KR102157259B1 - Method and apparatus for automatic classification of time-tag coding of satellite equipment - Google Patents

Abstract

The present invention relates to a method for automatically classifying a time expression method of satellite equipment and an apparatus thereof. According to the present invention, the method for automatically classifying a time expression method of satellite equipment comprises the steps of: calculating a local time difference corresponding to a difference between a first local time receiving a first telemetry and a second local time receiving a second telemetry; calculating a first difference corresponding to a difference between a first field of a first time tag included in the first telemetry and a first field of a second time tag included in the second telemetry; comparing the local time difference and the first difference; and if the local time difference and the first difference are the same, setting a time expression method of the satellite equipment as a first time expression method. According to the present invention, there is an advantage of being able to automatically classify a time expression method of satellite equipment.

Description

Method and device for automatic classification of time expression method of satellite equipment {METHOD AND APPARATUS FOR AUTOMATIC CLASSIFICATION OF TIME-TAG CODING OF SATELLITE EQUIPMENT}

The present invention relates to a method and apparatus for automatically classifying a time representation method of satellite equipment.

Time-tag coding of satellite test and operation equipment (hereinafter referred to as satellite equipment) is manually set and fixed in advance, and related satellite tests and operations are performed using the set values. However, if the setting value of the time expression method of the satellite equipment is changed in the middle, it becomes impossible to perform the satellite test and operation.

For example, if the same satellite equipment uses time-tag coding = 1 for satellite test and time-tag coding = 2 for satellite operation, recognize this in advance and manually change the setting value of time-tag coding. Should be.

In addition, if the time representation method is changed during satellite test or operation (for example, time-tag coding is 2->1, 1->2), the setting value of the software (S/W) must be manually changed. Normal test execution and operation is impossible during the time required to change the set value. In addition, accurate post-processing analysis is possible only by recognizing the exact time when the time expression method was changed even during post-processing after the end of the test and operation.

Accordingly, a technical problem to be solved by the present invention is to provide a method and apparatus for automatically classifying a time expression method of satellite equipment.

In order to solve the above technical problem, the method for automatically classifying the time expression method of the satellite equipment according to the present invention is based on the difference between the first local time receiving the first telemetry and the second local time receiving the second telemetry. Calculating a corresponding local time difference, a first field corresponding to a difference between a first field of a first time tag included in the first telemetry and a first field of a second time tag included in the second telemetry Computing a difference, comparing the local time difference and the first difference, and if the local time difference and the first difference are the same, setting a time expression method of the satellite equipment as a first time expression method Includes.

If the local time difference and the first difference are not the same, the method corresponds to a difference between a predetermined portion of a second field of the first time tag and a predetermined portion of a second field of the second time tag. Computing a second difference, comparing the local time difference and the second difference, and if the local time difference and the second difference are the same, a time representation method of the satellite equipment is set as a second time representation method It may further include the step of.

The predetermined portion of the second field of the first time tag and the predetermined portion of the second field of the second time tag are bits 17 to 24 of the second field of the first time tag and the second time. It may be the 17th to the 24th bit of the second field of the tag.

The first time representation method is to allocate a time in seconds to the first field of a time tag, and the second time representation method assigns a time in seconds to the 17th to 24th bits of the second field of the time tag. It may have been assigned.

A computer-readable recording medium in which a program for executing the method is recorded on a computer may be included.

In order to solve the above technical problem, the apparatus for automatically classifying a time expression method of a satellite device according to the present invention includes a telemetry receiving unit for receiving a first telemetry and a second telemetry, and receiving the first telemetry. A local time difference corresponding to a difference between a first local time and a second local time at which the second telemetry is received is calculated, and the first field of the first time tag included in the first telemetry and the second 2 A calculation unit that calculates a first difference corresponding to a difference in a first field of a second time tag included in telemetry, compares the local time difference and the first difference, and compares the local time difference and the first difference If is the same, it includes a control unit that sets the time expression method of the satellite equipment as the first time expression method.

According to the present invention, there is an advantage of being able to automatically classify a time representation method of satellite equipment.

1 is a block diagram of an apparatus for automatically classifying a time representation method of satellite equipment according to an embodiment of the present invention.
2 is a flowchart illustrating an apparatus for automatically classifying a time representation method of satellite equipment according to an embodiment of the present invention.
3 is a diagram illustrating the structure of a telemetry message.
4 is a diagram showing a first time representation method of a time tag included in a telemetry message.
5 is a diagram illustrating a second time representation method of a time tag included in a telemetry message.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art may easily implement the present invention.

1 is a configuration diagram of an apparatus for automatically classifying a time representation method of satellite equipment according to an embodiment of the present invention, and FIG. 2 is a flowchart illustrating an operation of an apparatus for automatically classifying a time representation method of satellite equipment according to an embodiment of the present invention.

1 and 2, the satellite equipment 100 according to an embodiment of the present invention may include a telemetry receiver 110, a calculation unit 120, and a control unit 130.

The satellite equipment 100 may be equipment for satellite test or satellite operation.

First, the telemetry receiver 110 may receive telemetry transmitted from a satellite (S210). It is assumed that the first telemetry TLM0 is sequentially received from the satellite at the first local time L0 and the second telemetry TLM1 is received at the second local time L1. The first telemetry TLM0 may be a telemetry received immediately before the second telemetry TLM1. Assuming that the satellite equipment 100 receives telemetry every second, L1-L0 = 1 second.

3 is a diagram illustrating the structure of a telemetry message.

Referring to FIG. 3, the telemetry message includes a first field and a second field corresponding to a time-tag part.

4 is a diagram showing a first time representation method of a time tag included in a telemetry message.

Referring to FIG. 4, the first time representation method Code 2 may be that a first field of a time tag in a telemetry message is assigned a CORTEX CRT time in seconds. This is the number of seconds that have elapsed since January 1 of the current year. The second field is the number from the current second to the number of milliseconds. The first field is a 32-bit integer (coded in hexadecimal), while the second field is a 32-bit float value.

5 is a diagram illustrating a second time representation method of a time tag included in a telemetry message.

Referring to FIG. 5, the second time representation method (Code 1) is IRIG-B coding, the first field allocates day and hour, and the second field is minutes and seconds ( Second), allocate milliseconds (ms). In particular, in the second time representation method, a time in seconds is allocated to the 17th to 24th bits of the second field of the time tag part. Both the first field and the second field are 32-bit integers coded in binary-coded decimal (BCD) format.

Referring back to FIGS. 1 and 2, the calculation unit 120 includes a first local time L0 at which the first telemetry TLM0 is received and a second local time at which the second telemetry TLM1 is received. A local time difference (L1-LO = ΔT) corresponding to the difference in (L1) may be calculated (S220).

In addition, the calculation unit 120 includes a first field T01 of a first time tag included in the first telemetry TLM0 and a first field of a second time tag included in the second telemetry TLM1. A first difference (T01-T11 = ΔT1) corresponding to the difference T11) may be calculated (S230).

Thereafter, the control unit 130 compares the local time difference (△T) and the first difference (△T1) and, if the same (S240-Y), the time expression method of the satellite device 100 is changed to the first time expression method (Code 2). ) Can be set (S250).

Meanwhile, if the local time difference (ΔT) and the first difference (ΔT1) are compared and are not the same (S240-N), the calculation unit 120 determines the first time tag included in the first telemetry TLM0. A second difference corresponding to the difference between the predetermined portion T02 of the second field and the predetermined portion T12 of the second field of the second time tag included in the second telemetry TLM1 (T02-T12 = ΔT2) can be calculated (S260). Here, the predetermined portion T02 of the second field of the first time tag may be bits 17 to 24 of the second field of the first time tag. In addition, the predetermined portion T12 of the second field of the second time tag may be bits 17 to 24 of the second field of the second time tag.

The control unit 130 compares the local time difference (△T) and the second difference (△T2) and, if they are the same (S270-Y), the time expression method of the satellite device 100 is a second time expression method (Code 1). It can be set to (S280).

Meanwhile, the controller 130 may compare the local time difference ΔT and the second difference ΔT2 and, if they are not the same (S270-N), may warn of an error in relation to the satellite telemetry time (S290). ).

The satellite equipment 100 may repeatedly perform steps S210 to S290 on the currently received telemetry and the immediately previously received telemetry.

An embodiment of the present invention includes a computer-readable medium including program instructions for performing operations implemented by various computers. This medium records a program for executing the method described above. This medium may contain program instructions, data files, data structures, etc. alone or in combination. Examples of such media include hard disks, magnetic media such as floppy disks and magnetic tapes, optical recording media such as CDs and DVDs, floptical disks and magnetic-optical media, program commands such as ROM, RAM, flash memory, etc. Hardware devices configured to store and perform. Examples of the program instructions include not only machine language codes such as those produced by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements by those skilled in the art using the basic concept of the present invention defined in the following claims are also present. It belongs to the scope of rights of

100: satellite equipment
110: telemetry receiver
120: calculation unit
130: control unit

Claims (9)

Calculating a local time difference corresponding to a difference between a first local time receiving the first telemetry and a second local time receiving the second telemetry,
Calculating a first difference corresponding to a difference between a first field of a first time tag included in the first telemetry and a first field of a second time tag included in the second telemetry,
Comparing the local time difference and the first difference, and
If the local time difference and the first difference are the same, setting a time expression method of the satellite equipment as a first time expression method
Automatic classification method of the time representation method of satellite equipment comprising a.
In claim 1,
If the local time difference and the first difference are not the same, a second difference corresponding to a difference between a predetermined portion of a second field of the first time tag and a predetermined portion of a second field of the second time tag is determined. The steps to calculate,
Comparing the local time difference and the second difference, and
If the local time difference and the second difference are the same, setting a time expression method of the satellite equipment as a second time expression method
Automatic classification method of the time representation method of satellite equipment further comprising a.
In claim 2,
The predetermined portion of the second field of the first time tag and the predetermined portion of the second field of the second time tag,
A method for automatically classifying a time representation method of a satellite device in which bits 17 to 24 of a second field of the first time tag and bits 17 to 24 of a second field of the second time tag are.
In claim 3,
The first time representation method is to allocate a time in seconds to the first field of a time tag, and the second time representation method assigns a time in seconds to the 17th to 24th bits of the second field of the time tag. A method of automatically classifying the time representation method of satellite equipment that is allocated.
A computer-readable recording medium in which a program for executing any one of the methods of claim 1 to 4 is recorded on a computer.
A telemetry receiver for receiving first telemetry and second telemetry,
A local time difference corresponding to a difference between a first local time receiving the first telemetry and a second local time receiving the second telemetry is calculated, and a first time included in the first telemetry A calculation unit that calculates a first difference corresponding to a difference between the first field of the tag and the first field of the second time tag included in the second telemetry,
A control unit that compares the local time difference and the first difference, and if the local time difference and the first difference are the same, sets a time expression method of the satellite equipment as a first time expression method
Automatic classification device for a time representation of satellite equipment comprising a.
In claim 6,
If the local time difference and the first difference are not the same,
The calculation unit calculates a second difference corresponding to a difference between a predetermined portion of a second field of the first time tag and a predetermined portion of a second field of the second time tag,
The control unit compares the local time difference and the second difference, and if the local time difference and the second difference are the same, the control unit sets a time expression method of the satellite equipment as a second time expression method. Method automatic classification device.
In claim 7,
The predetermined portion of the second field of the first time tag and the predetermined portion of the second field of the second time tag,
A device for automatically classifying a time representation method of a satellite device, which is a 17th to 24th bit of a second field of the first time tag and a 17th to 24th bit of a second field of the second time tag.
In claim 8,
The first time representation method is to allocate a time in seconds to the first field of a time tag, and the second time representation method assigns a time in seconds to the 17th to 24th bits of the second field of the time tag. A device that automatically classifies the time representation method of satellite equipment that is allocated.

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