Figure 14 from Design of Smart Building System and Monitoring Using IoT Circuit Diagram

Figure 14 from Design of Smart Building System and Monitoring Using IoT Circuit Diagram F IGURE 3: Process fl ow diagram of the proposed IoT-enabled smart pedestrian crossing system in smart cities. Step 1. Initialize the IoT device to detect the gesture. IoT-enabled smart pedestrian crossing can be elaborated more accurately with the help of Figure 1. The proposed novel architecture for IoT-enabled smart pedestrian crossing is a system comprising of a set of refined modules, such as gesture module, HD camera module etc. the detailed Clock module Node MCU 1.0 Gesture module Red, yellow, green

IoT-Based Intelligent Traffic Management System using ESP32-CAM and ultrasonic sensors. Monitors and controls real-time traffic by dynamically adjusting traffic light timings. Includes a central server for data processing and a web interface for real-time traffic updates, enhancing flow and safety.

Smart pedestrian crossings to enhance road safety Circuit Diagram

The document describes a proposed smart crosswalk system that uses machine learning and image processing to monitor pedestrians and vehicles. It has four main components: 1) a real-time pedestrian detection and priority system customized for individuals with special needs, 2) a system to detect road conditions, vehicle availability and speed, 3) a real-time emergency vehicle detection and AI-based Traffic Management System that utilizes IoT and AI technologies to enhance traffic signal optimization, prioritize pedestrian safety, and reduce accidents at crossings. This system aims to improve overall traffic efficiency, promote sustainability, and facilitate emergency service response times. - aaronseq12/AITrafficManagementSystem

The government has to work on different aspects of smart city solutions such as smart health care, smart building management, smart traffic management, smart parking solutions, smart transportation, etc. to generate public value for the service they provided. The emergence of the internet of things (IoT) has evolved the concept of smart cities. Walking is a daily activity that requires an appropriate crosswalk as a key part of the provision of safe transportation infrastructure. In this paper, we design and develop a portable smart wireless control system for pedestrian crossing areas to manage the traffic automatically and allow the pedestrian, like school children, to cross the road safely and effortlessly. The system was also designed to upload traffic and pedestrian data to the Sensol cloud and enable smart cities to improve knowledge of traffic patterns and identify safety risks. In 2021, Sensol Systems completed an early-stage Jones + Foster Accelerator program.