Malaysia
M@RQ Meraque Autonomous Robotics Quarters 5 & 7,
Jalan IMP 1/3, Sinar Meranti Technology Park, 47120 Puchong, Selangor
Uzbekistan
Toshkent City, Shaykhontokhur District,
Labzak MFY, Zulfiyakhonim Street, Building 122.
RACE Series
Robotics Agro in Complex Environment
Designed for versatility, our AGV supports diverse crops, tailored to their sizes, terrains, and unique need.
RACE delivers ground-breaking autonomous solutions where traditional methods fall short. Available in three configurations (Alpha, Prime and Blade), our AGVs combine 3D LiDAR navigation with AI-powered spot spraying for unmatched precision.
The flagship RACE achieves 25 hectares daily productivity while reducing labor dependency by 80%. It’s hybrid-powered, fully hydraulic, and designed for one purpose: transforming how agriculture works at scale.
What We Provide
Equipped with intelligent tree detection, terrain climbing capability, and centimeter-level accuracy, RACE operates autonomously in the most challenging plantation conditions.
Alpha
Compact Power for Smarter Fields
A compact 350L Autonomous Ground Vehicle (AGV) designed for precision spraying and multi-terrain agricultural operations. Built for flexibility, reliability, and seamless automation across diverse field conditions.
- 350L tank capacity for medium-scale spraying
- Hybrid power system for extended runtime
- Triple Layer Navigation with GPS + RTK + IMU
- Swarm-ready operation for coordinated fleet performance
- Modular design for multiple attachments and functions
Prime
Heavy-Duty Intelligence for Scalable Farming
A heavy-duty 500L hybrid AGV built for large-scale and high-performance field operations. Combines robust design, intelligent control, and swarm coordination to deliver superior productivity and precision in agriculture.
- 500L tank capacity for high-volume spraying
- AI-driven navigation and route optimization
- Hybrid engine for longer operational endurance
- LiDAR-based navigation with obstacle avoidance
- Swarm technology for synchronized fleet operations
Blade
Precision Cutting. Autonomous Efficiency
A high-performance Autonomous Ground Vehicle (AGV) designed for precision mowing, landscaping, and green maintenance. Delivers powerful performance with intelligent navigation for efficient ground operations.
- Heavy-duty chassis with 13 HP engine designed for long working hours.
- AI-driven mowing with obstacle detection, and geofencing
- Tracked system handles slopes up to 20° and uneven ground with ease
- 800 mm wide rotary blades with adjustable cutting height (10–200 cm)
Our AGV utilizes high precision LiDAR sensors mounted on top of the vehicle to generate a real time 3D view of its surroundings. From this elevated position the sensor emits millions of laser pulses in all directions and accurately measures distances based on return time.
This top mounted configuration provides wide area coverage and an unobstructed perspective which enables our AGV to maintain reliable environmental awareness and operate safely and autonomously in all lighting conditions.
Our vision system provides the AGV with continuous 360° environmental awareness within plantation operations. It is designed with high dynamic range imaging and robust performance under challenging outdoor conditions, including strong sunlight, deep shadows, dust, and low-light scenarios during early morning and late afternoon operations.
The system enables accurate detection of obstacles, personnel, plantation infrastructure, equipment, and field boundaries, supporting safe and reliable navigation across large-scale and uneven terrain environments.
As the “brain” of our AGV, the onboard industrial computer integrates and processes real-time data from multiple perception and navigation sensors across the platform. It interprets the surrounding environment by identifying key objects such as workers, obstacles, plantation infrastructure, and operational boundaries, while simultaneously enabling path planning and motion control.
All decisions are executed in real time, allowing the AGV to navigate safely and efficiently across complex plantation environments with minimal human intervention.
