Understanding the client's requirement closely and then conceptualizing the drone's architecture in-house by creating detailed prototypes and running simulations on it for effective performance and feasibility.

Manufacturing the physical frame using materials like carbon fiber, aluminum, or composites to ensure durability, lightweight, and optimal structural integrity. This includes assembling the body, arms, and landing gear.

Integrating critical systems like flight controllers, sensors, power management, and communication systems (e.g., telemetry, IMU, GNSS) followed by performance testing and calibration for reliability.

Photonic based computation will allow greater efficiency in real-time data analysis allowing edge computing on complex AI based operations enabling better decisions.

Photonic chipsets use light for real-time computations, significantly reducing heat production compared to traditional processors, leading to more efficient thermal management.

By using advanced photonic technology for computation, the AI based chipsets consume lesser energy, enhancing the UAV's endurance and battery life.

The PCB layout is designed to minimize noise, signal interference, and latency by carefully routing power and signal traces ensuring reliability without signal degradation.

In-house flight controller is designed to host photonic computational chipset enabling real-time data analysis, efficient AI operations, and improved overall UAV performance.

The PCB is designed with modularity in mind, allowing easy integration of additional sensors, communication modules, or AI processors ensuring desired adaptability.

SKYBER® has been chosen as Microsoft's ISV partner facilitating collaborative development, access to resources, and support, allowing SKYBER® to innovate rapidly and deliver superior AI-driven analytics and solutions for UAV applications in various industries.

Our AI-powered software stack enhances UAV performance by automating data analysis, generating smart analytical reports, and enabling advanced object detection. This allows for real-time insights, improved decision-making, and optimized operations.

Microsoft's Azure ensures SKYBER®'s UAV applications remain safe and secure through advanced encryption, multi-layered security protocols, and continuous monitoring providing a  reliable cloud infrastructure for seamless and secure operations.

A quick response to the disaster evaluation helps the team be ahead of the game, supported by multitask drones, to handle a critical situation more effectively.

Modern-day warfare's most effective weapon is ammunition drones, which are either kamikaze drones or ammunition drop drones, providing an edge when most needed.

50 times more efficient, not just on time but also on cost, with targeted AI-driven spraying technology and an intelligent design for an even spray of pesticides.

Be it an urgent supply of a tool or the immediate transportation of a secured medical supply, we have understood that the payloads could be as heavy as 110 kg, and we are ready.

This aerial vehicle will be faster than most vehicles in difficult terrain, which will not only reduce time to the destination but also keep the cargo intact with smoother rides.

When critical missions demand high-altitude operations, our drones are designed to perform flawlessly at altitudes up to 12,000 feet above sea level.

While 70% of city taxi rides are booked by a single person, we cover most of the spectrum of city taxi booking by making this vehicle a comfortable 2-seater.

Aerodynamic in design, these aerial vehicles not only fly fast but also safely fly you to your destination while avoiding the stressful congestion on the ground.

No more winding roads, but a straight-line, efficient journey to your destination within a range of 90 km, which covers most urban cities, saving precious time.