JP4988779B2 - Satellite analysis operation support program and information processing apparatus - Google Patents

Description

  The present invention relates to an analysis operation support program for supporting execution of an analysis program group of an artificial satellite and an information processing apparatus for executing the analysis operation support program.

The satellite must be maintained at a fixed position in orbit throughout the service period. Therefore, various analysis tasks (for example, current position estimation calculation, future position prediction calculation, control plan calculation for trajectory maintenance, residual propellant amount estimation calculation, propellant amount life prediction calculation) as orbit maintenance management tasks Has been implemented. These analysis tasks require specific numerical calculations, and each analysis program is used.
Also, an analysis program cannot be handled simply as an analysis program is used alone, and multiple analysis programs are related to each other, for example, an analysis result from one analysis program is input to another analysis program. It is comprised by the analysis program group which has.
Therefore, in the analysis work in satellite operation, the operator uses a plurality of analysis programs, and operator judgment is generated in each analysis program. In each analysis program, there are many parameters to be set, so that an operator's operation error is likely to occur, and there is a problem that it is difficult to operate the analysis work unless the operator is familiar with the analysis program.

In order to solve such a problem, an execution control information generating unit that generates an execution control statement file from an execution condition file and a processing condition information generating unit that generates a processing condition file from the execution condition file are provided. A program for executing an analysis program group that facilitates is proposed. As a result, complicated analysis work can be simplified, and the execution of analysis by a plurality of analysis patterns can be operated by an operator in charge of program execution other than the person in charge who is familiar with the analysis program. (See Patent Document 1)
The analysis operation of the artificial satellite repeats the same operation in a cycle of several days to several weeks depending on the cycle of orbit control necessary for orbit maintenance. The operator uses the analysis program group in combination as a daily work in this cycle as a regular work.

JP 2006-99657 A

The analysis program execution program of Patent Document 1 is useful for facilitating the execution conditions and simplifying the analysis work, but in the actual steady operation, the analysis work is repeated unless a problem occurs in the satellite. It will be a simple task. The analysis work requires more detailed analysis based on judgment, and it is not considered that it is generally desirable to facilitate the execution conditions. For example, since the current satellite status is used as an input, the analysis program is executed in a specific analysis pattern in the execution order determined on a daily basis, and there are many settings that require detailed knowledge of the analysis program. Such as confirmation of input mistakes to the user, the workload is high.
For the operator, it is necessary to pay attention to considering the result output from the analysis program by reducing the load of this simple work. Also, from this consideration result, a specific analysis program may be re-executed with a plurality of analysis patterns, and this operation is required to be easily performed.

  The present invention is intended to solve the above-described problems, manages the analysis pattern and execution order of the analysis program group, enables automatic execution of the analysis program group, and makes judgments by the operator and detailed analysis patterns on the way. It is an object of the present invention to provide an analysis operation support program for an artificial satellite and an information processing apparatus that facilitate the transition to execution by a computer.

  The artificial satellite analysis operation support program according to the present invention is an artificial satellite that supports execution of an analysis program group composed of a plurality of analysis programs in which an analysis program of an artificial satellite that derives output data from input data and analysis settings is mutually related. In the satellite analysis operation support program, the operation procedure recording process that records the operation procedure of the analysis program group in the operation that periodically executes the analysis program group as operation procedure data, and the input data and output data are specified by the number of operations The information processing apparatus is caused to execute data identification processing to be performed and execution instruction processing for notifying the analysis program group of an execution instruction in accordance with operation procedure data.

  The information processing apparatus according to the present invention also provides an analysis of an artificial satellite that supports execution of an analysis program group including a plurality of analysis programs in which the analysis program of the artificial satellite that derives output data from the input data and the analysis setting is related to each other. An operation procedure data selection means for selecting operation procedure data that records the operation procedure of the analysis program group in an operation in which the execution of the analysis program group is periodically repeated in the information processing apparatus equipped with the operation support program, and input according to the number of operations Operation frequency setting means for setting the number of operations of data identification processing for specifying data and output data, and analysis according to the operation procedure data selected by the operation procedure data selection means based on the operation frequency set by the operation frequency setting means Execution instruction processing means for notifying the program group of execution instructions It is intended.

  According to the present invention, it is possible to use the relationship between the analysis programs and the operation procedure without being aware at the time of operation, and it is possible to prevent an operation error. In addition, it is possible to facilitate the transition to the execution by the determination by the operator and the detailed analysis pattern on the way.

It is a block diagram which shows the structure of the analysis program used for this invention, and the operator operation part accompanying it. It is a figure which shows the example of an analysis program in operation of the artificial satellite used for this invention. It is a block diagram which shows the structure provided with the analysis operation assistance program in Embodiment 1 of this invention, and the operator operation part accompanying it. It is a figure which shows the structure of the operation procedure data in Embodiment 1 of this invention. It is a figure which shows an example of the content of the operation process of the operation procedure data shown in FIG. It is a figure which shows the operation procedure data example in the operation of an artificial satellite. It is a figure which shows the example of a combination of the operation process in the operation procedure data shown in FIG. FIG. 8 is a diagram in which the number of operations is applied to the operation procedure data illustrated in FIG. 7. It is a figure which shows the example of automatic calculation of an operation period. It is a figure which shows the example of GUI of the information processing apparatus which performs the analysis operation assistance program in Embodiment 1 of this invention.

Embodiment 1 FIG.
Hereinafter, an analysis operation support program and an information processing apparatus that executes the analysis operation support program according to Embodiment 1 of the present invention will be described with reference to FIGS.
FIG. 1 is a block diagram showing a configuration of an analysis program used in the present invention and an operator operation unit of an information processing apparatus associated therewith. In FIG. 1, an information processing apparatus 1 as computer hardware is shown at the top of the drawing, and an analysis program 2 as computer software is shown at the bottom of the drawing.

The information processing apparatus 1 includes an input data selection unit 11 that selects input data by an operator operation, an analysis setting unit 12 that sets analysis content, an execution unit 13 that executes analysis processing from the input data and analysis content, It has the result evaluation part 14 which displays and evaluates the result by an analysis process, and the data storage part 15 which preserve | saves the result data by an analysis process. Note that the input data selection unit 11, the analysis setting unit 12, the execution unit 13, and the result evaluation unit 14 are GUI (Graphic User).
It is operated from a mouse, a keyboard or the like based on the screen displayed on the interface) or the screen.

The analysis program 2 includes a data input process 21 input from the input data file by the input data selection unit 11, an analysis setting process 22 set from the analysis setting file by the analysis setting unit 12, and input data Din and analysis settings. An analysis process 23 that performs an analysis process based on the data and a data output process 24 that outputs output data Dout resulting from the analysis process are included.
The data input process 21 displays the contents of the input data Din selected by the input data selection unit 11 and the selected result on the GUI. The analysis setting process 22 displays the analysis setting contents set by the analysis setting unit 12 and the set result contents on the screen on the GUI. Further, when input data Din is selected and analyzed and set, and an execution instruction is given by the execution unit 13 on the GUI screen, input data and analysis settings are generated and the analysis processing 23 performs analysis processing. The data output process 24 displays the analysis result of the analysis process 23 on the GUI as output data Dout. The output data Dout of one analysis program 2 has a mutual relationship as input data of another analysis program 2 or as a factor that generates input data.
As described above, the analysis program 2 includes steps of analysis processing for deriving output data Dout from input data Din processing and analysis setting processing.

Next, an example of the analysis program 2 in the operation of the artificial satellite will be described. FIG. 2 shows the operator's main judgment based on the input data Din, analysis settings, output data Dout, and analysis results in each analysis program 2. The input data Din is the content determined by the data input processing 21 by the selection of the input data selection unit 11, the analysis setting is the content determined by the analysis setting processing 22 by the setting of the analysis setting unit 12, and the output data Dout is the analysis processing. 23 shows the contents of the data output process 24, which is the analysis result of 23. The main judgment of the operator is contents that the operator should judge from the contents of the output data Dout.

For example, in the case of the “orbit determination” analysis program 2, “satellite tracking data” is selected as the input data Din, and “determination setting” and “ground station information” are set as the analysis settings. If this analysis program 2 for “orbit determination” is executed, the output data Dout will be “satellite current position”, and the operator will be able to hold the satellite position by looking at the output data Dout of “satellite current position”. Evaluate whether The evaluation determines whether to execute the next analysis program or perform the analysis again using the same analysis program.
Similarly, in the case of the analysis program 2 for “orbit position prediction”, “current position of satellite” and “orbit control plan” are selected as the input data Din, and “propagation setting” is set as the analysis setting. If this “orbit position prediction” analysis program 2 is executed, the output data Dout will be output as “future predicted position of satellite”, and the operator will see the output data Dout of “future predicted position of satellite” to determine the satellite position. Evaluate how long can be retained. The evaluation determines whether to execute the next analysis program or perform the analysis again using the same analysis program.

Hereinafter, in the case of each analysis program 2 of “orbit / ground event prediction”, “satellite parameter generation”, “orbit control plan”, “residual propellant amount estimation”, “orbit control estimation”, and “orbit control evaluation”, the input data Din, The main judgment of the operator based on analysis settings, output data Dout and analysis results is
The contents described in each column are input selection, analysis setting and output.
Here, since the output data Dout may become the input data Din of another analysis program 2, the input data Din and the output data Dout have the same format and can be handled as either data.

FIG. 3 shows a configuration including the analysis operation support program according to the first embodiment of the present invention for a plurality of analysis programs 2 (hereinafter referred to as “analysis program group”) and an operator operation unit of the information processing apparatus associated therewith. FIG.
3, an information processing apparatus 1 as computer hardware is shown in the upper part of the drawing, an analysis operation support program 3 as computer software is shown in the middle of the figure, and an analysis program 2 as computer software is shown in the lower part of the drawing. The analysis program 2 is the same as that described with reference to FIG.

The information processing apparatus 1 includes an operation procedure data creation unit 16 that creates analysis operation procedure data by an operator operation, an operation procedure data selection unit 17 that selects operation procedure data created by the operation procedure data creation unit 16, and an operation An operation number setting unit 18 for setting the number of operations, an execution unit 13 and a result evaluation unit 14 are provided. The execution unit 13 and the result evaluation unit 14 are the same as those described in FIG.
The operation procedure data creation unit 16, the operation procedure data selection unit 17, the operation frequency setting unit 18, the execution unit 13, and the result evaluation unit 14 are operated from a screen displayed on the GUI or a mouse or a keyboard based on the screen. The

The analysis operation support program 3 shown in FIG. 3 includes, for an analysis program group, an operation procedure recording process 31 that records a plurality of operation processes (described later) created by the operation procedure data creation unit 16 as operation procedure data Dt; An operation procedure data selection process 32 for selecting the operation procedure data Dt recorded in the operation procedure recording process 31, a data identification process 33 for specifying the input data Din and the output data Dout by the operation number N set by the operation number setting unit 18; Operation procedure data D
According to t, at least each step of the execution instruction processing 34 for notifying the analysis program 2 group of an execution instruction is provided.

  The operation procedure recording process 31 displays the operation procedure creation process created by the operation procedure data creation unit 16 on the GUI, and records the created operation procedure as operation procedure data Dt. The operation procedure data selection process 32 displays the operation procedure selected by the operation procedure data selection unit 17 on the screen on the GUI. The data identification process 33 displays the contents set by the operation count setting unit 18 on the GUI. Furthermore, when the execution procedure 13 is instructed to execute the execution instruction process 34 after the operation procedure data Dt is selected and the operation count N is set, the analysis program name and analysis setting contents based on the operation procedure data Dt are displayed in the GUI. The screen is displayed and analysis processing by the analysis program group 2 is executed. The data output process 24 displays the analysis result obtained by the analysis process 23 on the screen as output data Dout on the GUI evaluation result unit 14.

The operation procedure recording process 31 records a combination of a plurality of operation processes as one operation procedure data Dt. In addition, a plurality of operation procedure data Dt can be recorded. The structure of the operation procedure data Dt recorded in the operation procedure recording process 31 is shown in FIG.
As shown in FIG. 4, the operation procedure data Dt recorded in the operation procedure recording process 31 includes a plurality of operation procedure data 1 to operation procedure data n, and one operation procedure data Dt includes a plurality of operation processes 1 (Sr). ) To operation processing m (Sr).
Further, one operation process Sr includes process message information Im for alerting the operator, execution type information Ig that holds whether or not to prompt the operator to confirm, and whether to execute at a specified time.
Operation target information Is for specifying the analysis program 2 to be operated, processing content information In for specifying operations of the analysis program such as reading input data, executing analysis setting application analysis program, saving output data, and printing , Processing target information It that indicates processing target data such as input data name, analysis setting name, and output data name.

  An example of specific contents of the operation processing Sr of the analysis program group is shown in FIG. In FIG. 5, processing message information Im can be freely described as a character string. The execution type information Ig can be selected from the items of “manual execution”, “automatic execution”, and “execution after a certain time”. The operation target information Is includes “orbit determination”, “orbit position prediction”, “orbit / ground event prediction”, “hygiene parameter generation”, “orbit control plan”, “remaining drug amount estimation”, “orbit control estimation”, “orbit control evaluation”, etc. Select from analysis program 2. The processing content information In is selected from the items of “input data selection”, “analysis setting”, “execution”, “printing”, “external transmission”, “output data saving”, “alarm ringing”, “history printing”, and “standby”. Note that the mark * of the processing content information In is an item that requires processing target information It described later.

The processing target information It contains a character string of a file name, and a three-digit number based on the number of operations N is reflected in the portion of the character string $$, so that the input data name used in the current operation and It is possible to automatically specify the output data name. In addition, the three-digit number of “equivalent to the previous operation process”, “previous operation process + 2”, “previous operation process + 1”, “previous operation process-1”, or “previous operation process-2” is displayed in the place of $$$$. The operation process refers to the operation count N, and the previous operation process is the same as the operation count N.
In this way, the processing target information It reflects the number of operations N, so that the processing target information It in the current operation can be automatically identified. In addition, by making it possible to specify a file name as the processing target information It that does not reflect the operation count N, it is also possible to specify the processing target information It that does not depend on the operation count N such as analysis settings.

  An example of specific contents of the operation procedure data Dt will be described with reference to an example of operation procedure data in the operation of an artificial satellite as shown in FIG. The operation procedure data Dt shown in FIG. 6 includes four operation procedure data Dt of “operation before north-south control”, “operation before east-west control”, “operation after north-south control”, and “operation after north-south control”. Then, from the data collected on the second day, the “operation before the north-south control” is analyzed, the current position of the satellite is estimated, the position on the third day is predicted, and the north-south control plan is drawn up. On the 4th day, further data collection is performed. From this collected data, the “pre-east / west control operation” analysis is performed, the current position of the north-south control result is estimated, the position on the 5th day is predicted, and the east-west control plan is Make a plan. On the 5th day, the “post-north-control operation” analysis is performed, and the results of the north-south control are evaluated, and the amount of residual propellant is estimated. Further data collection is performed on the 6th day, and the “post-east-west control operation” analysis is performed from the data collected on the 7th day, the east-west control result is evaluated, and the amount of residual propellant is estimated.

  FIG. 7 shows a combination example of the operation processing St in the operation procedure data Dt of “operation before and after north-south control” among the operation procedure data Dt in the operation of the artificial satellite described above. The operation process St of the operation procedure data Dt shown in FIG. 7 includes 17 operation processes 1 to 17, and the execution type information Ig, operation target information Is, process content information In, and process target information in each operation process St. The contents of It are selected from the contents described in FIG. For example, in the operation process 1, the execution type information Ig is “execute after a certain time”, the operation object information Is is “orbit determination”, the process content information In is “input data selection”, and the process object information It is “RNG $$$”. NS_PRE.txt "file is selected. In addition, as described above, “$ equivalent to the previous operation process”, “previous operation process + 1”, “previous operation process−1”, and the like are included in the $$ in the character string of the processing target information It. Is described.

For example, FIG. 8 shows “10th” as the operation count N for the operation procedure data Dt shown in FIG.
FIG. Here, with respect to the processing target information It, each operation process St is determined by determining the $$ part in order from the first operation process 1 (St) of the operation procedure data Dt using the operation count N according to FIG. The processing target information It used in can be specified as information used in the operation count N. If you want to use the previous processing target information It as an input, you can call the previous processing target information It by setting $$ to "number of operations -1", and if you want to name it as the current output, By setting $$$ as the “number of operations”, the past processing target information It can be taken over.

  Therefore, in FIG. 8, the contents of the execution type information Ig, the operation target information Is, and the processing content information In are the same as in FIG. 7, but the processing target information It has a file name reflecting the number of operations N. For example, the processing target information It of the operation process 1 is “previous operation process-1”, and therefore, “RNG009NS_PRE.txt” is set as “operation count−1”. Further, since the processing target information It of the operation process 4 is “same value as the previous operation process”, “OD_NS_PRE_010.txt” is set as “the same number as the number of operations”.

  The number N of operations is reflected in the processing target information It of the operation procedure data Dt in the data identification processing 33 of the analysis operation support program 3 shown in FIG. N is set, or it is possible to specify the input data name and output data name used in the current operation from the automatic calculation function of the operation number N described later of the data identification processing 33. In addition, by making it possible to specify a file name as the processing target information It that does not reflect the operation count N, it is possible to specify an analysis setting name that does not depend on the operation count N from the analysis setting means 12 or the like.

The data identification process 33 has a function of automatically calculating the number of operations N from the operation cycle Tu and the operation start date Us. The operation cycle Tu can be selected from simply defining from the number of days, or defining from the execution of one operation to the next execution of the operation.
As shown in FIG. 9A, when the operation cycle Tu is defined by the number of days, the number of operations N is counted for each operation cycle Tu. Therefore, “operation start date Us + operation cycle Tu × (operation number N + 1)> It is only necessary to extract the number of operations N that satisfies “current date and time ≧ operation start date Us + operation cycle Tu × operation number N”.
Also, as shown in FIG. 9B, when the operation cycle Tu is defined as from one execution to the next execution, the number of operations N is counted up using the output file generation as a trigger, and the file name Since the number N of operations is reflected in the above, the previous number N of operations can be extracted from the latest file name of the corresponding output file, and the number N of operations this time is also known.

Furthermore, the execution instruction process 34 operates the process content information In on the analysis program 2 in the operation target information Is according to the execution type information Ig of each operation process Sr in order of the operation process Sr in the operation procedure data Dt. I do.
In the execution instruction process 34, “manual execution”, “automatic execution”, and “execution after a certain period of time” can be combined as the execution type information Ig for each operation process Sr. By giving an instruction trigger, the execution instruction process 34 operates. In the “automatic execution”, the execution instruction process 34 operates without triggering the operator's execution instruction. After the pre-operation process is executed, the execution instruction process 34 operates without triggering the operator's execution instruction after the lapse of the specified time.

The execution instruction process 34 can select an operation process Sr to be executed, and when the execution instruction process 34 for the corresponding operation process Sr is normally completed, the execution instruction process 34 transitions to the next operation process Sr.
The execution instruction process 34 clearly indicates the operation process Sr being executed in the operation procedure data Dt as a monitor of the current execution status, and enables the execution result of each analysis program to be displayed based on the execution result.

  The execution instruction process 34 reads, sets, and executes input data for each analysis program 2 with respect to the GUI of each analysis program 2. At the time of reanalysis, the GUI of the analysis program 2 can be reset and the analysis operation support program 3 can be restarted from the execution instruction. 3 is also interrupted as an execution failure.

Hereinafter, in the information processing apparatus 1 that executes the data identification process 33 and the execution instruction process 34 in the analysis operation support program 3, an example of a GUI screen when operating procedure data is executed will be described with reference to FIG.
In FIG. 10, the procedure name of the operation procedure data Dt selected by the operation procedure data selection unit 17 is displayed on the operation procedure display unit 41 at the top of the screen. For the read operation procedure data Dt, the operation location N input location 42 can be changed, and the default value of the operation count is set by the automatic calculation described above. By pressing the setting button 43, the operation number N is reflected in the operation procedure data Dt. The setting button 43 corresponds to the operation number setting unit 18 in FIG.

By displaying the processing message information Im for the operation process Sr of the operation procedure data Dt to be executed on the display window 44, it is possible to suppress an operator's setting mistake.
Further, for each procedure of each operation process Sr of the operation procedure data Dt to be executed, each item 45 of the execution type information Ig, the operation target information Is, the process content information In, and the process target information It is displayed on the execution status display unit 46. .
Execution type information Ig is displayed with ▽ being automatically executed, □ being manually executed, and ○ being executed after a certain period of time, and the executed portion being represented by a solid display.

In the execution of the operation process Sr of the operation procedure data Dt, pressing of the execution button 47 is used as a trigger for execution instruction by the execution unit 13 of the operator. That is, the execution button 47 corresponds to the execution unit 13 in FIG. For each procedure of the displayed operation process Sr, the operation process Sr is selected and the operation process Sr is executed by pressing the execution button 47. However, regardless of the displayed procedure of the operation process Sr, the operation process Sr can be arbitrarily selected and the execution of the operation process Sr can be started by pressing the execution button 47.
In addition, the operation process Sr being executed is highlighted ( Sr ) to clearly indicate the operation process Sr being executed and display the execution result on the result display unit 48. The operator evaluates the contents displayed on the result display unit 48 and prompts the re-execution determination. When the corresponding operation process Sr ends normally, the process proceeds to the next operation process Sr.

As described above, the present invention only requires the analysis program 2 configured in FIG. 1 to be operated according to the operation procedure data Dt by the analysis operation support program 3 shown in FIG. After selecting the operation procedure, the execution by the execution unit 13 is repeated, and the result evaluation unit 14 displayed on the GUI only needs to perform the result evaluation when necessary.
As a result, it becomes possible to use the relationship between the analysis programs, the operation procedure, etc. without being aware of it at the time of operation, and an operation error can be prevented. Further, through the GUI, it is possible to shift to detailed analysis after the setting change by the operator and the result evaluation.

DESCRIPTION OF SYMBOLS 1 Information processing apparatus 2 Analysis program 3 Analysis operation support program 11 Input data selection part 12 Analysis setting part 13 Execution part 14 Result evaluation part 15 Result data storage part 16 Operation procedure data creation part 17 Operation procedure data selection part 18 Operation frequency setting part DESCRIPTION OF SYMBOLS 21 Data input process 22 Analysis setting process 23 Analysis process 24 Data output process 31 Operation procedure recording process 32 Operation procedure data selection process 33 Data identification process 34 Execution instruction process 41 Operation procedure display part 42 Operation frequency input part 43 Setting button 44 Display window 45 Item of each information 46 Execution status display part 47 Execution button 48 Result display part Din Input data Dout Output data Dt Operation procedure data Sr Operation process Im Process message information Ig Execution type information Is Operation target information In Process content information It Process target information N operation times Tu operational cycle Us compliance date

Claims (11)

In the artificial satellite analysis operation support program that supports the execution of the analysis program group consisting of multiple analysis programs that have mutual relations between the analysis program of the artificial satellite that derives the output data from the input data and the analysis settings,
An operation procedure recording process for recording an operation procedure of the analysis program group as an operation procedure data in an operation in which the execution of the analysis program group is periodically repeated, and a data identification process for specifying the input data and the output data by the number of operations And an execution instruction process for notifying the analysis program group of an execution instruction according to the operation procedure data;
An analysis operation support program for an artificial satellite characterized by causing an information processing apparatus to execute The operation procedure recording process records a combination of a plurality of operation processes as one operation procedure data, and the operation process prompts the operator to be aware of the processing message information and whether to prompt the operator to confirm. Execution type information that holds the presence / absence and whether to execute at the specified time, operation target information that specifies the analysis program to be operated, input data reading, analysis setting application analysis program execution, output data storage, printing Processing content information for specifying the operation of the analysis program, processing target information for designating data to be processed such as an input data name, an analysis setting name, and an output data name,
The artificial satellite analysis and operation support program according to claim 1, comprising:   2. The data identification process according to claim 1, wherein the processing target information in the current operation can be automatically identified by reflecting the number of operations on the processing target information of the operation procedure data. The artificial satellite analysis operation support program according to claim 2.   In the execution instruction process, the process contents information is operated on the analysis program in the operation target information according to the execution type information of each operation process in order of the operation processes in the operation procedure data. The artificial satellite analysis operation support program according to claim 2.   6. The artificial satellite analysis operation support program according to claim 1, wherein the data identification process automatically calculates the number of operations from an operation cycle and an operation start date.   The execution instruction process can combine manual execution, automatic execution, and execution after a certain period of time as execution type information for each operation process. The manual execution is executed when an operator gives an execution instruction trigger. The instruction process operates, the automatic execution operates without triggering the execution instruction of the operator, the execution instruction process operates, and the execution after the predetermined time is performed after the specified time elapses after the execution of the pre-operation process. 5. The artificial satellite analysis operation support program according to claim 4, wherein the execution instruction process operates without triggering the execution instruction of the operator.   The execution instruction process can start execution from any operation process in the operation procedure data, and transitions to the next operation process when the corresponding operation process ends normally. Item 5. The artificial satellite analysis operation support program according to Item 4.   5. The artificial satellite according to claim 4, wherein the execution instruction process includes a GUI for selecting an operation process to be executed, specifying an operation process being executed, displaying an execution result of an analysis program, and interrupting execution. Analysis operation support program. 5. The artificial satellite analysis operation support program according to claim 4, wherein in the execution instruction process, the processing content information is operated on a GUI of the analysis program group. An information processing device equipped with a satellite analysis operation support program that supports the execution of an analysis program group composed of a plurality of analysis programs in which the satellite analysis program that derives output data from input data and analysis settings In
An operation procedure data selection means for selecting operation procedure data recording an operation procedure of the analysis program group in an operation in which the execution of the analysis program group is periodically repeated, and the input data and the output data are specified by the number of operations Based on the number of operations set by the operation number setting means and the operation procedure data selected by the operation procedure data selection means, the analysis program group executes the analysis program group. An information processing apparatus comprising execution instruction processing means for notifying an instruction. The information processing apparatus according to claim 10, wherein the operation procedure data selection unit, the operation number setting unit, and the execution instruction processing unit can be executed by a GUI.

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