication module is connected with a cloud platform, receives crop data acquired by an information acquisition system through the cloud platform and stores the crop data in a data storage, the first controller receives an operation command of the touch display screen in real time, calls corresponding data from the data storage according to the operation command and drives and displays the crop data on the touch display screen through the display screen driving module, the touch display screen comprises a lower layer display area and a suspension display area, the suspension display area is arranged on the upper portion of the lower layer display area, and the suspension display area at least comprises one display area;

the display screen driving module further comprises a third driving module, the third driving module is used for associating information of a first driving module and a second driving module which are regularly displayed to form an associated driving block, when the display screen is regularly displayed, the touch display screen is directly driven by the third driving module, information association does not need to be carried out by a first controller in the driving process, when the display screen is irregularly displayed, the display screen is respectively driven and displayed by the first driving module and the second driving module, and the first controller is used for associating the driving information of the first driving module and the second driving module;

the lower-layer display area further comprises a system shutdown module, a camera display module, an error information display module and a display module which returns to the upper-layer, the system shutdown module, the camera display module, the error information display module and the display module which returns to the upper-layer are all fixed at fixed positions of the lower-layer display area, the system shutdown module is clicked, the first controller controls shutdown operation of the visual display system, the camera display module is clicked to light a camera for monitoring crops in the lower-layer display area, the error information display module is clicked to light error information for prompting the visual display system, and the display module which returns to the upper-layer display interface; the display area is optimized, the suspension display area is set, the display of the lower-layer display area is carried out through the first driving module, the suspension display is carried out through the second driving module, the combined driving is carried out through the third driving module, the dynamic following visual display can be carried out rapidly, the pertinence of the visual display of the data is improved, and the data can be checked conveniently and clearly;

the information acquisition system includes: the system comprises a sensor, a data converter, a second controller and a second communication module; the data converter includes at least: the circuit comprises switching tubes M1-M16, current sources I1-I7, an inverter U1, a comparator U2, capacitors C1-C3, switching units S1-S4, resistors R1-R2 and adjustable resistors R3-R4; the controllable end of the switch tube M1 is used as the input end to connect with the sensor, one non-controllable end of the switch tube M1 is connected with the power supply, the other non-controllable end is connected with one end of the current source I1, and the other end of the current source I1 is grounded; one end of the current source I2 is connected with a power supply, the other end is respectively connected with a non-controllable end of the switch tube M2 and a controllable end of the switch tube M6, the other non-controllable end of the switch tube M2 is respectively connected with a controllable end of the switch tube M3 and an input end of the inverter U1, and an output end of the inverter U1 is connected with a controllable end of the switch tube M4; one end of the current source I3 is connected with a power supply, the other end is respectively connected with the controllable end of the switch tube M2 and a non-controllable end of the switch tube M3, and the other non-controllable end of the switch tube M3 is grounded; one non-controllable end of the switch tube M4 is connected with a power supply, the other non-controllable end is connected with one end of a capacitor C1, and the other end of the capacitor C1 is grounded; one end of the current source I4 is connected with the power supply, the other end of the current source I4 is respectively connected with a non-controllable end of the switch tube M5 and a non-controllable end of the switch tube M6, the other non-controllable end of the switch tube M5 is connected with one end of the current source I5, the controllable end is connected with one end of the adjustable resistor R4, one end of the adjustable resistor R4 is connected with one end of the current source I5, and the other end of the current source I5 is grounded; the other non-controllable end of the switch tube M6 is respectively connected to one non-controllable end of the switch tube M7 and the controllable end of the switch tube M8, and the other non-controllable end of the switch tube M7 is grounded; one non-controllable end of the switch tube M9 is connected with a power supply, the controllable ends are respectively connected with the controllable end and the other non-controllable end of the switch tube M11, the other non-controllable end of the switch tube M9 is respectively connected with one non-controllable end of the switch tube M8 and one end of the switch unit S4, the other non-controllable end of the switch tube M8 is connected with one end of the current source I6, the controllable end of the switch tube M8 is connected with one end of the resistor R1, the other end of the resistor R1 is respectively connected with the controllable end of the switch tube M10 and one end of the resistor R2, the other end of the resistor R2 is connected with the controllable end of the switch tube M12, one non-controllable end of the switch tube M10 is connected with the power supply, the other non-controllable end is connected with one end of the current source I6, the other end of the current source I6 is grounded, one non-controllable end of the switch tube M11 is connected with the power supply, the other non-controllable end of the switch tube M12 is connected with the controllable end of the switch tube M12, the other end of the switch tube M6 is connected with the controllable end of the switch tube M13, a non-controllable end of the switch tube M13 is connected to a non-controllable end of the switch tube M14 and one end of the capacitor C3, respectively, and another non-controllable end of the switch tube M13 is connected to the positive input end of the comparator U2 and another non-controllable end of the switch tube M15, respectively; the controllable end of the switch tube M14 is connected with the controllable end of the switch tube M15, the other non-controllable end of the switch tube M14 is connected with the other non-controllable end of the switch tube M16, one non-controllable end of the switch tube M15 and one non-controllable end of the switch tube M16 are connected and then connected with the negative input end of the comparator U2, the controllable end of the switch tube M14 is connected with one end of the adjustable resistor R3, and the other end of the adjustable resistor R3 is connected with one end of the current source I7; the other end of the current source I7 is grounded; the adjustable ends of the adjustable resistors R3-R4 are connected with the second controller.

2. The data visualization storage control system according to claim 1, wherein the display screen driving module includes a first driving module and a second driving module, the first driving module is configured to drive the lower display area, the lower display area is configured to display geographical location information of crop distribution, the second driving module is configured to display detailed status of crop, when the first geographical location area of the lower display area of the screen is clicked or a control command is requested to display the first geographical location area of the lower display area, the first controller retrieves data of the first geographical location area from the data storage, the first driving module drives the lower display area to display the detailed geographical information of the first geographical location area and the distribution status of crop in the first geographical location area, and the second driving module drives the floating display area to display the distribution status of crop corresponding to the first geographical location area Detailed state of crops.

3. The data visualization storage control system of claim 2 wherein the floating display region is four display regions.

4. The data visualization storage control system of claim 3 wherein the detailed status comprises any one of product yield, farm tool distribution histogram, crop classification, and business order distribution.

5. The data visualization storage control system according to claim 2, wherein the first communication module communicates with the information acquisition system in real time through a cloud platform and updates crop data in real time; the sensor is used for monitoring the growth state, variety distribution, planting position and output quality of crops, and transmits the first data of monitoring to the data converter, the data converter is categorised the data of receiving the sensor, directly sends numerical data to the second controller, transmits non-numerical data after converting the transmission for the second controller, the second controller carries out analysis processing to the first data of receiving and the second data of prestoring to pass through second communication module with analysis processing's result and upload to the cloud platform.

6. The data visualization storage control system according to claim 5, wherein the second controller comprises an input unit, a comparison unit, a processing unit, a storage unit, and an output unit, the input unit receives the first data and the second data, the storage unit stores the second data, the second data is transmitted to the comparison unit and the processing unit when the first data is received, the processing unit searches the corresponding second data according to the received first data and calls the corresponding second data from the storage unit to the comparison unit, the comparison unit compares and analyzes the current first data and the current second data, determines whether the deviation between the current first data and the pre-stored second data is smaller than a preset deviation value, and if the deviation is smaller than the preset deviation value, outputs the first data to the processing unit, the processing unit respectively transmits the first data to the storage unit for storage, and transmits the first data to the second communication module through the output unit to be uploaded to the cloud platform; if the deviation is not smaller than the preset deviation value, the processing unit carries out sensor safety correction according to the deviation, monitors the deviation again, judges that the deviation is smaller than the preset deviation value, if the deviation is still not smaller than the preset deviation value, sends a first data abnormal signal to the second communication module, searches the position of the abnormal first data, and uploads the abnormal signal to the cloud platform through the second communication module after the abnormal signal is matched with the position; the numerical data at least comprises the number of varieties, planting area and planting position of the crops, and the non-numerical data at least comprises the growth state data of the crops.

7. The data visualization storage control system as claimed in claim 6, wherein the output terminal of the comparator U2 is connected to the second controller, the second controller adjusts the resistance values of the adjustable resistors R3-R4, and the conversion accuracy of the data converter is adjusted by adjusting the resistance values of the adjustable resistors R3-R4.