AD Cloud from Aquiline Drones dedicated hybrid cloud for high density drone operations. AD Cloud's mission critical computing provides assured quality-of-service for industrial workload applications. A real-time hybrid cloud with high availability and resilience is at the core of AD's mission control framework. Designed with security and compliance in mind, the AD Cloud is very scalable and allows third-party developers to build their own UAS solution using AD Cloud services.
Aquiline drones rely on sophisticated map, terrain and flight data from a variety of sources including a 3D open source world map, LIDAR, satellites and the real-time drone network itself. Automated mission planning and edge computing infrastructure are crucial features that enable autonomous flights.
The AD Cloud provides modular services that are focused on providing business insights from data analysis. With specialized algorithms based on application types, this capability is what makes the AD Cloud 'smart', with the ability to deliver faster, more insightful data returns in real-world situations.
Seamless enhancements in capabilities with AD Cloud
To help police more effectively, drones need to be integrated in a non-intrusive manner into normal police operations. Simple commands should be translated into meaningful actions.
A drone can follow officers, do an overhead reconnaissance loop or approach designated targets to observe or issue audible commands - all at the touch of a button.
Aerial advantage
Drones with optical and thermal cameras allow law enforcement to be more effective. They not only provide a better vantage point during live on-field situations but also relieve pressure on ground units by delivering crucial sensor-based video and images in real-time.
Minimizing risk to ground personnel
By providing a powerful platform of sensors, an autonomous drone can project policing actions without putting officers and other emergency response personnel at risk. With better data in hand, unforeseen risks to both police and civilians are minimized.