CN110954155A - Method for detecting and correcting three-dimensional data - Google Patents

Abstract

The invention relates to the technical field of data processing, in particular to a system for three-dimensional data detection and correction, which comprises a data receiving module, wherein the data receiving module is in signal connection with an antenna control module, the antenna control module is in signal connection with a signal output module, signal data received by the signal output module is transmitted to a data detection module, the data detection module is in signal connection with a data calibration module, the data calibration module comprises a data information receiving module, the data information receiving module receives data information from the data detection module, the received data information is transmitted to a single chip microcomputer control module to process the data, and meanwhile, the converted signal is transmitted to a keyboard input module. The invention has wide data acquisition range, makes the data have persuasion, has concise process and high stability of system operation when processing the data, and simultaneously improves the comprehensiveness of monitoring and proofreading.

Description

Method for detecting and correcting three-dimensional data

Technical Field

The invention relates to the technical field of data processing, in particular to a method for detecting and correcting three-dimensional data.

Background

Data is a form of expression for a fact, concept, or instruction that can be manipulated by human or automated means and that, when interpreted and given a certain meaning, becomes information. Data processing (data processing) is the collection, storage, retrieval, processing, transformation and transmission of data;

the existing three-dimensional data detection and correction method in the market has the disadvantages of incomplete detection and complicated detection and correction process, so that the method is not beneficial to popularization.

Disclosure of Invention

The invention aims to solve the defects of incomplete detection and complicated detection and correction processes in the prior art, and provides a method for detecting and correcting three-dimensional data.

In order to achieve the purpose, the invention adopts the following technical scheme:

a system for three-dimensional data detection and correction is designed, comprising a data receiving module, wherein the data receiving module is in signal connection with an antenna control module, the antenna control module is in signal connection with a signal output module, the signal output module receives signal data transmitted in the antenna control module, the signal data received by the signal output module is transmitted to the data detection module, the data detection module is in signal connection with a data calibration module, the data calibration module comprises a data information receiving module, the data information receiving module receives data information from the data detection module, transmits the received data to a single chip microcomputer control module to process the data, transmits the processed data to a signal conversion module to perform signal conversion, converts optical signals into electric signals, and transmits the converted signals to a keyboard input module, meanwhile, the keyboard input module and the serial communication interface module are in telecommunication connection.

Preferably, the data detection module comprises a window function module and an MEMS sensor module, and data information computed in the window function module and information data received in the MEMS sensor are both transmitted to the microprocessor module through the data transmission module to perform data computation, and the computed data is connected to the data calibration module through the wireless network transmission module.

Preferably, the antenna control module includes a signal receiver module for receiving a signal in the data receiving module, the signal receiver module transmits the received signal to the central controller module, and the central controller module is connected to the data calculating module and the antenna transmission module respectively.

Preferably, the signal output module is electrically connected with a peripheral computer module, the peripheral computer module is connected with a data reading module, the data reading module specifically comprises a signal receiving module, the signal receiving module receives a signal and then transmits the signal to the controller module, the controller module is in signal connection with the signal acquisition module, and the signal acquisition module displays acquired signal data in the LCD display module.

Preferably, the signal output module is further in signal connection with a data storage module.

Preferably, the data storage module specifically includes a data conversion module, the data conversion module converts the data information in the signal output module, and transmits the converted data information to the data encoder module for encoding, and the encoded data information is transmitted to the database module by the wireless network transmission module.

The invention also provides a method for detecting and correcting the three-dimensional data, which comprises the following steps:

s1, receiving data information: the data signals are received and collected through the wireless antenna, and the received and collected data information is transmitted to the antenna control module for preprocessing;

s2, detection of data: obtaining calculated data information and three-dimensional data information received by the MEMS sensor through the window function module and the MEMS sensor, and transmitting the three-dimensional data to the microprocessor for calculation to realize detection;

s3, calibration of data: the single chip microcomputer control module processes data and transmits the processed data to the signal conversion module for signal conversion, so that the uniform transmission of signals is realized, and the data calibration is realized through the single chip microcomputer control module;

and S4, displaying and storing the data.

Preferably, the displaying and storing of the S4 data specifically includes storing the collected data in a database by way of wireless network transmission, and displaying the collected and processed data on an LCD display screen by connecting with an external host.

The method for detecting and correcting the three-dimensional data has the advantages that: the method for detecting and correcting the three-dimensional data has a wide data acquisition range, so that the data has persuasion, and meanwhile, when the data are processed, the process is simple, the stability of system operation is high, and the comprehensiveness of monitoring and correcting is improved.

Drawings

Fig. 1 is a system block diagram of a method for three-dimensional data detection and calibration according to the present invention.

Fig. 2 is a system block diagram of data detection for the method for detecting and calibrating three-dimensional data as set forth in fig. 1.

Fig. 3 is a system block diagram of data reading for the method for three-dimensional data detection and correction as set forth in fig. 1.

FIG. 4 is a system block diagram of a data storage module for the three-dimensional data detection and calibration method shown in FIG. 1.

Fig. 5 is a system block diagram of a data calibration module of the method for three-dimensional data detection and correction in fig. 1.

Fig. 6 is a system block diagram of an antenna control module for the method for three-dimensional data detection and calibration as set forth in fig. 1.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example 1

Referring to fig. 1-6, a system for three-dimensional data detection and calibration includes a data receiving module, the data receiving module is connected with an antenna control module through a signal, the antenna control module is connected with a signal output module through a signal, the signal output module receives signal data transmitted in the antenna control module, the signal data received by the signal output module is transmitted to the data detection module, the data detection module is connected with a data calibration module through a signal, the data calibration module includes a data information receiving module, the data information receiving module receives data information from the data detection module, transmits the received data to a single chip microcomputer control module to process the data, transmits the processed data to a signal conversion module to convert the signal, converts an optical signal into an electrical signal, and transmits the converted signal to a keyboard input module, meanwhile, telecommunication connection is realized between the keyboard input module and the serial communication interface module, and the antenna control module controls the antenna in the data receiving module, so that data acquisition is controlled.

The data detection module comprises a window function module and an MEMS sensor module, data information calculated in the window function module and information data received in the MEMS sensor can be transmitted to the microprocessor module through the data transmission module to be subjected to data calculation, and the calculated data is connected with the data calibration module through the wireless network transmission module.

The antenna control module comprises a signal receiver module used for receiving signals in the data receiving module, the signal receiver module transmits the received signals to the central controller module, and meanwhile the central controller module is respectively connected with the data calculating module and the antenna transmission module.

The signal output module is electrically connected with a peripheral computer module, the peripheral computer module is connected with a data reading module, the data reading module specifically comprises a signal receiving module, the signal receiving module receives signals and then transmits the signals to the controller module, the controller module is in signal connection with the signal acquisition module, and the signal acquisition module displays acquired signal data in the LCD display module.

The signal output module is further connected with a data storage module through signals, the data storage module specifically comprises a data conversion module, the data conversion module converts data information in the signal output module, the converted data information is transmitted to the data encoder module to be encoded, the encoded data information is transmitted to the database module through the wireless network transmission module, and the purposes of backup and storage are achieved.

Example 2

Referring to fig. 1 to 6, as another preferred embodiment of the present invention, there is a difference from embodiment 1;

the invention also provides a method for detecting and correcting the three-dimensional data, which comprises the following steps:

s1, receiving data information: the data signals are received and collected through the wireless antenna, and the received and collected data information is transmitted to the antenna control module for preprocessing;

s2, detection of data: obtaining calculated data information and three-dimensional data information received by the MEMS sensor through the window function module and the MEMS sensor, and transmitting the three-dimensional data to the microprocessor for calculation to realize detection;

s3, calibration of data: the single chip microcomputer control module processes data and transmits the processed data to the signal conversion module for signal conversion, so that the uniform transmission of signals is realized, and the data calibration is realized through the single chip microcomputer control module;

and S4, displaying and storing the data, wherein the displaying and storing of the data specifically comprises storing the acquired data in a database in a wireless network transmission mode, and simultaneously displaying the acquired and processed data on an LCD display screen by connecting with an external host.

The three-dimensional data detection and correction method has a wide data acquisition range, so that the data has persuasion, and meanwhile, when the data is processed, the process is simple, the stability of system operation is high, and the comprehensiveness of monitoring and correction is improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. A system for three-dimensional data detection and correction comprises a data receiving module, and is characterized in that the data receiving module is in signal connection with an antenna control module, the antenna control module is in signal connection with a signal output module, the signal output module receives signal data transmitted in the antenna control module, the signal data received by the signal output module is transmitted to the data detection module, the data detection module is in signal connection with a data calibration module, the data calibration module comprises a data information receiving module, the data information receiving module receives data information from the data detection module, transmits the received data information to a single chip microcomputer control module to process the data, transmits the processed data to a signal conversion module to convert the signal, converts an optical signal into an electrical signal, and transmits the converted signal to a keyboard input module, meanwhile, the keyboard input module and the serial communication interface module are in telecommunication connection.

2. The system according to claim 1, wherein the data detection module comprises a window function module and an MEMS sensor module, and both the data information computed in the window function module and the information data received in the MEMS sensor module are transmitted to the microprocessor module through the data transmission module for data computation, and the computed data is connected to the data calibration module through the wireless network transmission module.

3. The system as claimed in claim 1, wherein the antenna control module comprises a signal receiver module for receiving signals from the data receiving module, the signal receiver module transmits the received signals to the central controller module, and the central controller module is connected to the data calculating module and the antenna transmission module respectively.

4. The system according to claim 1, wherein the signal output module is electrically connected to a peripheral computer module, the peripheral computer module is connected to a data reading module, the data reading module specifically comprises a signal receiving module, the signal receiving module receives a signal and transmits the signal to the controller module, the controller module is in signal connection with the signal acquisition module, and the signal acquisition module displays the acquired signal data in the LCD display module.

5. The system according to claim 1, wherein the signal output module is further connected to a data storage module.

6. The system for three-dimensional data detection and proofreading according to claim 5, wherein the data storage module specifically comprises a data conversion module, the data conversion module converts the data information in the signal output module, and transmits the converted data information to the data encoder module for encoding, and the encoded data information is transmitted to the database module by the wireless network transmission module.

7. Method for three-dimensional data detection and correction according to claims 1-6, characterized in that it comprises the following steps:

s1, receiving data information: the data signals are received and collected through the wireless antenna, and the received and collected data information is transmitted to the antenna control module for preprocessing;

s2, detection of data: obtaining calculated data information and three-dimensional data information received by the MEMS sensor through the window function module and the MEMS sensor, and transmitting the three-dimensional data to the microprocessor for calculation to realize detection;

s3, calibration of data: the single chip microcomputer control module processes data and transmits the processed data to the signal conversion module for signal conversion, so that the uniform transmission of signals is realized, and the data calibration is realized through the single chip microcomputer control module;

and S4, displaying and storing the data.

8. The method as claimed in claim 7, wherein the step of displaying and storing the data at S4 comprises storing the collected data in a database by wireless network transmission, and displaying the collected and processed data on an LCD screen by connecting to an external host.

Images