The Future of Disease Detection, Today
Capture up to 1 million airborne particles per day to identify spores in real times.
Provides actionable evidence to help you determine your spray decisions
Trusted by leading farmers, agronomists, and agricultural experts across the globe
Scanit’s Ground-Breaking Technology in 3 Simple Steps
Detect airborne diseases real-time and fortify your first line of defence
Step 1: Capture Airborne Particles
Autonomous SporeCam™ captures and classifies 100,000 to a million airborne particles per day in real-time.
Step 2: Real-Time Analysis
Data transferred to the cloud for instant analysis and spore detection.
Step 3: Actionable Alerts
Real-time dashboard alerts and data access via APIs on other platforms for proactive decision-making.
Learn More About Our Technology
Detect Airborne Diseases Before
They Damage Your Crops
Scanit’s advanced real-time technology identifies a wide range of airborne pathogens, empowering you to take preventive action early.
corn
Graps
Wheat
Roses
Tar Spot, Northern Corn Leaf Blight, Gray Leaf Spot, Southern Rust
Powdery Mildew, Downy Mildew, Botrytis
Wheat Rust, Septoria
Powdery
Mildew
We detect more airborne pathogens than the ones listed.
Advanced Features That Make a Difference
Real-Time Detection:
Immediate identification of airborne pathogens.
Disease Signature
Library: Extensive
library covering
pathogens for a range
of crops
Canopy Ambient Data: Get hyperlocal data such as temperature, humidity, pressure, and dew point .
Cloud-Based
Dashboard: Access
your data anytime,
anywhere
User-Friendly API Integration: Easily connect with existing farm management systems
Why Scanit Holds an Edge Over Traditional Methods?
Scouting, Lab Testing, Predictive Models
Reactive
Delayed Results
Labor-Intensive
General Weather-Based
Estimates
Scouting, Lab Testing, Predictive Models
Reactive
Delayed Results
Labor-Intensive
General Weather-Based
Estimates
Experience the Scanit Advantage
Enhanced Accuracy
Enhanced detection of weather-based crop disease detection through critical analysis of airborne spores.
Reduce Crop Losses by up to 50%
Early detection prevents widespread disease
Lower Operational Costs
Achieve precision timing of sprays and eliminate guess work.
Boost Sustainability
Optimized chemical use with targeted, timely treatments to prevent under or over-spraying.