India's High Endurance Agricultural Drone
 |  |  |
|---|
Why to use Drone in Farming?
Drones make farming faster, safer, and more efficient by enabling precise spraying, reducing chemical and water use, and providing real-time crop insights. They access hard-to-reach areas, cut labor costs, and improve yields—making them a smart, cost-effective tool for modern agriculture.
Comparison
Manual
Tractor
Drone
Exposure to Chemicals
Chemical Wastage
Coverage per Day
Labour Requirement
Soil Compaction
Time consumption
Very High
High
2 - 3 Acre
High
Low
High
Medium
Medium
6 - 8 Acre
Medium
High
Medium
Low
Low
25 - 30 Acre
Low
None
Low
Crop Spraying
Autonomusly spray pesticides, herbicides, and fertilizers uniformly over large areas.
Advanced Sensor Technology
Real-time obstacle avoidance, stable altitude, and terrain adaptation for precise operations.
FailSafe Features
Low Battery, Empty Tank, Communication Loss, Fence Breach, GNSS Loss.
Suitable Agrochemicals
Fertilizers, Pesticides, Nano Urea, Nano DAP and liquid agrochemicals as per need
Max Weight
28 Kilograms
Max speed
10 m/s
Capacity
10 Liters
Medium Class Rotorcraft
Max Range
1.5 Km Radius
Spray Width
4 meters
Max Flight time
27 Minutes
Max Altitude
82 Feet
Agro chemicals Spraying
India's First Type Certified Drone
 |  |  |
|---|---|---|
 |
Why to use this Drone ?
Lightweight and easy-to-control, drones are ideal for pilot training, offering intuitive operation and accelerating the learning curve. For research, they serve as agile, accessible tools to gather real-time data efficiently, keeping costs low. This adaptability makes them invaluable for educational and investigative programs.
Comparison
Other Drones
AQX 10.1
Model V
Costing
Stability
Attachable Payload
Easy to Fly
Light in Weight
Time of Flight
Very High
Medium
Yes
Maybe
No
20 Min
Medium
Medium
No
Yes
No
22 Min
Low
High
Yes
Yes
Yes
40 Min
Disaster management and rescue operations
Assists in quick damage assessment and aids in search, relief planning and resource allocation.
Field Mapping & Survey
Generates high-accuracy maps for agriculture, construction, and land records.
Crop Monitoring
Monitor crop growth and detect diseases or pest infestations early. Identify nutrient deficiencies through multispectral imaging.
Surveillance Applications
Supports perimeter security, crowd monitoring, asset inspection and situational awareness with aerial visuals.
Max Weight
5.4 Kilograms
Max speed
10 m/s
Attachable Payload
Small Class Rotorcraft
Max Range
1.5 Km Radius
Easy to
Transport
Max Flight time
40 Minutes
Max Altitude
400 Feet
Simple
Controls
Best & User Friendly Agricultural Drone
 |  |  |
|---|---|---|
 |  |  |
Why to use Drone in Farming?
Drones make farming faster, safer, and more efficient by enabling precise spraying, reducing chemical and water use, and providing real-time crop insights. They access hard-to-reach areas, cut labor costs, and improve yields—making them a smart, cost-effective tool for modern agriculture.
Comparison
Manual
Tractor
AQX 10.1
Exposure to Chemicals
Chemical Wastage
Coverage per Day
Labour Requirement
Soil Compaction
Time consumption
Very High
High
2 - 3 Acre
High
Low
High
Medium
Medium
6 - 8 Acre
Medium
High
Medium
Low
Low
15 - 20 Acre
Low
None
Low
Crop Spraying & Spreading
Spray pesticides, herbicides, and fertilizers uniformly over large areas. Spread seeds or granules with precision.
Live Field Preview
Preview Live Feed of the Field or Large Area using the drone's in built camera.
FailSafe Features
Empty Tank, Low Battery Level, Fence Breach, Communication Loss
Suitable Agrochemicals
Liquid Fertilizers, Pesticides, Nano Urea, Nano DAP and different liquid agrochemicals as per need
Max Weight
24.5 Kilograms
Max speed
10 m/s
Capacity
10 Liters
Small Class Rotorcraft
Max Range
1.5 Km Radius
Spray Width
1.5 meters
Max Flight time
22 Minutes
Max Altitude
120 Feet
Agro chemicals Spraying
Best & User Friendly Mapping & Survey Drone
 |  |  |
|---|---|---|
 |
Why to use this Drone ?
Gimbal camera drones capture and record images and video with unparalleled stability, allowing for smooth, professional-grade footage regardless of drone movement or wind. They ensure sharp, jitter-free visuals for cinematic shots, detailed inspections, and accurate mapping, making them the essential tool for high-quality aerial data and content.
Comparison
AQX 10.1
Model V
AQX 6.1
In Built Camera
Video Quality
Moveable Camera
Easy to Control
Storage
Time of Flight
Yes
Low
Fixed
Yes
No
22 Min
No
Medium
No
Yes
Yes
40 Min
Yes
High
360 degrees
Yes
Yes
25 Min
Cinematic Filmmaking & Photography
Captures smooth, professional-grade video and stable photos by eliminating flight-induced shakes.
Real Estate and Construction Marketing
Creates immersive aerial tours of properties and showcases construction progress with controlled, clear movement.
Infrastructure Inspection
Allows precise aiming for detailed visual data of structures (towers, bridges) without risky manual work.
Precision Mapping and Surveying
Essential for generating accurate 2D maps and 3D models by maintaining precise, stable camera angles.
Max Weight
6 Kilograms
Max speed
5 m/s
2K Resolution
Gimbal Camera
Small Class Rotorcraft
Max Range
1 Km Radius
Live Image
Capturing
Max Flight time
25 Minutes
Max Altitude
30 Feet
Live Video
Recording
Excellent Drone Kit for Research & Development
 |  |  |
|---|---|---|
 |  |  |
 |  |  |
 |  |
Why to use this Drone ?
The X500 is a versatile, carbon fibre, 500mm-class platform specifically designed for advanced development and professional integration. Its generous payload capacity and dedicated mounting points for companion computers make it the ideal choice for autonomous R&D and specialised sensing applications.
Comparison
Model V
AQX 6.1
X500
Altitude
Universal Payload
Range
Computer Companion
Weight
Time of Flight
Very High
No
1.5 Km
No
Medium
40 Min
Medium
No
1 Km
Yes
High
25 Min
Low
Yes
0.5 Km
Yes
Low
15-20 Min
Autonomous Research and Development
Platform for testing advanced autonomy using companion computers (SBCs) and computer vision.
Educational and Robotics Training
Robotics lab tool for hands-on learning of drone systems, flight control, and open-source coding.
Logistics and Light Delivery
Supports rapid, automated transport of critical light payloads (up to 1.5 kg).
Multi-Robot Swarm Coordination
Used to develop and test decentralized control systems and collective drone behaviors.
Max Weight
4-6 Kilograms
Max speed
1-2 m/s
Universal
Payload Mounting
Small Class Rotorcraft
Max Range
0.5 Km Radius
Onboard AI Capability
Max Flight time
15-20 Minutes
Max Altitude
15-20 Feet
Carbon Fibre Material
Indoor Robust Nano Drone Kit
 |  |  |
|---|---|---|
 |  |
Why to use this Drone ?
This XYQ-2 drone is an educational wooden DIY kit designed to be an affordable and engaging entry point for beginners and students, offering hands-on experience with assembly, basic electronics, and safe flying training.
Comparison
X500
DM002
XYQ-2
For Kids
Crash Resistant
Assembling Time
Time of Flight
No
No
More
15-20 Min
Yes
No
Less
10-12 Min
Yes
Yes
Less
10-12 Min
STEM Education and Learning
Teaches robotics and aerodynamics fundamentals through hands-on assembly and flight.
Hands-On Assembly and DIY Project
Excellent hands-on building experience for hobbyists to understand quadcopter structure.
Beginner Flying Practice
Serves as a safe, stable trainer with easy flight modes for novice pilots.
Entry-Level Robotics Customization
Provides a simple platform for basic troubleshooting and electronic experimentation.
Max Weight
230 Grams
Minimal Assembly Time
No Tool
Required
Nano Class Rotorcraft
Max Range
2-3 m Radius
Educational
Focus
Max Flight time
10-12 Minutes
Max Altitude
6 Feet
Wooden
Frame
Indoor Robust Nano Drone Kit
 |  |  |
|---|---|---|
 |
Why to use this Drone ?
The DMOO2 drone is best used as an affordable, solder-free DIY kit that offers a hands-on way for beginners and students to learn drone construction and master basic pilot skills with fun features like flips and Headless Mode.
Comparison
X500
XYQ-2
DM002
For Kids
Crash Resistant
Assembling Time
Time of Flight
No
No
More
15-20 Min
Yes
Yes
Less
10-12 Min
Yes
No
Less
10-12 Min
STEM Education and Learning
Teaches robotics and aerodynamics fundamentals through hands-on assembly and flight.
Hands-On Assembly and DIY Project
Excellent hands-on building experience for hobbyists to understand quadcopter structure.
Beginner Flying Practice
Serves as a safe, stable trainer with easy flight modes for novice pilots.
Recreational Stunt Flying
Provides a simple platform for basic troubleshooting and electronic experimentation.