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▶ Product Introduction
Smart street lamps are a typical application of Internet of Things technology in the municipal sector. They adopt a modular design, resembling a "city nerve ending", and can flexibly load various sensors. The core lies in using communication modules (such as 4G/5G) to upload the data collected by the front-end devices (monitoring, environmental monitoring, emergency buttons) to the cloud platform, achieving data interconnection and intelligent analysis, and providing real-time and accurate data support for the city's refined management.
▶Product Advantage
1. Edge Computing Capability of AI Chips
Incorporate high-performance AI chips to endow street lights with powerful edge computing capabilities. Real-time face recognition, vehicle violation detection, crowd density analysis, etc. can be conducted at the pole end. Only the alarm results are uploaded to the platform. Compared with pure cloud-based analysis, the response speed is increased to the millisecond level, and the network bandwidth occupancy is reduced by 90%.
2. Precise Deployment of 5G Micro-Bases
The pole body has undergone structural optimization and simulation testing, making it an ideal carrier for 5G micro-bases. We have collaborated with mainstream operators to provide standard power supply, communication interfaces, and machine room space, addressing the pain points of dense 5G network deployment and difficult site selection, and accelerating the process of 5G signal coverage.
3. Integrated Design of Smart Street Lights
Adopt an "All in One" integrated design, integrating lighting, security, information release, environmental monitoring, and wireless network functions. Through professional structural design and heat dissipation design, ensure electromagnetic compatibility and stable operation among all systems, with an overall failure rate lower than 0.5%, far exceeding industry standards.
4. Integration of New Energy Technologies
Optional high-efficiency monocrystalline silicon solar panels can be selected to achieve photovoltaic complementarity. In areas with abundant sunlight, daytime energy storage can meet all or most of the lighting electricity needs during the night, enabling off-grid operation, with an energy-saving rate of up to 100%. It is particularly suitable for suburban and park areas where the power grid is not covered.
▶Product Uses
1. Campus and parks: Automatically adjust lighting according to the teaching schedule. Lights are on during class hours and dimmed after class to save energy. Equipped with security cameras to monitor campus safety. Information screens display class schedules and notifications, assisting teachers and students in their daily activities and creating a safe and convenient environment.
2. Smart towns: Integrate intelligent lighting and environmental monitoring to transmit real-time temperature, humidity, and air quality data; install charging stations for residents; broadcast systems to push policies and events, enhancing the convenience and intelligence of town life.
3. Hospitals: 24-hour intelligent dimming to ensure safe nighttime travel for patients and medical staff; cameras monitor traffic flow to guide traffic; information screens display visiting guidance to provide personalized services for patients and medical staff.
4. Logistics parks: Adjust lighting according to the peak hours of truck arrivals and departures to save energy; high-definition cameras monitor cargo loading and unloading to prevent theft; link with the park system to push vehicle scheduling information to improve logistics efficiency.
5. Cultural and tourism districts: Adjust lighting according to the style of the district to create an attractive atmosphere for tourists; environmental sensors monitor the flow of people and issue warnings for overcrowding; information screens display information about attractions and performance times to enhance the upgrade of cultural and tourism experiences.
6. Science and technology parks: Support 5G signal coverage to meet the communication needs of enterprises; intelligent lighting is adjusted according to overtime hours and is turned on as needed; cameras monitor park facilities and report for repair and maintenance in a timely manner.
7. Old residential areas: After renovation, achieve intelligent dimming to reduce residents' electricity costs; add emergency call buttons and security monitoring to ensure the safety of the elderly; information screens push community notifications to facilitate residents' lives.
▶Product Operate Guide
Installation method of smart street lamps: Old lamp pole modification type: Remove the existing old street lamps, retain the usable foundation. Replace with a suitable smart lamp pole, connect to the original pipelines, install sensors, LED screens and other components. No need to dig the foundation again, saving costs, suitable for renovation of old urban areas.
