AIot platform for data collection, processing, visualization and device management.
It enables device connectivity via industry standard IoT protocols - MQTT, CoAP and HTTP and supports both cloud and on-premises deployments. Our Platform combines scalability, fault-tolerance and performance so you will never lose your data.
Provision, monitor and control your IoT entities in secure way using rich server-side APIs. Define relations between your devices, assets, customers or any other entities.
Collect and store telemetry data in scalable and fault-tolerant way. Visualize your data with built-in or custom widgets and flexible dashboards. Share dashboards with your customers.
Define data processing rule chains. Transform and normalize your device data. Raise alarms on incoming telemetry events, attribute updates, device inactivity and user actions.
Collect, Manage and store telemetry data
Surviving network and hardware failures
Provides API for server-side applications to send RPC commands to devices and vice-versa.
Define your application logic with drag-n-drop rule chain designer.
IoT Rule Engine
Allows real-time alarms monitoring and can raise alarms on disconnect or inactivity events.
Node failure is automatically detected. Failed nodes can be replaced without downtime.
Real time Dashboards
Create rich IoT Dashboards for data visualization and remote device control in real-time.
Construct your own cluster with our platform and get maximum scalability and fault-tolerance with new micro-services architecture. We support both cloud and on-premises deployments.
Single tenant may have multiple tenant administrators and millions of devices and customers
No downtime, server restarts or application errors.
Encryption for both MQTT & HTTP(s) protocols.
Device authentication & credentials management.
30+ configurable widgets
Built-in line-charts, digital and analog gauges, maps and much more.
Provisioning of server-side asset attributes and monitor related alarms.
Build hierarchy of entities using relations.
Our platform users can use their own transport implementationor customize behaviour of existing protocols.