Product Introduction
Satellite Antenna Control System
- NS ACS
- NS ACS
Satellite Antenna Control System for "High-Quality Satellite Data Acquisition" with 2-Axis and 3-Axis Parabolic Antennas
Correction of Antenna Installation Errors
Prediction of Satellite Trajectory
Keyhole Verification
Multi-Satellite Scheduling
Real-Time Remote Control of Antenna
Satellite Antenna Control System for "High-Quality Satellite Data Acquisition" with 2-Axis and 3-Axis Parabolic Antennas
Correction of Antenna Installation Errors
Prediction of Satellite Trajectory
Keyhole Verification
Multi-Satellite Scheduling
Real-Time Remote Control of Antenna
Product Description
Antenna Installation Error Correction
Through sun tracking,
initial antenna installation errors such as misalignment are corrected to establish an accurate directional reference.
Prediction of Satellite Trajectories
By inputting satellite orbital information such as TLE (Two Line Element),
the satellite's trajectory is accurately predicted.
Accurate prediction of satellite trajectories enables stable communication with satellites.
Keyhole Verification
It determines whether the target satellite experiences a Keyhole issue*,
and if so, whether it can resolve the Keyhole issue.
If the user's hardware environment is suitable for resolving the Keyhole issue,
it resolves the issue and tracks the satellite.
Keyhole Issue: A problem where tracking becomes impossible because the azimuth angular velocity
increases infinitely in segments with high elevation angles in the satellite tracking schedule.
Multi-Satellite Scheduling
The multi-satellite scheduling feature allows users to create schedules for tracking
one or more selected satellites and automatically controls the antenna, providing convenience to users.
Remote Control of Antennas
Remotely controls antennas located far from the ground station
with precision of at least 0.1-second intervals.
Product Description
Antenna Installation Error Correction
Through sun tracking,
initial antenna installation errors, such as azimuth deviations, are corrected to establish accurate orientation standards.
Satellite Path Prediction
By inputting TLE (Two Line Element) satellite orbit information,
the satellite's path can be accurately predicted.
Accurate satellite path prediction enables stable communication with the satellite.
Keyhole Validation
Checks whether the target satellite encounters a Keyhole issue* and determines
if the issue can be resolved.
If the user's hardware is suitable for resolving the Keyhole issue, it addresses the problem and tracks the satellite.
Keyhole Issue: When a satellite tracking schedule includes high elevation sections,
the azimuth angular velocity increases infinitely, making tracking impossible.
Multi-Satellite Scheduling
The multi-satellite scheduling feature generates
tracking schedules for one or more selected satellites and automatically controls the antenna,
providing user convenience.
Remote Antenna Control
Allows precise control of
antennas located far from the ground station with an accuracy of up to 0.1 seconds.
Product Specifications
Satellite Information Format
TLE (Two Line Element)
Supported Antennas
2-axis, 3-axis Parabolic Antennas
Trackable Satellites
Low Earth Orbit (LEO) and Geostationary Orbit (GEO) Satellites
Maximum Scheduling Capacity
Unlimited
Satellite Tracking Algorithm
NS Tracker Module
Satellite Track Algorithm (Single, Multiple)
Sun Track Algorithm
Keyhole Algorithm
Satellite Position Calculation Model
SGP4 (Simplified General Perturbations 4)
Product Specifications
Satellite Information Format
TLE (Two Line Element)
Supported Antennas
2-axis, 3-axis Parabolic Antennas
Trackable Satellites
Low Earth Orbit (LEO) and Geostationary Orbit (GEO) Satellites
Maximum Scheduling Capacity
Unlimited
Satellite Tracking Algorithm
NS Tracker Module
Satellite Track Algorithm (Single, Multiple)
Sun Track Algorithm
Keyhole Algorithm
Satellite Position Calculation Model
SGP4 (Simplified General Perturbations 4)