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Development of Bluetooth-enabled Street Lighting Management Application

thedroidsonroids.com

Utilities

Energy & natural resources

Environmental Services

Current Challenges in Street Lighting Management

Existing street lighting systems require manual configuration and physical access for maintenance, leading to increased energy consumption, operational inefficiencies, and delayed response to environmental changes. Lack of centralized control limits optimization of lighting schedules and energy savings.

About the Client

Innovative provider of intelligent street lighting solutions seeking digital transformation through IoT-enabled control systems

Key Project Goals

Create Bluetooth-connected mobile application for remote controller management
Implement real-time monitoring of lighting system parameters
Enable dynamic scheduling and energy optimization features
Facilitate over-the-air software updates for controllers
Improve operational efficiency through GPS-based time synchronization

Core System Capabilities

Bluetooth communication with microBLUE controllers
Real-time input/output status monitoring
GPS time synchronization for accurate scheduling
Light working time tracking per output
Controller software reinstallation capability
Multi-period night break programming
Automatic daylight saving time adjustments
Custom settings management and storage
APCLED system remote programming interface
GPS location verification for controller units

Technology Stack Requirements

Android (Kotlin)

Bluetooth Low Energy (BLE)

GPS integration

Mobile-first architecture

System Integration Needs

microBLUE controller protocol stack
GPS time synchronization API
APCLED lighting system interface

Performance & Security Requirements

Secure Bluetooth communication protocol
Low-latency device response times
Offline functionality with sync capability
Scalable architecture for thousands of nodes
Environmental condition resilience

Expected Business Outcomes

Projected 30-40% reduction in energy costs through optimized scheduling, 50% faster maintenance response times via remote updates, and 25% improvement in system uptime through proactive monitoring. Enables market differentiation through IoT-enabled smart city integration capabilities.