Space Target Monitoring and Identification： Distinguish between different types of space targets such as communication satellites, remote sensing satellites, and navigation satellites through photometric characteristics. Status and attitude monitoring: Analyze satellite attitude adjustments, rotation rates, and the status of deployed components (e.g., solar panels) using photometric variations. Monitor abnormal activities: Identify and analyze the photometric characteristics of unregistered satellites or potential threat targets. Fault diagnosis: Monitor abnormal photometric changes to identify possible satellite faults or damage.

Orbit Change Monitoring： Evaluate satellite orbit adjustments or external disturbances by combining photometric curves and orbital data.

Space Debris Detection： Capture the presence of small debris and micro-targets through photometric signals, supporting Space Situational Awareness (SSA).

Astrophysics Research： Analyze stellar photometric variations to reveal their shape, rotation, surface material, and reflective properties. Evaluate the durability and performance of satellite external materials using their reflective characteristics.

Space System Research： Study stellar physical characteristics and orbital motion through photometric periodic properties. Use photometric variations to monitor planetary transits, discovering and studying exoplanets.

Education and Outreach： Serve as a data source for citizen science projects, helping the public understand astronomical phenomena and satellite applications.

Asset Management： Provide precise status monitoring data for satellite operators, optimizing resource allocation and mission scheduling.

Risk Assessment： Use photometric data to assess satellite health status and potential risks, assisting insurance claims and risk management.