How a Power-Efficient Design Extended a Parking Occupancy Sensor’s Battery Life to 5 Years
The creation of a highly efficient sensor with extended battery life, using low-power communication protocols and cloud-based data processing.
At a Glance
Dimonoff, a leader in smart city solutions, needed to enhance the battery life of their parking occupancy sensors while maintaining performance accuracy. They required a solution that minimized power consumption and reduced the need for frequent maintenance, particularly for urban and commercial parking systems.
Advanced Sensor Design for Increased Battery Life
Amotus developed an advanced parking occupancy sensor design featuring a LiDAR sensor, LoRaWAN communication, and a low-power ARM microcontroller. By optimizing power usage and integrating cloud-based machine learning for data processing, the sensor achieved up to 5 years of battery life.
The Main Challenges of the Project:
- Implement real-time power monitoring for individual sockets across temporary power setups.
- Achieving accurate parking occupancy detection with minimal power consumption.
- Extending battery life to minimize maintenance needs and reduce operational costs.
- Integrating energy-efficient communication and sensor technologies for reliable performance.
- Leveraging cloud-based data processing to reduce on-device power consumption.
Download the full case study to discover how a power-efficient design extended the battery life of parking sensors using advanced IoT solutions.
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