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Development of Remote Real-Time Monitoring System for Electric Public Transport Substations

instinctools.com

Utilities

Government

Environmental Services

Operational Challenges in Substation Management

Manual monitoring of 10-15+ traction substations per city leads to delayed emergency response, high operational costs, and difficulty maintaining continuous uptime for critical electric transport infrastructure.

About the Client

Public transport management authority overseeing electric tram and trolleybus networks in Dutch municipalities

System Modernization Goals

Replace manual monitoring with automated control systems
Enable real-time remote monitoring of all substations
Implement automated emergency response protocols
Improve system uptime and maintenance efficiency

Core System Capabilities

Real-time telemetry data collection from substations
Emergency alert notification system
Remote control interface for substation management
Automated failure response protocols
Centralized dashboard for multi-substation oversight

Technology Stack Requirements

SCADA systems

Modbus RTU

GPRS/3G communication

SNMP

ZeroMQ

Node.js

RTOS

Windows Embedded Standard

System Integration Needs

Existing traction substation hardware
Central control room infrastructure
Emergency response protocols
Legacy monitoring systems

Operational Requirements

24/7 system availability
Low-latency communication
Industrial-grade reliability
Cybersecurity for critical infrastructure
Scalable architecture for city-wide deployment

Expected Operational Improvements

Anticipated 40-60% reduction in emergency response times, 25-35% decrease in operational costs, and 99.9%+ system uptime through automated monitoring and control implementation.