Industrial IoT architecture designed from the ground up for extreme environments and mission-critical applications.
R3CON's streamlined architecture ensures reliable data collection, strong connectivity, and secure cloud access.
Solar-powered field units with onboard intelligence collect pressure, temperature, pulse, float, and Modbus data from remote equipment.
Secure LTE-M communication with automatic multi-carrier selection ensures the strongest available signal at every site.
Redundant cloud infrastructure for data ingestion, storage, alerts, dashboards, and API access for integrations.
High-efficiency solar charging with intelligent sleep scheduling delivers long multi-day runtime in remote conditions.
LTE-M cellular with automatic carrier selection ensures strong, reliable communication even in weak-signal regions.
Supports pressure, temperature (K-type), pulse meters, float switches, analog inputs, and Modbus RTU devices.
UV-stable and weather-resistant enclosures built for long-term field deployment in extreme hot and cold environments.
Responsive web interface with live data visualization, customizable widgets, and multi-site management.
Rule-based alerts with threshold logic, hysteresis, and multi-channel delivery (SMS, email, webhook).
RESTful API, MQTT broker, and webhooks for seamless integration with existing systems.
All device-to-cloud communication uses TLS encryption to keep field data secure in transit.
Role-based access, API keys, and authenticated sessions ensure only authorized users can access system data.
Cloud platform logs configuration updates, device activity, and user actions for traceability and compliance.
Unique device credentials, encrypted sessions, and signed firmware updates protect units deployed in the field.
R3CON units contain lightweight edge intelligence that evaluates sensor data, reduces cellular overhead, and maintains operation even when connectivity is limited.
Units verify readings, apply thresholds, and suppress noisy or redundant data before sending it to the cloud.
Pressure, temperature, and status conditions trigger immediate alerts from the device.
Store-and-forward buffering preserves all measurements during outages and uploads automatically when signal returns.
Download our technical whitepaper or schedule a technical deep-dive with our engineering team.