KR-20260063023-A - SOLAR COSMIC RADIO WAVE MONITORING AND ANALYSIS

Abstract

The present invention relates to a space solar radio wave measurement and analysis system comprising a space solar radio wave measuring device (100) and a space solar radio wave analysis device (200), wherein the space solar radio wave measuring device (100) comprises: an antenna unit (110) for receiving space solar radio waves; a front-end unit (120) for calibrating and amplifying the received space solar radio waves; a tuner unit (130) for extracting and amplifying a signal by varying the amplified solar radio waves to a specific frequency range; an A/D converter unit (140) for generating a digital signal by A/D converting the signal of the extracted frequency range; a computing unit (150) for receiving the generated digital signal and transmitting information of the specific frequency range to the tuner unit (130); a rear-end unit (160) for performing an interface between the tuner unit (130) and the computing unit (150); and an equipment control unit (170) for controlling the antenna unit (110) and the front-end unit (120).

Inventors

• 박재우

Assignees

• (주)레이다앤스페이스

Dates

Publication Date

20260507

Application Date

20241030

Claims (2)

1. In a space solar radio wave measurement and analysis system comprising a space solar radio wave measuring device (100) and a space solar radio wave analysis device (200), The above space solar radio wave measuring device (100) An antenna section (110) for receiving space solar radio waves; A front section (120) for calibrating and amplifying the received space solar radio waves; A tuner unit (130) that extracts and amplifies a signal by varying it to a specific frequency range from the amplified solar radio waves; An A/D converter unit (140) that generates a digital signal by A/D converting the signal of the extracted frequency range above; A computing unit (150) that receives the generated digital signal and transmits information of the specific frequency band to the tuner unit (130); A rear end (160) that performs an interface between the tuner unit (130) and the computing unit (150); and A space solar radio wave measurement and analysis system characterized by including an equipment control unit (170) that controls the antenna unit (110) and the front unit (120).
2. In paragraph 1, The above space solar radio wave analysis device (200) is, A data acquisition unit (210) that acquires space solar radio wave data from the above computing unit (150); A database (220) that classifies and stores the solar radio noise data acquired by the data acquisition unit (210) according to a pre-set classification standard; A power noise calculation unit (230) that converts solar radio wave data stored in the above database (220) to calculate and store power noise that affects reception of wireless communication devices; A grading unit (240) that classifies and stores alarm grades according to the power noise value calculated by the power noise calculation unit (230); and An interface unit (250) that provides one or more of the alarm grade classified in the above-mentioned classification unit (240), solar radio wave data, classification criteria, and power noise to the user, A space solar radio wave measurement and analysis system characterized by including

Description

Space Solar Radio Observation and Data Analysis System { SOLAR COSMIC RADIO WAVE MONITORING AND ANALYSIS } The present invention relates to a space solar radio wave observation and data analysis system. Korean Patent Application KR No. 10-1845760, a solar flare forecasting system and method using sunspots, comprises a solar flare forecasting method using sunspots, comprising: (A) a step in which a data collection unit (100) collects solar sunspot images and flare observation data; (B) a step in which a main control unit (700) provides the collected data to a sunspot group analysis unit (300) and a flare monitoring unit (200); (C) a step in which the flare monitoring unit (200) detects a flare using the flare observation data and calculates actual flare information; (D) a step in which the sunspot group analysis unit (300) calculates the solar center average luminosity from the solar sunspot images; (E) a step in which the sunspot group analysis unit (300) calculates a principal light decay coefficient; (F) a step in which the sunspot group analysis unit (300) detects a sunspot using the solar center average luminosity and the principal light decay ratio; (G) a step in which the sunspot group analysis unit (300) extracts the characteristics of the sunspot detected in step (F); (H) a step in which the sunspot group analysis unit (300) detects a sunspot group and calculates the characteristics of the sunspot within the radius (r) among the actual flare information, the flare occurrence location; and (G) a step in which the prediction model unit (600) predicts the flare; are included in a method for forecasting a solar flare using a sunspot. FIG. 1 is an overall configuration diagram of the space solar radio wave observation and data analysis system of the present invention. FIG. 2 is a detailed diagram of a space solar radio observation device among the space solar radio observation and data analysis system of the present invention. FIG. 3 is a detailed diagram of a space solar radio wave analysis device among the space solar radio wave observation and data analysis system of the present invention. FIG. 4 is a detailed view of the tuner section of the space solar radio wave observation device of the present invention. FIG. 5 is a detailed diagram of the electric noise calculation unit of the space solar radio wave analysis device of the present invention. The space solar radio wave observation and data analysis system of the present invention will be described in detail below with reference to the attached drawings. Fig. 1 is an overall configuration diagram of the space solar radio wave observation and data analysis system of the present invention, Fig. 2 is a detailed diagram of the space solar radio wave observation device of the space solar radio wave observation and data analysis system of the present invention, Fig. 3 is a detailed diagram of the space solar radio wave analysis device of the space solar radio wave observation and data analysis system of the present invention, Fig. 4 is a detailed diagram of the tuner unit of the space solar radio wave observation device of the present invention, and Fig. 5 is a detailed diagram of the electric noise calculation unit of the space solar radio wave analysis device of the present invention. As illustrated in FIGS. 1 and 2, the space solar radio observation and data analysis system of the present invention comprises a space solar radio measurement device (100) and a space solar radio analysis device (200), wherein The above space solar radio wave measuring device (100) An antenna section (110) for receiving space solar radio waves; A front section (120) for calibrating and amplifying the received space solar radio waves; A tuner unit (130) that extracts and amplifies a signal by varying it to a specific frequency range from the amplified solar radio waves; An A/D converter unit (140) that generates a digital signal by A/D converting the signal of the extracted frequency range above; A computing unit (150) that receives the generated digital signal and transmits information of the specific frequency band to the tuner unit (130); A rear end (160) that performs an interface between the tuner unit (130) and the computing unit (150); and It is characterized by including an equipment control unit (170) that controls the antenna unit (110) and the front unit (120). As illustrated in FIGS. 1 and 3, in the space solar radio wave observation and data analysis system of the present invention, the space solar radio wave analysis device (200) is, A data acquisition unit (210) that acquires space solar radio wave data from the above computing unit (150); A database (220) that classifies and stores the solar radio noise data acquired by the data acquisition unit (210) according to a pre-set classification standard; A power noise calculation unit (230) that converts solar radio wave data stored in the above database (220) to calculate and store power noise that affects recep