The Unicore system employs a robot to delineate the requisite lines
Robotics does play an important role in many fields, especially in applications that require precise navigation and localisation, and the autonomous system developed by TinyMobileRobots using Unicore's high-precision GNSS RTK module demonstrates the potential for efficient navigation in complex environments.
Summary of key points:
Accurate positioning and heading: Precise positioning and heading are essential for robotics, especially those working in outdoor environments.
RTK technology: Real-time kinematics (RTK) technology enables centimetre-level positioning accuracy by compensating for Global Navigation Satellite System (GNSS) signal errors.
Unicore UM960: This is a multi-constellation, multi-frequency GNSS module with built-in RTK algorithms that provide high reliability, high accuracy and high fix rates
Unicore UM982
Unicore UM982: This is the latest full-system, full-frequency, high-precision dual-antenna RTK positioning and directional module released by HexinStar, which is suitable for high-precision navigation and positioning in the field of unmanned aerial vehicles (UAVs), precision agriculture, and autonomous machines, etc., and has the advantageous features of small size, low power consumption, high-performance, high-precision, high-reliability, and high-integration.
Sports Ground Maintenance: Marking football pitches, for example, is a labour-intensive and challenging task, and TinyMobileRobots' autonomous system improves efficiency by automating the process.
Paint management: TinyLineMaker Pro X's ability to estimate paint usage and alert the user when it's about to run out helps improve efficiency.
Outdoor robotics applications: GNSS technology for outdoor robots can provide positioning accuracy from sub-metre to centimetre, depending on the specific application requirements.
Sensor Integration: Integrating GNSS technology with auxiliary sensors such as inertial navigation systems (INS), vision and radar can improve a robot's ability to navigate in complex environments.
The development and application of this technology not only improves efficiency, but also opens up new application areas for robotics, such as providing delineation services. With the continuous progress of technology, we can expect robotics to play a greater role in our daily lives in the future.
Translated with DeepL.com (free version)
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