The Automation Stack
for the Physical World
The Automation Stack
for the Physical World
E-Nano builds the automation infrastructure that allows organisations to measure, monitor, and manage real-world environments.
By combining robotics, sensing systems, edge computing, and artificial intelligence, the platform transforms physical operations into structured, measurable, and actionable data systems.
E-Nano builds the automation infrastructure that allows organisations to measure, monitor, and manage real-world environments.
By combining robotics, sensing systems, edge computing, and artificial intelligence, the platform transforms physical operations into structured, measurable, and actionable data systems.
Intelligence Layer
Intelligence Layer
AI systems that analyse collected data to generate diagnostics, predictions, and recommendations — from computer vision models to predictive analytics and automated reporting.
AI systems that analyse collected data to generate diagnostics, predictions, and recommendations — from computer vision models to predictive analytics and automated reporting.
Platform Layer
Platform Layer
Cloud infrastructure that manages devices, data, and workflows across deployments — including dashboards, mission control, and system integration.
Cloud infrastructure that manages devices, data, and workflows across deployments — including dashboards, mission control, and system integration.
Control Layer
Control Layer
Edge computing and control systems that connect sensors, machines, and automation hardware in real time — from industrial controllers to OSCAR Core.
Edge computing and control systems that connect sensors, machines, and automation hardware in real time — from industrial controllers to OSCAR Core.
Physical Layer
Physical Layer
Robotic platforms, sensors, and tools that interact directly with the environment — from existing client machinery to E-Nano robotics and sensing systems.
Robotic platforms, sensors, and tools that interact directly with the environment — from existing client machinery to E-Nano robotics and sensing systems.
The automation stack
The automation stack
How it works
How it works
Autonomous robotics and sensing systems capture structured data directly from real-world environments.
Edge computing processes measurements while the platform manages devices, workflows, and data.
AI models transform this information into diagnostics, insights, and actions.
Autonomous robotics and sensing systems capture structured data directly from real-world environments.
Edge computing processes measurements while the platform manages devices, workflows, and data.
AI models transform this information into diagnostics, insights, and actions.
Deployment model
Deployment model
The platform is designed to be deployed incrementally.
Organisations can start with a single measurement capability or robotic system and expand the stack over time.
This approach reduces risk while allowing automation to scale gradually.
The platform is designed to be deployed incrementally.
Organisations can start with a single measurement capability or robotic system and expand the stack over time.
This approach reduces risk while allowing automation to scale gradually.
Why it matters
Why it matters
Many industries still rely on manual inspection and fragmented data.
The automation stack enables environments to be measured continuously and analysed
automatically.
This creates faster decisions, better visibility, and more consistent outcomes.
Many industries still rely on manual inspection and fragmented data.
The automation stack enables environments to be measured continuously and analysed
automatically.
This creates faster decisions, better visibility, and more consistent outcomes.
Applications of the Platform
Applications of the Platform
Technologies
Technologies
The automation stack is built from several core technologies that operate together as a unified platform.
The automation stack is built from several core technologies that operate together as a unified platform.
Mobility Systems
Mobility Systems
Sprout provides the mobility layer of the platform — a modular robotic base designed to carry sensors and tools across real-world environments.
Different configurations support varied terrain, payload requirements, and operational missions.
Sprout provides the mobility layer of the platform — a modular robotic base designed to carry sensors and tools across real-world environments.
Different configurations support varied terrain, payload requirements, and operational missions.
Illustration
Illustration
Perception Systems
Perception Systems
Perception systems use Lightbox technology to capture structured measurements of the physical world.
Controlled lighting and calibrated sensing enable consistent, high-quality data collection for monitoring, diagnostics, and analysis.
Perception systems use Lightbox technology to capture structured measurements of the physical world.
Controlled lighting and calibrated sensing enable consistent, high-quality data collection for monitoring, diagnostics, and analysis.
Actuation systems
Actuation systems
Actuation systems enable controlled physical interaction with the environment.
These include penetrometers, robotic manipulators, and linear motion tools for intrusive measurement, sampling, and automated operations.
Actuation systems enable controlled physical interaction with the environment.
These include penetrometers, robotic manipulators, and linear motion tools for intrusive measurement, sampling, and automated operations.
Illustration
Illustration
Control systems
Control systems
Control systems coordinate devices, sensors, and missions across the platform.
OSCAR manages connectivity, device orchestration, mission planning, and data flow for reliable deployment of automation systems
Control systems coordinate devices, sensors, and missions across the platform.
OSCAR manages connectivity, device orchestration, mission planning, and data flow for reliable deployment of automation systems
Intelligence systems
Intelligence systems
Intelligence systems transform measurements into insights and decisions.
OSCAR AI uses machine learning and data analysis to detect patterns, generate diagnostics, and deliver actionable recommendations.
Intelligence systems transform measurements into insights and decisions.
OSCAR AI uses machine learning and data analysis to detect patterns, generate diagnostics, and deliver actionable recommendations.
Products Built on the Platform
Products Built on the Platform
These systems are internally developed deployments of the E-Nano automation stack. Each combines mobility, sensing, control, and AI to solve a specific real-world problem.
These systems are internally developed deployments of the E-Nano automation stack. Each combines mobility, sensing, control, and AI to solve a specific real-world problem.
Sprout
Sprout
STACK COMPONENT: Mobility + Control + Intelligence Systems
STACK COMPONENT: Mobility + Control + Intelligence Systems
Our autonomous robot come equipped with an extensive range of sensors and tools, painting a comprehensive picture of field health and condition. Key measurements include:
NDVI (Normalised Difference Vegetation Index): To gauge turf health.
Visual Imagery: Detailed photographs to capture every field nuance.
Penetrometer: Assessing soil compaction levels.
Clegg Hammer: To measure surface firmness.
Moisture Sensors: Checking for the right hydration levels of the turf.
Multispectral Sensor: Gaining insights beyond the visible spectrum for a deep dive into turf health.
Thermal Camera: A compact thermal imaging tool that measures surface temperature, helping identify areas of stress or potential irrigation issues.
Our autonomous robot come equipped with an extensive range of sensors and tools, painting a comprehensive picture of field health and condition. Key measurements include:
NDVI (Normalised Difference Vegetation Index): To gauge turf health.
Visual Imagery: Detailed photographs to capture every field nuance.
Penetrometer: Assessing soil compaction levels.
Clegg Hammer: To measure surface firmness.
Moisture Sensors: Checking for the right hydration levels of the turf.
Multispectral Sensor: Gaining insights beyond the visible spectrum for a deep dive into turf health.
Thermal Camera: A compact thermal imaging tool that measures surface temperature, helping identify areas of stress or potential irrigation issues.
Learn More
Learn More
Lightbox
Lightbox
STACK COMPONENT: Perception System + Intelligence Systems
STACK COMPONENT: Perception System + Intelligence Systems
Lightbox is E-Nano’s professional multispectral turf diagnostics system, designed to deliver consistent, ground-truth measurements for sports surfaces.
Using a controlled sensing environment and OSCAR analytics, Lightbox helps grounds teams move beyond subjective inspection and understand the true condition of their surfaces.
Lightbox is E-Nano’s professional multispectral turf diagnostics system, designed to deliver consistent, ground-truth measurements for sports surfaces.
Using a controlled sensing environment and OSCAR analytics, Lightbox helps grounds teams move beyond subjective inspection and understand the true condition of their surfaces.
Learn More
Learn More
Manti-S NDVI
Manti-S NDVI
STACK COMPONENT: Perception System
STACK COMPONENT: Perception System
MANTI-S handheld NDVI sensors measure plant health and turf vigour in seconds, helping optimise fertiliser and crop management decisions.
Available in Lite and Pro versions for different field use requirements.
MANTI-S Lite: lightweight and accessible
MANTI-S Pro: enhanced durability and premium finish
MANTI-S handheld NDVI sensors measure plant health and turf vigour in seconds, helping optimise fertiliser and crop management decisions.
Available in Lite and Pro versions for different field use requirements.
MANTI-S Lite: lightweight and accessible
MANTI-S Pro: enhanced durability and premium finish
Learn More
Learn More
Robot Platform
Robot Platform
STACK COMPONENT: Mobility + Control + Intelligence Systems
STACK COMPONENT: Mobility + Control + Intelligence Systems
A compact, high-torque robotic rover engineered to accelerate real-world deployment of robotics applications across agriculture, infrastructure, research, and beyond.
The SPROUT Modular Robotic Base provides a robust, configurable foundation to build your own robotic solution — without the cost, time, and risk of starting from scratch.
Built in the UK and designed for flexibility, it integrates seamlessly with your sensors, payloads, and control systems — from manual operation to full autonomy.
Learn More
Learn More
E-Nano LTD
E-Nano LTD
SE5 7HN - LONDON, GB
SE5 7HN - LONDON, GB
info@e-nano.io
info@e-nano.io