KR101102569B1 - Post data processing system and method - Google Patents

Abstract

PURPOSE: A post data processing system and a method thereof are provided to increase the processing speed of flight data by the reduction of load on a center server based on distributed processing. CONSTITUTION: A center server(10) tabulates the data from a flight data storage device and transmits the data to a terminal(20). The terminal combines the data with the parameter and directly produces result files. The table comprises a time field for storing time information, packet ID for classifying the kind of the data stored according to the time information, a channel ID for classifying the data, classified into the packet ID, into the transmission channel, and a packet body for storing the data classified by the packet and the channel ID.

Description

Post data processing system and method {POST DATA PROCESSING SYSTEM AND METHOD}

The present invention relates to a post data processing system and method, and more particularly to a post data processing system and method for improving data processing speed and processing data in IRIG-106 Chapter 10 format.

In the aerospace industry, a remote system is used to measure and analyze actual flight data, which is divided into a flight system and a ground system. Flight-mounted system consists of Sensor, Bus, Multiplexer, Encoder, Transmitter, etc., Ground system is receiver, bit synchronizer, PCM decommutator, PCM simulator, real time data processing system, post process system system).

In particular, most storage devices and data processing system developers have their own storage formats, and thus, there is a problem in that the convenience of use is reduced because they are not linked with other devices. In order to solve this problem, the specification of the digital storage format of the Inter-Range Instrumentation Group (IRIG) 106 Chapter 10 was established.

In addition, the capacity of the digital storage device has increased day by day, the flash memory of tens or hundreds of gigabytes appeared, there was a problem that takes a considerable time to process a large amount of data stored in the memory.

For this reason, it is very important to improve the processing speed of the post processing system in order to shorten the time required for processing the data of the IRIG-106 Chapter 10 format. The post data processing system refers to a system that converts data stored in IRIG-106 Chapter 10 format into a data format desired by a user through a predetermined process.

Hereinafter, the conventional post-processing system will be described in detail with reference to FIG. 5.

Conventional post-processing system is composed of a first server 30 and a second server 40, the data is concentrated in the first server 30 is processed. The first server 30 receives the CH10 file and the TSPI file from the storage of flight data. The CH10 file is the data generated by the IRIG-106 Chapter 10 standard, and the information detected by the sensors of the aircraft is stored. The TSPI file is the time space position information, which stores the trajectory information and flight position information. The data size of the CH10 file and TSPI file is about 25GB.

The second server 40 stores a parameter, and the parameter refers to the amount of change in flight environment as a parameter. That is, since the user analyzes how the plane operates when the flight environment changes based on the actual flight data, the parameter refers to the amount of change in the flight environment that gives a predetermined change to the actual flight data. In addition, since the amount of change in flight environment required for each user is different, the parameters used for different users are also different. Therefore, the second server 40 stores all necessary parameters for each user, and the number of parameters is thousands or tens of thousands.

The first server 30 receives a request for data transmission from the user, receives flight data from the storage device, and receives a parameter according to the user from the second server 40. After receiving the flight data and parameters, the first server 30 combines the flight data and parameters to generate new data, and transmits the generated data to the user.

As described above, in the conventional post-processing system, all data is concentrated and processed on the first server 30. For this reason, the data processing speed is not a problem when there are few users using the post-processing system. However, since a large number of users generally use the data processing speed, there is a problem that the data processing speed is significantly reduced.

In addition, the user generally needs only a part of the entire flight data, but the conventional post data processing system combines all the flight data with the parameter, there is a problem that the time required for processing unnecessary data is significantly increased.

The present invention has been made to solve the above problems,

The problem to be solved by the present invention is to provide a post-data processing system and method for improving the data processing speed.

It is also an object of the present invention to provide a post data processing system and method for processing data in IRIG-106 Chapter 10 format.

Another object of the present invention is to provide a post-data processing system and method for distributing and processing data to a user terminal.

In addition, the problem to be solved by the present invention is to provide a post-data processing system and method for receiving only the data required by the user.

It is also an object of the present invention to provide a post data processing system and method for facilitating data retrieval.

The post data processing system includes a central server for distributing the processing of data by tabulating the data received from the storage of the flight data so as to directly generate a result file in the terminal, and transmitting the data to the terminal based on the table; And a terminal sharing the load of the central server by directly generating a result file by combining the data transmitted from the central server with a parameter.

In addition, the flight data is characterized in that the IRIG-106 chapter 10 format is stored.

In addition, the central server receives and reads the CH10 file and TSPI file received from the storage of the flight data, generates a table based on the read result, and retrieves the data of the table at the request of the terminal, Characterized in that the data is transmitted to the terminal.

The table may further include a time field for storing time information on which a CH10 file and a TSPI file are generated; A packet ID for classifying a type of stored data according to the time information; A channel ID for classifying data classified according to the packet ID according to a transmission channel; And a packet body in which data classified by the packet ID and the channel ID are stored.

The central server may search for data based on a timefield and a packet ID of a table according to a request of a terminal, and search for data based on the timefield.

In addition, the central server retrieves data based on the time field, packet ID, and channel ID of the table upon request of the terminal, and retrieves data based on the channel ID after the data search is completed based on the packet ID. Characterized in that.

In addition, the terminal requests data from the central server based on the time field and the packet ID, receives the requested data from the central server, combines the parameter to generate a result file, and the parameter is generated by the user to the terminal. It is characterized by indicating the amount of change in flight status to be stored.

The post data processing method includes a first step of requesting data transmission to a central server by a terminal that has received a request for data transmission from a user to generate a result file directly from the terminal; A second step of the central server searching the table for the data requested in the first step; A third step of transmitting, by the central server, the data retrieved in the second step to the terminal in order to distribute the processing of the data; And a fourth step of the terminal directly generating the result file by combining the data transmitted from the central server with the stored parameters.

In addition, the data stored in the central server in the first step is characterized in that stored in the IRIG-106 chapter 10 format.

The table of the second step may be generated based on the read result by reading the CH10 file and the TSPI file, and the table may include: a time field for storing time information on which the CH10 file and the TSPI file are generated; A packet ID for classifying a type of stored data according to the time information; A channel ID for classifying data classified according to the packet ID according to a transmission channel; And a packet body in which data classified by the packet ID and the channel ID are stored.

In the second step, the data is searched based on the timefield and the packet ID, and the data is searched based on the timefield.

In addition, the fourth step is to receive the requested data from the central server to generate a result file by combining with the parameter, the parameter is generated by the user and stored in the terminal, characterized in that the change in the flight status.

According to the present invention, by distributing data to a terminal of a user without concentrating the data on the central server, the load on the central server is reduced, thereby improving the processing speed of the data.

In addition, by processing data based on IRIG-106 Chapter, it can be used in conjunction with other company's equipment, thereby improving user convenience.

In addition, since the user receives only necessary data from the central server, the data processing speed is further improved.

In addition, since data is searched using a table generated based on a CH10 file and a TSPI file, it is possible to easily search for necessary data, thereby improving the data processing speed.

1 is a block diagram illustrating one embodiment of a post-data processing system of the present invention;
2 is a block diagram showing a table of the present invention.
Figure 3 is a block diagram showing a result file of the present invention.
4 is a flow chart illustrating one embodiment of a post-data processing method of the present invention.
5 is a block diagram showing a conventional data processing system.

Hereinafter, a preferred embodiment of the present invention data processing system and method will be described in detail with reference to the accompanying drawings.

1 is a block diagram illustrating an embodiment of a post data processing system (PDPS) of the present invention. The present invention provides a central server 10 for distributing processing of data, in the central server 10. The terminal 20 is configured to process the received data and directly generate a result file.

The central server 10 receives and reads a CH10 file and a TSPI file from a storage device of flight data in order to distribute data processing, generates a table based on the read result, and at the request of the terminal 20. The data in the table is searched and the searched data is transmitted to the terminal 20. That is, the central server 10 may reduce the load of the central server 10 by distributing data to the terminal 20 so that the data is processed by the terminal 20.

The CH10 file is data generated by IRIG-106 Chapter 10, which is an international standard for files recorded on digital storage devices. The CH10 file stores information detected by an airplane sensor. The TSPI file is time space position information and stores information about flight trajectory and flight posture.

The central server 10 reads data stored in the CH10 file and the TSPI file and generates a table based on the data. By tabulating the CH10 file and the TSPI file, data can be easily searched using the table, and a user can search and receive only necessary data.

2 shows a table of the present invention, which is composed of a timefield, a channel ID, a packet ID, and a packet body.

The time field stores the time information of the CH10 file and TSPI file. That is, in order to store the CH10 file and the TSIP file in a table according to time, time information on which the CH10 file and the TSPI file are generated is stored.

The packet ID classifies the type of stored data according to time, and the channel ID classifies the data classified according to the packet ID according to the transmission channel. For example, classifying types of video data, audio data, and the like collected from an airplane uses a packet ID, and among the video data, which channel the video data is transmitted from is classified using a channel ID. That is, it is a concept of being physically connected to a plurality of channel IDs to the same packet ID. After classifying the types of data by the packet IDs, the transport channels are classified using the channel IDs.

The packet body stores data classified by packet ID and channel ID. That is, the packet body stores the actual data collected from the plane.

Since the table is composed of a time field, a channel ID, a packet ID, and a packet body, it is possible to easily search for data required by a user, thereby reducing the time required for data processing.

The type of the table indicates the data size used by each field. The time field uses 8 bytes (bigint), the packet ID and channel ID use 4 bytes (int), and the packet body uses a large value data type. Use (varbinary (MAX)).

The Null of the table indicates whether data should be stored in each field. The time field is nullable due to the absence of time information of Telemetry Attributes Transfer Standard (TMATS) information, but the packet ID, channel ID, and packet body have information. Must be stored.

The key of the table indicates the priority of data retrieval, and the data is retrieved with the time field as the top priority.

When searching the data stored in the table, the timefield and the packet ID may be searched, and the timefield, the packet ID and the channel ID may be searched. That is, the data is searched within a predetermined time based on the time field, the searched data is searched by type based on the packet ID, and the searched data is searched by transport channel of the data based on the channel ID. In addition, since the index is formed in the timefield and the packet ID, it is possible to search quickly and the type and order of the fields can be processed according to the situation.

After the data is searched according to the time field and the packet ID or the time field, the packet ID and the channel ID, the searched data is transmitted to the terminal 10. In the data transmitted to the terminal 10, data regarding a time field, a packet ID, a channel ID, and a packet body are transmitted.

As described above, the central server 10 only functions to table the CH10 file and the TSPI file, retrieve the data of the table, and transmit the retrieved data to the terminal 20. By reducing the load, you can increase the data throughput.

That is, the data processing speed is improved by distributing the data and distributing the processing of the data to the terminal 20. In addition, since the central server 10 transmits only the data required by the user to the user terminal 20 based on the table, the data processing speed may be further improved.

The terminal 20 requests the central server 10 to transmit data, receives the requested data from the central server 10 and combines the parameters to generate a result file. That is, the terminal 20 requests the central server 10 to transmit data according to a user's request, and requests data based on the timefield and the packet ID. The packet ID is information inherent in the selected parameter. In addition, data may be requested based on a timefield, a packet ID, and a channel ID.

The parameter is stored in the terminal 20, and the parameter refers to the amount of change in the flight environment as a parameter. That is, since the user analyzes how the plane operates when the flight environment changes based on the actual flight data, the parameter refers to the amount of change in the flight environment that gives a predetermined change to the actual flight data. In addition, since the amount of change in flight environment required for each user is different, the parameters used for different users are also different.

The terminal 20 generates the result file by combining the parameter and the data received from the central server 10. 3 is a block diagram showing a result file of the present invention. The result files are arranged according to time, and data and parameters are combined and processed.

Therefore, since the terminal 20 directly generates the result file by combining the data and parameters received from the central server 10, the central server 10 compared with the data and parameters in the conventional central server 10 is combined. Can reduce the load.

In the above, the structure and function of the post-data processing system (PDPS) of this invention were demonstrated in detail. Hereinafter, the use state of the post-data processing system PDPS of the present invention will be described in detail.

The present invention post data processing system (PDPS) is a table receives raw data from a storage device that stores data of IRIG-106 Chapter 10 format, and when a plurality of users access the system to request a predetermined data, the table Is configured to retrieve the requested data from and transmit it to the user.

 The data requested by each user is different from each other, and the central server 20 retrieves the data according to the user's request. At this time, the central server 10 retrieves data from the table generated based on the CH10 file and the TSPI file.

That is, each user requests data based on a timefield and a packet ID, and the central server 10 retrieves data from a table according to the user's request. After the retrieval of the data is completed, the central server 10 transmits the data to the terminal 20 of each user.

The terminal 20 receiving the data generates a result file by combining the data with the stored parameters. That is, in the related art, a result file is generated by combining data and parameters in a server. However, in the present invention, since the result file is generated by combining data and parameters in the terminal 20, the load of the central server 10 may be shared. .

In the above, the post-mortem data processing system (PDPS) of this invention was demonstrated in detail. Hereinafter, the post-data processing method of the present invention will be described in detail.

4 is a flow chart illustrating an embodiment of the post-data processing method of the present invention. In the post-data processing method, a terminal server 20 which is requested to transmit data from a user to generate a result file directly from the terminal 20 is a central server. A first step (S1) of requesting data transmission to (10), a second step (S2) of the central server 10 retrieving the data requested in the first step (S1) from a table, and processing of the data In order to distribute, the central server 10 transmits the data retrieved in the second step S2 to the terminal 20 in step S3, and the terminal 20 sends the central server 10 in the third step S3. And a fourth step S4 of directly generating the result file by combining the data transmitted from the data with the stored parameters.

In the first step (S1), the request terminal 20 receives the data transmission from the user, requests the central server 10 to transmit the data, and requests the data based on the time field and the packet ID. .

That is, the user requests data on the basis of time information on which data is needed, the type of data, and a channel on which the data is transmitted.

In the second step S2, the central server 10 retrieves the data requested in the first step S1 from the table, and the table is generated based on the CH10 file and the TSPI file. The table includes a time field for storing time information on which CH10 files and TSPI files are generated, a packet ID for classifying types of data stored according to the time, and data classified according to the packet ID according to a transmission channel. And a packet body for storing data classified by the packet ID and the channel ID.

When searching for data in the table, the search may be performed based on the time field and the packet ID, and may be searched based on the time field, the packet ID and the channel ID. At this time, the data is searched with the time field as the top priority. If there is no time information in the time field, the data is searched with the packet ID as the priority. That is, the time field, the packet ID, and the channel ID may be used as a search condition when searching for data.

In the third step S3, the central server 10 transmits the data retrieved in the second step S2 to the terminal 20. The data transmitted to the terminal 20 is composed of a time field, a packet ID, a channel ID, and a packet body, and only data requested by each user is transmitted. Therefore, since unnecessary data is not transmitted, the data processing speed at the central server 10 is improved.

The fourth step S4 directly generates the result file by combining the data received from the central server 10 by the terminal 20 with the stored parameters in the third step S3. The parameter is generated by the user's needs and stored in the terminal 20. The parameter refers to the amount of change in the flight environment as a parameter.

That is, since the terminal 20 combines data and parameters to directly generate a result file, the load of the central server 10 may be distributed.

10... Central server
20... terminal
30... First server
40 ... Second server

Claims (12)

delete delete delete A central server for distributing the processing of the data by tabulating the data received from the storage of the flight data so that the terminal generates the result file directly, and transmitting the data to the terminal based on the table; And
And a terminal for sharing the load of the central server by directly generating a result file by combining the data transmitted from the central server with a parameter.
The table is,
A time field in which time information on which a CH10 file and a TSPI file are generated is stored;
A packet ID for classifying a type of stored data according to the time information;
A channel ID for classifying data classified according to the packet ID according to a transmission channel; And
And a packet body for storing data classified by the packet ID and the channel ID. The method of claim 4, wherein
The central server retrieves data based on the time field and packet ID of the table according to the request of the terminal,
And retrieving data with the timefield as a priority. 6. The method of claim 5,
The central server searches for data based on the time field, packet ID and channel ID of the table when requested by the terminal.
And after the data is searched based on the packet ID, searching for data based on the channel ID. The method of claim 6,
The terminal requests data from the central server based on the time field and the packet ID, receives the requested data from the central server, combines the parameters to generate a result file, and the parameters are generated by the user and stored in the terminal. Post data processing system, characterized in that indicating the amount of change in flight status. delete delete A first step of requesting, by a terminal, data transmission from a user to generate a result file directly from the terminal, requesting data transmission from the central server;
A second step of the central server searching the table for the data requested in the first step;
A third step of transmitting, by the central server, the data retrieved in the second step to the terminal in order to distribute the processing of the data; And
And a fourth step of the terminal directly generating a result file by combining the data received from the central server with the stored parameters.
The table of the second step is generated based on the read result by reading the CH10 file and the TSPI file,
The table may include a time field in which time information on which a CH10 file and a TSPI file are generated is stored;
A packet ID for classifying a type of stored data according to the time information;
A channel ID for classifying data classified according to the packet ID according to a transmission channel; And
And a packet body storing data classified by the packet ID and the channel ID. The method of claim 10,
And the second step retrieves data based on a timefield and a packet ID, and searches for data based on the timefield. 12. The method of claim 11,
The fourth step is a post-data processing method characterized in that receiving the requested data from the central server and combined with the parameter to generate a result file, the parameter is generated by the user and stored in the terminal to indicate the change in flight status.

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