CN111258295A

CN111258295A - System and method for verifying big data acquisition and uploading accuracy

Info

Publication number: CN111258295A
Application number: CN202010042485.6A
Authority: CN
Inventors: 何静; 刘园圆; 王强
Original assignee: Chongqing Changan Automobile Co Ltd
Current assignee: Chongqing Changan Automobile Co Ltd
Priority date: 2020-01-15
Filing date: 2020-01-15
Publication date: 2020-06-09

Abstract

The invention discloses a system and a method for verifying big data acquisition and uploading accuracy, wherein the system comprises a big data verification application module, a vehicle-mounted communication module, a server and a can hardware device, the big data verification application module is installed on a PC (personal computer), the USB end of the can hardware device is connected to the PC, the can line end of the can hardware device is connected with the can line of the vehicle-mounted communication module, and the vehicle-mounted communication module is connected with the server through network communication. The invention can accurately calculate the accuracy, the number of lost frames, the number of errors, the number of repetitions and the accuracy of the can data collected and uploaded by the vehicle-mounted communication module.

Description

System and method for verifying big data acquisition and uploading accuracy

Technical Field

The invention relates to the technical field of verification of data acquisition and uploading, in particular to a system and a method for verifying the accuracy of large data acquisition and uploading.

Background

The vehicle-mounted communication module is a controller of the vehicle and is used for collecting the states of other controllers (such as doors, windows, lamps, vehicle speed, steering angle and the like) of the vehicle, and the state data of the controllers are expected to be collected and uploaded to the server completely in real time so that a client can inquire the correct state of the vehicle through each terminal. Because these data have the characteristics of real-time performance, distribution, large amount, irregularity, etc., it is difficult to judge whether the vehicle-mounted communication module completely collects and uploads the states of the controllers on the real vehicle, and it is impossible to judge whether the states of the controllers collected and uploaded are correct. If the collection is incomplete and incorrect, the data displayed on the terminal will not conform to the actual situation, and the problem will cause great complaints to customers.

At present, the uploading of big data is basically visually judged by naked eyes, when the data volume is large, the naked eyes can only observe the accuracy of partial data one-sidedly, and cannot judge whether all the data are correct, a relatively applicable method is lacked to verify the accuracy of the acquisition and uploading of the data, and whether the acquired can data are missing frames, wrong, repeated, how accurate and the like cannot be judged.

Disclosure of Invention

The invention aims to provide a system and a method for verifying the accuracy of big data acquisition and uploading, which can accurately calculate the accuracy, the number of lost frames, the number of errors, the number of repetitions and the accuracy of the can data acquired and uploaded by a vehicle-mounted communication module.

The invention relates to a system for verifying big data acquisition and uploading accuracy, which comprises a big data verification application module, a vehicle-mounted communication module, a server and a can hardware device, wherein the big data verification application module is installed on a PC (personal computer), the USB end of the can hardware device is connected to the PC, the can line end of the can hardware device is connected with the can line of the vehicle-mounted communication module, and the vehicle-mounted communication module is connected with the server through network communication;

the big data verification application module is used for generating a can ID file, a dbc file and a big data xml file, simulating a vehicle to continuously send a large amount of orderly can data and storing the sent can data;

the vehicle-mounted communication module is internally stored with a can ID file, a dbc file and a big data xml file which are generated by the big data verification application module, and is used for acquiring a can signal sent by the big data verification application module in real time according to the can ID file, the dbc file and the big data xml file, generating an acquired can data file and uploading can data to the server;

the server is used for receiving the can data uploaded by the vehicle-mounted communication module and generating a received can data file;

the can hardware equipment is used for sending a can signal simulated by the big data verification application module to a can line for the vehicle-mounted communication module to collect;

the big data verification application module is also used for carrying out comparison statistics on can data sent by the simulated vehicle and can data acquired by the vehicle-mounted communication module, and calculating the accuracy rate of the can data acquired by the vehicle-mounted communication module;

the big data verification application module is also used for carrying out comparison statistics on the can data acquired by the vehicle-mounted communication module and the can data received by the server, and calculating the accuracy of the large data acquired and uploaded by the vehicle-mounted communication module and the server;

the big data verification application module is also used for carrying out comparison statistics on the can data sent by the big data verification application module and the can data received by the server, and calculating the accuracy of the can data uploaded by the vehicle-mounted communication module.

Further, the vehicle-mounted communication module is a vehicle-mounted 4G module.

The invention relates to a method for verifying big data acquisition and uploading accuracy, which adopts a system for verifying big data acquisition and uploading accuracy, and comprises the following steps:

setting the initial canId and the number of can messages through a big data verification application module; generating a canId file which is continuously increased in size and has a preset format according to the initial canId and the number of the can messages; generating a dbc file with a preset format which is continuously increased according to the canId and the number of the can messages; generating a big data xml file with a change acquisition rule, an uploading rule and a preset format according to the canId and the number of the can messages;

placing the canId file, the dbc file and the big data xml file into the vehicle-mounted communication module, and judging, collecting and uploading according to the three configuration files when the vehicle-mounted communication module collects the big data can signal;

setting periods of all messages and baud rates of the can buses through a big data verification application module; simulating and sending can messages, wherein all the can messages are sent to a can bus in a changing manner according to the set period and the baud rate period, and can data files which are sent in a simulating manner are saved;

the vehicle-mounted communication module collects can messages on a can bus according to the big data xml file and the collection rule, generates a collected can data file, and simultaneously uploads the big data to the server according to the uploading rule of the big data xml file;

the server generates a received can data file according to the received big data;

putting the acquisition can data file generated by the vehicle-mounted communication module and the receiving can data file generated by the server into the big data verification application module;

comparing and counting can data sent by the big data verification application module simulation vehicle and can data collected by the vehicle-mounted communication module, and calculating the accuracy of the can data collected by the vehicle-mounted communication module;

comparing and counting can data acquired by the vehicle-mounted communication module and can data received by the server, and calculating the accuracy of the large data acquired and uploaded by the vehicle-mounted communication module and the server;

and comparing and counting the can data sent by the big data verification application module with the can data received by the server, and calculating the accuracy of the can data uploaded by the vehicle-mounted communication module.

The invention has the following advantages: the method can automatically generate various configuration files required by the vehicle-mounted communication module for constructing the big data acquisition, and can count the number of correct numbers, lost frames, errors and repetition numbers of the big data can signals acquired and uploaded by the vehicle-mounted communication module, thereby simplifying the accuracy of the communication module for verifying the acquisition and uploading of the big data. The method is simple, high in efficiency, reliable and feasible, can accurately verify the phenomena of large data loss and errors, is convenient for finding problems in time, and provides real data information for users.

Drawings

FIG. 1 is a functional block diagram of a system in the present embodiment;

FIG. 2 is a flow chart of a method in the present embodiment;

in the figure, 1-big data verification application module, 2-vehicle-mounted communication module, 3-server and 4-can hardware equipment.

Detailed Description

The invention will be further explained with reference to the drawings.

In this embodiment, a system for verifying big data collection and uploading accuracy includes a big data verification application module 1, a vehicle-mounted communication module 2, a server 3, and a can hardware device 4, where the big data verification application module 1 is installed on a PC, a USB end of the can hardware device 4 is connected to the PC, a can line end of the can hardware device 4 is connected to a can line of the vehicle-mounted communication module 2, and the vehicle-mounted communication module 2 is connected to the server through network communication, so as to implement communication between each component.

The big data verification application module 1 is used for generating a can ID file, a dbc file and a big data xml file, simulating a vehicle to continuously send a large amount of orderly can data and storing the sent can data.

The vehicle-mounted communication module 2 is used for acquiring a can signal sent by the big data verification application module 1 in real time according to the can ID file, the dbc file and the big data xml file, generating the acquired can data file and uploading the can data to the server 3.

The server 3 is used for receiving the can data uploaded by the vehicle-mounted communication module 2 and generating a received can data file.

The can hardware equipment 4 is used for sending the can signal simulated by the big data verification application module 1 to a can line for the vehicle-mounted communication module 2 to collect.

The big data verification application module 1 is further used for comparing and counting can data sent by the simulated vehicle and can data collected by the vehicle-mounted communication module 2, and calculating the accuracy rate of the vehicle-mounted communication module 2 for collecting the can data.

The big data verification application module 1 is further configured to compare and count can data acquired by the vehicle-mounted communication module 2 and can data received by the server 3, and calculate accuracy of the big data acquired and uploaded by the vehicle-mounted communication module 2 and the server 3.

The big data verification application module 1 is further configured to compare and count can data sent by the big data verification application module and can data received by the server 3, and calculate the accuracy of the can data uploaded by the vehicle-mounted communication module 2, so that whether a problem occurs in the collection of the can data by the vehicle-mounted communication module 2 or the big data uploaded by the vehicle-mounted communication module 2 is determined.

In this embodiment, the vehicle-mounted communication module 2 is a vehicle-mounted 4G module.

As shown in fig. 2, in this embodiment, a method for verifying big data acquisition and uploading accuracy adopts the system for verifying big data acquisition and uploading accuracy as described in this embodiment, and the method includes the following steps:

the initial canId and the number of can messages are set by the big data verification application 1.

Continuously increasing canId files with a predetermined format are generated based on the starting canId and the number of can messages, each canId having 8 can signals.

And generating a dbc file with a preset format in continuous increment according to the can Id and the number of the can messages.

Designing that signals of each canId are collected, and generating a big data xml file with a variable collection rule, an uploading rule and a preset format according to the canId and the number of the can messages;

and placing the canId file, the dbc file and the big data xml file into the vehicle-mounted communication module 2, and judging, collecting and uploading according to the three configuration files when the vehicle-mounted communication module 2 collects the big data can signal.

The period of all messages and baud rate of can bus (supporting 125kbps, 500kbps, 1Mps, etc.) are set by big data verification application module 1.

And simulating to send can messages, and designing each byte of each message from low order to high order to gradually change from 0 to 255. All the can messages are sent to the can bus in a changing way according to the set period and the baud rate period, and the can data files sent in a simulating way are saved; the can message data content is shown in table 1:

TABLE 1 simulation of can data variation (example: initial canID of 0x2000, number of canIDs 2)

0x2000

00

0x2001

00

0x2000

01

00

0x2001

01

00

0x2000

02

00

0x2001

02

00

…

0x2000

FF

00

0x2001

FF

00

0x2000

FF

01

00

0x2001

FF

01

00

…

0x2000

FF

00

0x2001

FF

00

0x2000

FF

01

00

0x2001

FF

01

00

…

0x2000

FF

00

0x2001

FF

00

0x2000

FF

01

0x2001

FF

01

…

0x2000

FF

0x2001

FF

The vehicle-mounted communication module 2 collects the can messages on the can bus according to the big data xml file and the collection rule, generates the collected can data file, and uploads the big data to the server according to the uploading rule of the big data xml file.

The server generates a received can data file from the received big data.

The big data verification application module 1 may stop the simulation after the simulation sending the can message for a period of time, and at this time, the generated can file data may not change.

Then, the acquisition can data file generated by the vehicle-mounted communication module 2 and the receiving can data file generated by the server 3 are put into the big data verification application module 1;

comparing and counting the can data sent by the simulated vehicle of the big data verification application module 1 and the can data collected by the vehicle-mounted communication module 2, and calculating the correct frame number, the lost frame number, the error frame number and the repeated frame number of the can data collected by the vehicle-mounted communication module 2 so as to calculate the accuracy of the can data collected by the vehicle-mounted communication module 2.

And comparing and counting the can data acquired by the vehicle-mounted communication module 2 and the can data received by the server 3, and calculating the accuracy of the large data acquired and uploaded by the vehicle-mounted communication module 2 and the server 3.

And comparing and counting the can data sent by the big data verification application module 1 and the can data received by the server 3, and calculating the accuracy of the can data uploaded by the vehicle-mounted communication module 2.

Claims

1. A system for verifying big data acquisition and uploading accuracy is characterized in that: the system comprises a big data verification application module (1), a vehicle-mounted communication module (2), a server (3) and can hardware equipment (4), wherein the big data verification application module (1) is installed on a PC (personal computer), the USB end of the can hardware equipment (4) is connected to the PC, the can line end of the can hardware equipment (4) is connected with the can line of the vehicle-mounted communication module (2), and the vehicle-mounted communication module (2) is connected with the server (3) through network communication;

the big data verification application module (1) is used for generating a can ID file, a dbc file and a big data xml file, simulating a vehicle to continuously send a large amount of orderly can data and storing the sent can data;

the vehicle-mounted communication module (2) is internally stored with a canID file, a dbc file and a big data xml file which are generated by the big data verification application module (1), and the vehicle-mounted communication module (2) is used for acquiring a can signal sent by the big data verification application module (1) in real time according to the canID file, the dbc file and the big data xml file, generating an acquired can data file and uploading can data to the server (3);

the server (3) is used for receiving the can data uploaded by the vehicle-mounted communication module (2) and generating a received can data file;

the can hardware equipment (4) is used for sending a can signal simulated by the big data verification application module (1) to a can line for the vehicle-mounted communication module (2) to collect;

the big data verification application module (1) is also used for carrying out comparison statistics on can data sent by the simulated vehicle and can data acquired by the vehicle-mounted communication module (2) and calculating the accuracy rate of the vehicle-mounted communication module (2) for acquiring the can data;

the big data verification application module (1) is also used for carrying out comparison statistics on can data acquired by the vehicle-mounted communication module (2) and can data received by the server (3) and calculating the accuracy of the big data acquired and uploaded by the vehicle-mounted communication module (2) and the server (3);

the big data verification application module (1) is also used for carrying out comparison statistics on the can data sent by the big data verification application module and the can data received by the server (3) and calculating the accuracy of the can data uploaded by the vehicle-mounted communication module (2).

2. The system for verifying big data collection and upload accuracy of claim 1, wherein: the vehicle-mounted communication module (2) is a vehicle-mounted 4G module.

3. A method for verifying big data acquisition and uploading accuracy is characterized by comprising the following steps: the system for verifying big data acquisition and uploading accuracy is adopted according to claim 1 or 2, and the method comprises the following steps:

setting an initial canId and the number of can messages through a big data verification application module (1); generating a canId file which is continuously increased in size and has a preset format according to the initial canId and the number of the can messages; generating a dbc file with a preset format which is continuously increased according to the canId and the number of the can messages; generating a big data xml file with a change acquisition rule, an uploading rule and a preset format according to the canId and the number of the can messages;

placing the CanId file, the dbc file and the big data xml file into the vehicle-mounted communication module (2), and judging, collecting and uploading according to the three configuration files when the vehicle-mounted communication module (2) collects the big data can signal;

setting periods of all messages and baud rates of the can bus through the big data verification application module (1); simulating and sending can messages, wherein all the can messages are sent to a can bus in a changing manner according to the set period and the baud rate period, and can data files which are sent in a simulating manner are saved;

the vehicle-mounted communication module (2) collects can messages on a can bus according to the big data xml file and the collection rule, generates a collected can data file, and uploads the big data to the server according to the uploading rule of the big data xml file;

putting the collected can data file generated by the vehicle-mounted communication module (2) and the received can data file generated by the server (3) into the big data verification application module (1);

comparing and counting can data sent by the big data verification application module (1) simulation vehicle and can data collected by the vehicle-mounted communication module (2), and calculating the accuracy rate of the vehicle-mounted communication module (2) for collecting the can data;

comparing and counting can data acquired by the vehicle-mounted communication module (2) and can data received by the server (3), and calculating the accuracy of the large data acquired and uploaded by the vehicle-mounted communication module (2) and the server (3);

and comparing and counting the can data sent by the big data verification application module (1) and the can data received by the server (3) to calculate the accuracy of the can data uploaded by the vehicle-mounted communication module (2).