Reveal thermal patterns to optimize performance and safety
Monitor temperature anomalies, urban heat islands, and environmental risks with satellite-powered analytics that prevent failures, optimize planning, and cut operational costs
Hidden geotechnical risks threaten your infrastructure.
Land Surface Temperature variations — including excessive heat buildup, soil drying, and localized thermal anomalies — pose serious risks to cities, energy grids, and natural environments. Left unmanaged, these changes can lead to:
Structural stress
Roads, railways, and energy assets degrade faster under prolonged heat
Operational inefficiencies
Heat-related downtime, energy overuse, and cooling challenges
Environmental hazards
Drought intensification, vegetation stress, and higher wildfire risk
Public health impacts
Rising temperatures increase heat-related illnesses and safety risks
Costly interventions
Reactive measures are expensive and often too late
Traditional monitoring methods are fragmented and localized, missing the bigger picture of temperature dynamics that satellites can provide at scale
Full-cycle risk management
Monitor your full network or area of interest with instant thermal alerts
Guide inspections, validate thermal anomalies with field sensors, and integrate on-site observations directly in the platform
Spotlite Platform
Pinpoint hotspots, analyze land cover–temperature interactions, and assess heat-prone assets or neighborhoods
Track seasonal changes, prioritize mitigation (e.g., vegetation planting, cooling strategies), and configure alerts
Monitoring Capabilities
Urban Heat Island Mapping
Identify heat-prone zones in cities for climate adaptation strategies Soil Moisture & Heat Stress Detection
Use thermal patterns to identify drought risks and stressed vegetation Thermal Anomaly Tracking
Detect deviations from normal land surface temperature conditions Average Temperature Trends (3 and 12 Months)
Capture both short-term seasonal fluctuations and long-term climate shifts Temperature Change Rate (Acceleration)
Detect emerging risks by analyzing how quickly areas are heating or cooling Cumulative Thermal Exposure
Quantify how much heat stress an area or asset has been subjected to over time Comparative Analysis
Assess differences across regions, assets, or land cover types Historical Data Archive
Access decades of satellite thermal records to identify evolving long-term temperature dynamics