Research & Experimental Plaftorms
Research & Experimental Plaftorms
A flexible automation platform designed to support complex experiments, data acquisition, and research workflows at scale.
A flexible automation platform designed to support complex experiments, data acquisition, and research workflows at scale.
Get in Touch
Get in Touch
Illustration
e-RRP
Robotic Research Platform
E-RRP
Robotic Research Platform
A modular robotic platform built for real-world research, not lab simulations.
Deploy sensors, tools, and custom experiments directly in the field—without the complexity of building your own robotic system.
A modular robotic platform built for real-world research, not lab simulations.
Deploy sensors, tools, and custom experiments directly in the field—without the complexity of building your own robotic system.
Illustration
Designed to remove the barrier between research and deployment.
Designed to remove the barrier between research and deployment.
Mobility & Terrain Capability
Mobility & Terrain Capability
Engineered for real-world environments, the platform features 4-wheel Ackermann steering for stable navigation across uneven terrain while maintaining low ground pressure.
With speeds of up to 15 km/h, it enables efficient data collection across large and challenging research areas.
Engineered for real-world environments, the platform features 4-wheel Ackermann steering for stable navigation across uneven terrain while maintaining low ground pressure.
With speeds of up to 15 km/h, it enables efficient data collection across large and challenging research areas.
Payload & Integration
Payload & Integration
Designed for experimentation, the platform supports custom sensor and tool integration across a wide range of research applications.
With a payload capacity of 120–170 kg, it accommodates complex instrumentation, multi-sensor arrays, and specialised equipment.
Designed for experimentation, the platform supports custom sensor and tool integration across a wide range of research applications.
With a payload capacity of 120–170 kg, it accommodates complex instrumentation, multi-sensor arrays, and specialised equipment.
Power & Endurance
Power & Endurance
Equipped with up to 6 kWh onboard energy, the system delivers 4–8 hours of continuous field operation.
Multi-voltage outputs (12V / 24V / 48V) ensure compatibility with a wide range of sensors and experimental hardware.
Equipped with up to 6 kWh onboard energy, the system delivers 4–8 hours of continuous field operation.
Multi-voltage outputs (12V / 24V / 48V) ensure compatibility with a wide range of sensors and experimental hardware.
Control & Open Architecture
Control & Open Architecture
Operate the platform in manual, assisted, or fully autonomous modes, depending on your research requirements.
Built on an open architecture with support for ROS 2, CAN bus, and Ethernet, the system allows seamless integration of custom software, algorithms, and control systems—without vendor lock-in.
Operate the platform in manual, assisted, or fully autonomous modes, depending on your research requirements.
Built on an open architecture with support for ROS 2, CAN bus, and Ethernet, the system allows seamless integration of custom software, algorithms, and control systems—without vendor lock-in.
Field Lightbox System
Field Lightbox System
Measure surface conditions with lab-level consistency — directly in the field.
Built on an open hardware and software architecture (Arduino, Raspberry Pi, ROS 2), the system enables fully customisable data acquisition, control, and integration workflows.
Measure surface conditions with lab-level consistency — directly in the field.
Built on an open hardware and software architecture (Arduino, Raspberry Pi, ROS 2), the system enables fully customisable data acquisition, control, and integration workflows.
Designed for research and real-world deployment, the system eliminates variability caused by ambient light, weather, and time of day.
By combining controlled lighting with an open, modular architecture, researchers and engineers can adapt the system to their exact needs—from custom sensor integration to fully automated robotic workflows.
Every measurement is consistent, reproducible, and extensible.
Designed for research and real-world deployment, the system eliminates variability caused by ambient light, weather, and time of day.
By combining controlled lighting with an open, modular architecture, researchers and engineers can adapt the system to their exact needs—from custom sensor integration to fully automated robotic workflows.
Every measurement is consistent, reproducible, and extensible.
Controlled Lighting Environment
Controlled Lighting Environment
Integrated multi-frequency lighting ensures consistent illumination across all measurements, removing the impact of changing environmental conditions.
Integrated multi-frequency lighting ensures consistent illumination across all measurements, removing the impact of changing environmental conditions.
Repeatable Data Acquisition
Repeatable Data Acquisition
Standardised measurement conditions allow for direct comparison across time, locations, and experiments, enabling research-grade analysis.
Standardised measurement conditions allow for direct comparison across time, locations, and experiments, enabling research-grade analysis.
Open Hardware & Software Stack
Open Hardware & Software Stack
Built using Arduino, Raspberry Pi, and ROS 2, the system provides full access to control, data acquisition, and automation layers.
No black boxes—fully configurable for custom research and development.
Built using Arduino, Raspberry Pi, and ROS 2, the system provides full access to control, data acquisition, and automation layers.
No black boxes—fully configurable for custom research and development.
Multi-Sensor & Multi-Spectral Support
Multi-Sensor & Multi-Spectral Support
Supports RGB, IR, and custom sensors, enabling advanced metrics such as NDVI and surface condition analysis.
Supports RGB, IR, and custom sensors, enabling advanced metrics such as NDVI and surface condition analysis.
For Researchers & Developers
For Researchers & Developers
Full access to raw data and control systems
Easy integration with existing pipelines
Compatible with ROS 2-based robotics systems
Designed for rapid experimentation and iteration
Full access to raw data and control systems
Easy integration with existing pipelines
Compatible with ROS 2-based robotics systems
Designed for rapid experimentation and iteration
Frequently Asked Questions
Frequently Asked Questions
Can the system monitor site activity and worker safety?
Can the platform track people or equipment on a construction site?
Can E-Nano automate construction site processes?
What types of construction tasks can the system automate?
Can the system analyse ground conditions before construction?
Can the robots operate on active construction sites?
How are surface defects and cracks detected?
Contact us for a demo
Contact us for a demo
E-Nano LTD
E-Nano LTD
SE5 7HN - LONDON, GB
SE5 7HN - LONDON, GB
info@e-nano.io
info@e-nano.io