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Technical Articles 05/21 17:52

Mitigating Multipath Effects: Advanced Algorithms for Urban Positioning

This technical article examines multipath interference in urban environments and the advanced receiver algorithms that detect and mitigate reflected GNSS signals.

Technical Articles 05/19 14:53

The Role of IMU Sensor Fusion in GNSS-Denied Environments

This technical article explores how Inertial Measurement Units (IMUs) combined with GNSS through sensor fusion algorithms enable continuous positioning during satellite signal outages.

Technical Articles 05/19 15:37

RTK vs PPK: Choosing the Right Correction Method for Your Application

This technical article compares Real-Time Kinematic (RTK) and Post-Processed Kinematic (PPK) correction methods, helping engineers choose the optimal approach for their positioning requirements.

Technical Articles 05/19 15:35

Understanding Multi-Constellation GNSS: L1, L2, and L5 Frequency Bands Explained

A comprehensive technical guide to GNSS frequency bands, explaining how L1, L2, and L5 signals work and why multi-band receivers deliver superior accuracy and reliability.

Case Studies 05/19 14:53

Precision Harbor Surveying: Maritime Positioning with Jumpstar OEM Boards

A maritime surveying company replaced legacy differential GPS systems with Jumpstar RTK-GNSS OEM boards, improving hydrographic survey accuracy while reducing equipment costs by 40%.

Case Studies 05/19 14:53

Autonomous Vehicle Navigation in Urban Canyons: A Case Study from Shanghai

An autonomous driving startup in Shanghai integrated Jumpstar's multi-band GNSS modules to achieve lane-level positioning accuracy in dense urban environments.