About CDXAERO

Cratandraqx Aerospace is an Indian born aerospace and energy systems company. Our mission is to eliminate the endurance limits of UAVs and autonomous devices by integrating energy-harvesting intelligence directly into the surface of machines. We aren’t a drone startup. We’re building the foundation for next-generation embedded power and full- spectrum aerospace infrastructure. Our modular UAVs, adaptive propulsion systems, and surface energy layers are designed for dual-use deployment across agriculture, defense, orbital platforms, and — in the near future — the commercial aviation market.

Our long-term vision includes developing aircraft engines, next-generation fighter jets, and commercial airliners capable of competing globally with Airbus and Boeing models — built with embedded intelligence and future-ready sustainability. This level of integration is what defines Cratandraqx as a true aerospace company.

Founded by engineers, our approach is vertically integrated — from prototyping to simulation, testing to launch — with a core team obsessed with material performance, structural endurance, and scalable autonomy.

Core Values

• First Principles Engineering
• IP-Conscious Execution
• Dual-Use Alignment
• Future-Proof Design
• Sovereign Innovation

Who are we?

Cratandraqx aerospace specializes in the design, development, and deployment of autonomous aerial, ground, and maritime systems. Our unmanned solutions cater to a wide range of industries, including agriculture, logistics, construction, energy, surveillance, andmore.With a strong focus on research and development, we continuously push the boundaries of unmanned technology to deliver ground breaking solutions. We are also actively involved inmaterials domain in allways and engineering domainas a whole.

Key Offerings:

Autonomous Drones:

Our fleet of aerial drones combines state-of-the-art sensors, robust Software, and artificial intelligence to perform various tasks such as aerial surveys, inspections, Payload delivery, and precision agriculture These drones are equipped with advanced obstacle Avoidance and navigation systems, ensuring safe and efficient operations.

Ground Robotics:

Cratandraqx Aerospace offers a diverse range of autonomous ground robots designed to tackle complex tasks in industrial environments, logistics, and security.These robots are equipped with advanced mapping and navigation capabilities, object recognition, and Customizable pay load options, providing unparalleled efficiency and adaptability.

Maritime systems:

Our cutting-edge unmanned maritime systems are designed to revolutionize Marine operations, including underwater inspections, environmental monitoring, and offshore Operations support. These systems are equipped with advanced sensors, remote control Capabilities, and real-time data transmission, ensuring accurate and efficient data collection in Challenging marine environments.

Commitment to Quality and Safety:

Cratandraqx aero space is committed to delivering high-quality unmanned systems that adhere to The highest safety standards. We prioritize rigorous testing, quality assurance protocols, and Regular maintenance to ensure optimal performance and reliability in all our products. Additionally, we actively collaborate with regulatory bodies and industry partners to drive the Development of best practices and safety guidelines. We are also committed to maintaining Absolute quality in materials domain, manufacturing and engineering consultancy.

OUR USP

Modelling and Simulation

• 6-DOF modelling and simulation of the UAVs (Fixed wing, Multirotor, Hybrid (i.e., quad plane)) in MATLAB/Simulink with inputs from other teams
• Control effectiveness studies
• Design modifications w.r.t control effectiveness, from the simulation studies

Controller Modelling

Controller modelling in Simulink for the flight modes (altitude hold, attitude hold and position hold)

Control Gains Design

• Time domain and frequency domain specifications generation for all the loops
• Control gains design and synthesis using classical control system tools
• Filters design and command path parameters design from the flight testing and experimental data

Flight Testing and Validation

• Test matrix generation to excite all the modes
• Flight data analysis and report generation
• Fine tuning of the gains
• Full envelope expansion in incremental steps