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Development of Resource-Efficient Management Software for Decentralized Water Systems Using Raspberry Pi

syberry.com

Environmental Services

Utilities

Energy & Natural Resources

Challenges in Decentralized Water System Management

Limited access to reliable hardware and internet connectivity in developing regions hampers effective water system management. Existing solutions must operate on low-specification devices (2GB RAM, microSD storage) while maintaining functionality for real-time monitoring, sensor integration, and remote administration in areas with unstable network infrastructure.

About the Client

A technology solutions provider focused on sustainable infrastructure development for underserved regions

Key Development Goals

Create resource-efficient software capable of running on Raspberry Pi hardware
Enable real-time water quality monitoring with offline functionality
Support integration with diverse analog/digital sensors
Implement remote administration capabilities via multiple connectivity options
Ensure scalability for future expansion into solar and fuel management sectors

Core System Capabilities

Decentralized data collection from 100+ sensors per system
Real-time infrastructure prototyping interface
Multi-protocol sensor compatibility (Modbus, IO Link)
Offline-first architecture with USB-based configuration transfer
Cross-system data synchronization via satellite/WiFi/cable connections

Technology Stack Requirements

Python

Django

Django Rest Framework

ReactJS

MySQL

Docker

Redis

Nginx

System Integration Needs

Industrial sensor protocols (Modbus, IO Link)
Satellite communication APIs
Cloud storage services for data aggregation
NGO partner systems for resource coordination

Performance Constraints

Memory-optimized operations under 2GB RAM limit
99.9% system availability in harsh environmental conditions
Data integrity maintenance during intermittent connectivity
Low-bandwidth communication protocols
Hardware-agnostic sensor interface layer

Expected Development Outcomes

Deployment of scalable water management solutions across 1000+ locations in developing countries, enabling sustainable clean water access for 500,000+ residents annually. The system will reduce infrastructure maintenance costs by 40% through predictive monitoring while supporting cross-sector expansion into renewable energy management within 18 months.