Today, with the rapid operation of the global supply chain, ports and container terminals, as logistics hubs, are facing multiple challenges such as the surging cargo throughput, the upgrading of equipment automation, and the complication of the operating environment. Traditional positioning technologies (such as DGPS or systems based on ground beacons) have been difficult to…
In challenging industrial environments, maintaining high-precision positioning can be difficult due to satellite signal loss from vegetation, buildings, or machinery vibration. Septentrio’s AsteRx series GNSS receivers, integrated with Systron Donner’s MMQ50 MEMS IMU, offer a powerful solution to this issue. This advanced multi-sensor fusion enables consistent and accurate navigation even when satellite visibility is compromised….
At the historic Sverensburg Castle site, the Norwegian Institute of Cultural Heritage (NIKU) is combining archaeology with cutting-edge technology. Using Septentrio GNSS/GPS receivers, researchers are able to record the exact location of every medieval handicraft uncovered—even deep within the ruins—with centimeter-level RTK accuracy. This remarkable precision is vital for organizing and analyzing centuries-old data. One…
In the world of commercial offshore dredging, maintaining critical shipping routes demands pinpoint accuracy. For ocean engineering leader DEME, ensuring uninterrupted operations near busy international ports is a daily challenge—especially when radio interference from military activity distorts GNSS signals. To overcome this, DEME integrates the AsteRx4 GNSS receiver from Septentrio aboard its work vessels. With…
When mining operations in the Amazon were disrupted by unreliable GPS signals, expert Jim Elkins stepped in with a robust solution. By implementing the ARDVARC control system and replacing all existing GPS receivers with Septentrio AsteRx-U GNSS receivers, the team successfully restored full operational capability. Jim, who has worked with Septentrio GNSS receivers for over…
In 2025, precision and reliability in GNSS packages are non-negotiable. From land surveying to drone-primarily based mapping, experts require solutions that integrate accuracy with shrewd layout. Enter the Smart Antenna A9, the GNSS device is gaining popularity because the enterprise’s maximum performance depends on the tool. But why is it the main marketplace? Let’s explore…
In industries where vicinity accuracy defines overall performance—surveying, robotics, self sustaining structures—popular GPS frequently falls brief. This is in which simpleRTK3B Pro, an excessive-performance multi-band GNSS board, takes the lead. Built for centimeter-level positioning, this solution offers more desirable reliability, ultra-rapid signal acquisition, and bendy integration. With multi-band Real-Time Kinematic (RTK) technology, simpleRTK3B Pro enables…
In the short-evolving international Global Navigation Satellite System (GNSS) era, the M-2 GNSS has emerged as a modern-day answer for high-precision positioning. With programs in surveying, self-sustaining cars, UAV mapping, and commercial enterprise automation, this GNSS board is placing new benchmarks in accuracy, reliability, and overall performance. But what makes the M-2 GNSS board stand…
Unmanned Aerial Vehicles (UAVs), normally referred to as drones, have revolutionized industries which include surveying, agriculture, production, and protection. However, their overall performance and accuracy carefully depend on particular navigation and positioning. This is wherein GNSS (Global Navigation Satellite System) technology plays a crucial position. A GNSS receiver for UAVs permits actual-time positioning, enhances flight…
GNSS receivers decide positions using satellite TV for PC signs. However, their accuracy is affected by interference, satellite mistakes, and atmospheric situations. RTK (Real-Time Kinematics) and PPP (precise point positioning) improve positioning accuracy for expert applications. Industries like surveying, construction, agriculture, and self-enough systems require particular area facts. GNSS mistakes can lead to inaccurate mapping,…