Operational software
for the physical frontier.
Sirius Technologies builds software and applied machine learning for systems that operate in the physical world — turning sensor streams, operational data, and domain signals into decisions in real time.
Software for the physical world.
Sirius develops the software and applied machine learning layer for systems that operate in physical space. The same core stack applies wherever high-stakes decisions depend on data from the real world — sensor streams, operational logs, structured domain data — across emergency response, mobility, autonomy, energy, industrial operations, and human-interface systems.
Data & Signal Fusion
A unified decision substrate composed from whatever inputs a domain already produces — sensor streams, operational data, or structured records.
Applied Machine Learning
Pipelines trained, validated, and characterized against the specific conditions of each domain. Models built to be audited, not just to score.
Vertical-Agnostic Core
A single platform engineered once and instantiated per domain. ORION — our earthquake search-and-rescue deployment — is the first of several.
A coordination and sensing system for urban search and rescue operations during the critical 72-hour survival window.
The first 72 hours are decisive.
Following a major seismic event, survival probability declines steeply with time. Response teams operate under incomplete information, restricted access, and an absence of shared situational awareness. Conventional coordination methods — paper maps, voice radio, spreadsheets — cannot maintain pace with the operational tempo.
ORION provides a unified operational picture for the response. Unmanned aerial systems conduct systematic sweeps of collapse zones while thermal, RGB, acoustic, UWB radar, seismic, and passive RF pipelines are fused into a single survivor confidence surface. A single coordinator directs multiple assets and ground teams in real time, with complete audit logging, offline-capable operation, and operator-approved dispatch at every stage.
Seven sensing modalities. One fusion core.
ORION is a software platform. Each sensing modality is implemented as an independent pipeline — trained, validated, and characterized in isolation — and composed into a single continuous confidence surface at the fusion core. Failure modes in any one modality are constrained by the others. The architecture is sensor-agnostic and integrates with commercial hardware already fielded by responders and operators, so new modalities and autonomous platforms plug in without rewriting the core.
UWB Radar
Detects breathing and heartbeat through structural debris where optical sensors cannot reach.
Acoustic Array
Directional microphones isolate voices, tapping patterns, and distress signals against collapse-zone background noise.
Thermal IR
Aerial thermal sweeps flag heat signatures on rubble surfaces and direct ground teams within minutes of overflight.
Seismic
Sensor pods placed on debris capture micro-vibrations from movement and vitals, confirming detections from radar and acoustic channels.
RGB Aerial
Drone-borne optical detection identifies survivors, debris, and access routes during daylight operations.
Passive RF
Passive sensing discovers nearby personal devices to help localize trapped individuals — without emitting.
LoRa Beacon
Long-range beacons triangulate responder and survivor locator tags across wide zones, independent of cellular infrastructure.
Sub-Surface Detection
Thermal imaging combined with radar vitals identifies body heat and respiration beneath debris, where optical sensors are ineffective.
Acoustic Localization
Directional microphone arrays triangulate impact sounds, vocalizations, and distress signals across a collapse zone.
Unified Coordination
A single coordinator directs multiple unmanned systems and ground teams from one operational view, with prioritized recommendations and complete audit.
Validated. Ready for integration.
ORION has been validated end-to-end in a synthetic reality harness under representative load conditions. The system is ready for integration with live sensor feeds and hardware partners. A full technical dossier is available upon request.
We build software for systems that touch the real world.
Sirius Technologies develops software and applied machine learning at the boundary between computation and the physical environment. Our objective is to minimize the interval between data and decision wherever that interval carries real consequence.
We build with rigor. Every claim is measured under reproducible load, and every capability is designed to operate on commodity hardware, under adverse conditions, from day one. We expect to carry the same core stack across multiple domains.
- ▸Measured performance, not projections
- ▸Resilient by default — offline, degraded, adverse
- ▸Human-in-the-loop decision authority
- ▸One core stack, many domains
Building with operators, integrators, and early deployment partners.
Establish Contact.
Inquiries from institutional and strategic partners are reviewed directly by the founding team. All correspondence is handled under non-disclosure.