1. Intelligent sensing technology: The intelligent sensing technology of pedestrian lighting systems can sense the surrounding environment through infrared sensors, cameras, radars and other devices. For example, when the sensor detects the approach of a pedestrian, the system can automatically adjust the brightness of the street light to ensure that pedestrians have sufficient lighting when walking at night. This intelligent sensing technology helps improve pedestrian safety and walking comfort.
2. Adaptive lighting control: The integration of smart city technologies enables pedestrian lighting systems to achieve adaptive lighting control. By collecting environmental data such as weather conditions, ambient light levels and pedestrian density, the system can intelligently adjust lighting parameters. For example, on rainy days or at night, the system can increase the brightness of street lights to ensure pedestrians can see their surroundings more clearly.
3. Remote monitoring and management: The application of smart city technology enables remote monitoring and management of pedestrian lighting systems. City managers can monitor the status of lighting facilities in real time via the Internet, including brightness levels, equipment failures, etc. This remote management capability improves the city’s overall controllability over the lighting system while also reducing maintenance costs.
4. Energy saving and environmental protection: Pedestrian lighting systems integrated with smart city technology can use energy more efficiently. By adjusting lighting intensity according to demand, the system can reduce unnecessary energy waste. In addition, smart systems can integrate renewable energy sources, such as solar or wind power, for greener, more sustainable lighting. Such systems not only reduce the city's energy consumption but also help mitigate negative impacts on the environment.
5. Data analysis and optimization: The integration of smart city technologies allows for the collection and analysis of data from pedestrian lighting systems. For example, by analyzing pedestrian flow patterns and walking frequency, urban planners can better understand peak periods of crowd activity and thereby optimize the layout and brightness distribution of street lights. This helps improve energy efficiency and reduce energy waste.
6. Emergency response: The integration of smart city technology and pedestrian lighting systems provides cities with more timely emergency response. When an emergency occurs, such as a fire or natural disaster, pedestrian lighting systems can be integrated with the city's emergency notification system to guide people to safely evacuate by changing lighting patterns or colors. Such a response system can provide effective guidance and protection at critical moments.
RESIDENTIAL LIGHTING-T-219
RESIDENTIAL LIGHTING-T-219
Die-casting aluminium boby, super white tempered glass.
Optics with PC lens with high visual comfortable and uniform lighting distribution, multiple light distribution options.
High quality LED chips, Driver with 0-10V/DALI/programmed be options, and with surge protection up to 20KV.
Tool-free replaceable with push-botton for opened device, The body can be detached and replaced easily.
There are three installation modes, installation tube diameter Ø60/Ø76mm.
Surface anti-ultravilet pure polyester powder painting, Corrosion resistance can be more than 1000 hours.
No photo-biological risk, (no risk linked to infrared, blue light and UV radiation) in accordance with EN 62471:2008.
Street lighting control used with smart control technology. It can be compatible with remote management system.
All external screws are made of 304 stainless steel.