Smart Building IoT Retrofit Case for a Power Company Office Building

1. Project Background

The office building includes multiple subsystems:

  • HVAC and chilled/hot water systems
  • Electrical distribution rooms
  • Office environments across multiple floors
  • Plumbing and drainage systems

Existing issues:

  • Environmental data collected manually
  • Hidden risks such as leakage are not detectable in real time
  • Systems operate in isolation without unified integration

2. System Objectives

The goal is to build a low-maintenance, scalable monitoring system enabling:

  • Real-time environmental sensing
  • Infrastructure risk detection
  • Unified data integration
  • Event-based alerting

3. System Architecture

Built on ThinkLink, the system consists of four layers:


1. Sensor Layer

  • Temperature & humidity sensors
  • Pipe temperature sensors
  • Rope-type water leakage sensors

2. Edge Access Layer (DIN-rail DTU)

  • Multi-sensor data aggregation
  • Protocol conversion and normalization
  • Local anomaly detection (e.g., water leakage)
  • Offline buffering and retransmission

3. LoRaWAN Network Layer

Based on LoRaWAN:

  • Multi-floor building coverage
  • Low-power long-term operation
  • Reduced cabling complexity
  • Suitable for harsh indoor environments

  • Device management
  • Real-time visualization
  • Alarm and event handling
  • Historical data analytics

4. Results

  • Early detection of water leakage events
  • Visibility into HVAC pipeline conditions
  • Continuous environmental monitoring
  • Shift from inspection-based to event-driven maintenance

5. Key Takeaway

The value of the system lies not in adding sensors, but in restructuring the monitoring logic:

  • From fragmented systems → unified platform
  • From manual inspection → automated sensing
  • From reactive maintenance → real-time alerting
  • From experience-based → data-driven operations

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