This document outlines how to create a temperature and humidity monitoring system using an ESP8266, DHT11 sensor, and Arduino Cloud Monitoring. The system measures environmental data and sends it to the Arduino IoT Cloud, allowing real-time monitoring from a web dashboard or mobile app. Components Required ESP8266 (e.g., NodeMCU or Wemos D1 Mini) DHT11 Temperature… Continue reading Temperature and Humidity Monitoring System using ESP8266 and DHT11 with Arduino Cloud Monitoring
Category: Robotics
Arduino Cloud Monitoring
Arduino Cloud Monitoring is a platform that allows users to collect, process, and visualize data from Arduino-compatible devices in real time. It is part of the Arduino IoT Cloud, providing an intuitive interface for creating connected applications. This service enables developers to monitor and control devices remotely, making it ideal for IoT applications such as… Continue reading Arduino Cloud Monitoring
Firebase
Firebase is a comprehensive platform developed by Google for building, deploying, and managing mobile and web applications. It provides a suite of tools and services to simplify app development, improve performance, and enhance user engagement. Key Features of Firebase 1. Realtime Database: A cloud-hosted NoSQL database. Stores and syncs data in real time across clients.… Continue reading Firebase
Integrating ESP32 with DHT11 for Firebase Integration
In modern IoT applications, monitoring environmental parameters like temperature and humidity is crucial for smart systems. The ESP32, a powerful microcontroller with built-in Wi-Fi capabilities, paired with the DHT11 sensor, enables efficient data collection. By integrating this setup with Firebase, a real-time database platform, data can be sent to the cloud for storage and visualization… Continue reading Integrating ESP32 with DHT11 for Firebase Integration
Edge TPU (Tensor Processing Unit)
The Edge TPU is a small and efficient hardware accelerator designed by Google to enable high-performance machine learning (ML) inferencing on edge devices. It supports TensorFlow Lite models that have been optimized for the Edge TPU, allowing low-latency and power-efficient ML tasks directly on edge devices without relying on cloud processing. Key Features of Edge… Continue reading Edge TPU (Tensor Processing Unit)
Material selection in manufacturing
Material selection in manufacturing is a critical process that ensures the final product meets the desired performance, cost, and manufacturability requirements. The process involves analyzing various factors to identify the most suitable material for a specific application or product. Key Factors in Material Selection Mechanical Properties Strength: The material’s ability to withstand forces without deformation… Continue reading Material selection in manufacturing
Coral dev Board
The Coral Dev Board is a development platform designed by Google to facilitate on-device machine learning (ML) and AI applications. It features the Edge TPU, a specialized chip optimized for running TensorFlow Lite ML models at high speed and low power. This makes it ideal for applications requiring fast inference at the edge, such as… Continue reading Coral dev Board
Sheet Metal Design in Fusion 360
Sheet Metal Design in Fusion 360 is a powerful feature that allows you to design sheet metal parts with specific tools and workflows optimized for manufacturing processes like bending, cutting, and punching. Here’s an overview of how to use this feature effectively: Steps for Designing Sheet Metal Parts in Fusion 360 1. Set Up Your… Continue reading Sheet Metal Design in Fusion 360
Google Coral
Google Coral is a suite of hardware and software tools designed for edge AI applications, allowing developers to run machine learning (ML) models directly on devices rather than relying on cloud computing. The Coral ecosystem is particularly suitable for applications requiring low latency, real-time inference, and energy efficiency. Key Components of Google Coral: Edge TPU… Continue reading Google Coral
Die Design
Designing a die for manufacturing involves creating a precise and efficient tool that shapes or cuts materials during manufacturing processes like stamping, forging, or extrusion. Below is an elaborated approach to die design, emphasizing functionality, manufacturability, and longevity: Steps for Die Design Understand Product Requirements Analyze the product’s shape, material, tolerances, and surface finish requirements.… Continue reading Die Design