Unmanned Aerial Vehicle (UAV)

UAVs (drones) with AUROXAT’s high-precision RTK positioning and orientation technology can improve the accuracy of the flight control system, which allows UAVs to perform complex tasks in small areas and can be applied to various emerging markets. Such as emergency goods delivery, construction engineering, disaster management, geological survey, smart agriculture and other applications.

As online B2B and B2C commerce is expanding in recent years, the logistics industry market will exceed $10 trillion by 2030 in operational efficiency as the result of employing IoT solutions. Autonomous truck with AUROXAT’s precise RTK GNSS modules and AUROXAT’s future global LEO communication equipment delivers more efficient and much safer logistic shipping solutions.

The smart wearables are widely adopted in application. Those devices are striving for low power, accurate location tracking technology that can stay connected in the most demanding environments. With the help of LEO’s strong signal, AUROXAT’s future LEO-enabled wearable can be used even in “indoor” environment, like the farmhouse, the warehouse and urban canyon environments.

Remotely controlled seeder, excavators and other heavy machinery, using AUROXAT’s high precision RTK solution, enable smart operation in compliance with evolving regulatory and safety requirements. Those autonomous operations also solve the problem of declining agricultural employment population.

Recent 5G and Wi-Fi 6E networks require more precise timing for the synchronization among outdoor wireless stations. Such universal and precise timing requirements can be obtained from AUROXAT’s GNSS and/or AUROXAT’s future LEO PNT satellites. Latest advance deployment of LEO PNT service further ensures the infrastructure resilience from jamming or spoofing attacks.

Due to nature extreme rainfall and severe earthquakes around the world in recent years, there have been several crises of landslides on buildings and hillsides. AUROXAT’s affordable high precision RTK system and reliable LEO communication infrastructure are keys to establish the sustainable monitoring mechanism and early earning system for building health or surface displacement changes.