Boost agricultural output and safeguard forests through actionable intelligence from space. ORUS maps crop types and forest species, evaluates soil condition and moisture, and enables early detection of plant diseases or nutritional deficiencies.
We identify invasive species and monitor vegetation health under climate stress. Our data enhances biomass estimation, supports carbon offset programs, and helps optimize water and input usage.
Whether for insurance, sustainability, or production efficiency, ORUS empowers stakeholders with high-resolution insights that promote resilience, biodiversity preservation, and food system sustainability in a changing environment.
ORUS enhances situational awareness by offering a persistent, detailed view of land and coastal zones. Our hyperspectral data distinguishes camouflaged or artificial objects, detects chemical traces, and assesses terrain usability.
We analyze changes in bathymetry, track human activity, and monitor borders and strategic zones with unparalleled fidelity. ORUS supports defense and security forces with robust, real-time intelligence for decision-making, enabling them to anticipate threats, detect illegal operations, and maintain control over critical infrastructure.
When visibility matters, ORUS offers a unique vantage point beyond the capabilities of conventional surveillance.
In times of crisis, speed and clarity are vital. ORUS provides spatial intelligence to assess risk, guide emergency response, and support recovery efforts. We monitor soil instability, fire and explosion residues, and storm impacts, delivering reliable information for insurers, rescue teams, and public agencies.
After disasters, our imagery helps evaluate damage to crops and forests, track sediment deposits, and identify signs of long-term environmental disruption. ORUS ensures faster claims processing, more targeted aid, and better preparedness for future risks, enabling critical decisions when they matter most—with the accuracy and objectivity only space can provide.
ORUS transforms how industries explore and manage global energy and mineral resources. From identifying geological formations to assessing surface degradation, our hyperspectral imaging detects the presence and composition of minerals, metal ores, and hydrocarbons with high accuracy.
We monitor pipeline integrity, detect leaks or surface corrosion, and analyze oil storage conditions. Our tools also help optimize solar energy production by evaluating material quality and surface aging. ORUS supports smarter exploration, reduces environmental risks, and ensures regulatory compliance by offering precise, scalable data insights for complex industrial operations.
ORUS enables proactive environmental monitoring by detecting ecological changes before they escalate. We assess air quality by measuring atmospheric gases and aerosols, and identify chemical pollutants in freshwater and marine environments.
Our imaging detects oil spills, waste dumps, and microplastic concentrations, while also mapping algal blooms and fragile ecosystems such as coral reefs and mangroves. ORUS moves beyond estimations, offering trusted data to verify green bonds, monitor environmental indicators, and ensure compliance with climate and biodiversity policies.
We bring visibility to invisible changes, supporting a more transparent and sustainable approach to environmental stewardship.
Infrastructure planning and resilience require continuous, precise monitoring. ORUS identifies material degradation in roads, railways, and buildings, classifies rooftop surfaces, and monitors land cover transformation across urban and rural areas.
Our imaging supports smart city design, tracks construction progress, and evaluates environmental impact. With ORUS, planners and engineers gain data-driven tools to ensure safe, efficient, and sustainable development.
From policy enforcement to resource allocation, ORUS helps optimize land use, protect public assets, and align infrastructure growth with climate and sustainability goals at both local and national levels.
Vision Protecting the Earth and humankind through new observation capabilities from space.
Mission
ORUS’ mission is to deliver high-resolution hyperspectral space imagery services with native precision and fidelity, enabling accurate identification of objects and environments based on their chemical composition and surface conditions, at scale.
This is achieved with a civilian microsat imagery constellation and interpretation thanks to ORUS’ proprietary processing technologies, enabling unprecedented exploitation of large volumes of data with automatic hyperspectral data processing and chemicals/materials classification.