IoT Development
Connected Devices That Generate Value
We engineer full-stack IoT systems — from embedded firmware and edge computing to cloud data pipelines and real-time dashboards — connecting your physical world to actionable digital intelligence.
1M+
IoT Devices Managed
50+
IoT Projects Delivered
99.9%
Device Uptime Rate
<10ms
Edge Processing Latency
What We Deliver
End-to-end IoT engineering from device to dashboard
Sensussoft delivers complete IoT solutions across hardware selection, firmware development, connectivity protocols, edge computing, cloud integration, and analytics dashboards — for industrial, healthcare, smart home, and commercial IoT applications.
- Embedded Firmware Development (C/C++)
- Edge Computing Architecture
- MQTT / AMQP / CoAP Protocols
- BLE / Wi-Fi / LoRaWAN / NB-IoT
- OTA (Over-the-Air) Updates
- Real-time Device Management
- IoT Data Pipeline Engineering
- Predictive Maintenance Systems
- Device Security & Hardening
- Industrial IoT (IIoT) Integration
Embedded Firmware Development
RTOS-based firmware for ESP32, STM32, Nordic nRF52, and Raspberry Pi using C/C++, FreeRTOS, and Zephyr.
Connectivity & Protocols
MQTT, AMQP, CoAP, WebSocket, BLE 5.0, Wi-Fi 6, LoRaWAN, NB-IoT, Zigbee, and Z-Wave — selecting the right protocol for your use case.
Edge Computing
On-device AI inference, local data processing, and edge-to-cloud synchronization to minimize latency and bandwidth costs.
Full Capabilities
Everything you need to succeed
Embedded Firmware Development
RTOS-based firmware for ESP32, STM32, Nordic nRF52, and Raspberry Pi using C/C++, FreeRTOS, and Zephyr.
Connectivity & Protocols
MQTT, AMQP, CoAP, WebSocket, BLE 5.0, Wi-Fi 6, LoRaWAN, NB-IoT, Zigbee, and Z-Wave — selecting the right protocol for your use case.
Edge Computing
On-device AI inference, local data processing, and edge-to-cloud synchronization to minimize latency and bandwidth costs.
IoT Data Platform
Scalable time-series data ingestion (InfluxDB, TimescaleDB), storage, processing, and real-time streaming pipelines.
IoT Security Hardening
Secure boot, encrypted communication (TLS/DTLS), certificate-based authentication, and firmware signing for every device.
Real-time Dashboards
Web and mobile dashboards for device monitoring, alerting, telemetry visualization, and fleet management at scale.
Predictive Maintenance
Sensor data analysis, anomaly detection, and ML models that predict equipment failures before they cause downtime.
OTA Update Management
Secure, rollback-capable over-the-air firmware updates for thousands of devices with A/B testing and staged rollouts.
Cloud IoT Platform Integration
Native integration with AWS IoT Core, Google Cloud IoT, Azure IoT Hub, and custom MQTT brokers (Mosquitto, EMQ X).
Our Process
How we build with you
01
Hardware & Architecture
Hardware selection, connectivity protocol choice, cloud platform decision, and system architecture design with BoM.
02
Prototype & PoC
Working hardware prototype with firmware and cloud connectivity — validated in real-world conditions before production commitment.
03
Production Engineering
Full firmware development, cloud backend, security hardening, OTA system, and dashboard delivery with comprehensive testing.
04
Deployment & Scale
Fleet deployment support, remote monitoring, predictive maintenance setup, and ongoing engineering retainer.
Technology Stack
Built with proven technologies
C / C++FreeRTOSZephyr RTOSESP32 / ESP8266Raspberry PiMQTT / MosquittoAWS IoT CoreInfluxDBGrafanaTensorFlow LiteLoRaWANDocker / K3s
FAQ
Common questions
Yes — hardware selection is part of our discovery process. We help you choose the right microcontroller, connectivity module, sensors, and power system for your use case, balancing cost, performance, and production scalability. We also help with CE/FCC certification guidance.
It depends on range, power, bandwidth, and latency requirements. BLE is ideal for short-range, low-power consumer devices. Wi-Fi for bandwidth-heavy applications. LoRaWAN for long-range, low-power outdoor sensors. NB-IoT for cellular-connected outdoor tracking. We help you select and validate the right protocol during discovery.
We implement secure boot (signed firmware), encrypted storage, TLS/DTLS for all communications, certificate-based device authentication (X.509), no default credentials, and regular firmware security updates. Security is not an afterthought — it's built into the architecture from day one.
Yes. Our IoT backends are designed for horizontal scale using cloud-managed MQTT brokers, time-series databases with partitioning strategies, and event-driven processing pipelines. We've designed systems handling 1M+ concurrent device connections with sub-10ms message latency.
Ready to get started?
Let's discuss your project and see how we can help you build something extraordinary.