The system is equipped with blue, red, amber, and white emergency strobe lights. These lights can be activated remotely or automatically in response to specific triggers or events such as low visibility, traffic jams, accidents, or road works. The system incorporates high-efficiency solar panels which are designed to withstand various weather conditions and provide optimal solar energy conversion. The system also includes battery storage to ensure 24/7 operation and it can store up to seven days worth of power.
The system is designed to withstand harsh weather conditions, including extreme temperatures, rain, wind, and sunlight exposure. This ensures its reliability and longevity, even in challenging environments.
It features a remote monitoring and control system, enabling real-time monitoring of the system’s performance and status. Commands are sent and received via 3G/4G/LTE and utilises Mesh communications between field sensors. It also allows for remote adjustments, diagnostics, and troubleshooting, which improves efficiency and maintenance.
Integration with existing systems: The solar emergency warning system can be integrated with existing emergency management systems or infrastructure. This facilitates seamless coordination and enhances overall emergency response capabilities.
Renewable energy: The solar emergency warning system uses solar power, which is a clean and renewable energy source. This makes it environmentally friendly and reduces dependence on non-renewable energy.
Cost effective: Solar energy is abundant and free, which means the system can significantly reduce operational costs over time. It eliminates the need for fuel or electricity consumption, making it a cost-effective solution.
Scalability: The solar emergency warning system can be easily scaled up or down to accommodate different streets, highways, areas, and needs.
Low maintenance: Solar panels require minimal maintenance, with periodic cleaning being the primary requirement. This reduces maintenance costs and ensures reliable operation over an extended period.