Arduino Projects for Beginners
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FRESH CONCEPTS ON ARDUINO PROJECTS FOR BEGINNERS KEY NOTES ON ENERGY ENVIRONMENT IN ARDUINO PROJECTS MAJOR POINTS ON DATA ANALYSIS AND PROCESSING IN ARDUINO
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This document lists various Arduino project ideas in three sections. The first section discusses loyal Arduino project ideas like using servo motors, RF modules, infrared, microphones, pressure sensors, and CAN protocols with Arduino. The second section explores trendy ideas like laser applications, waterfalls, light calibration, motor shields, GSM technology, and chat servers built with Arduino. The final section highlights latest research concepts involving mobile robots, IoT, speech control, wireless animatronics, and energy management using Arduino.
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2. An iBeacon system was developed using an Arduino microcontroller, iBeacon module, and buzzer. The iBeacon device is paired with a smartphone app via Bluetooth. When employees conduct unauthorized activities, the buzzer is triggered to alert administrators.
3. The system was able to track marketing representatives' locations and log entry/exit times more accurately than other methods. IBeacon technology allows businesses to send targeted messages to customers based on their proximity.
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Arduino overview - introducing
This document provides an overview of Arduino by introducing its purpose as an open-source electronics platform, describing common Arduino boards and shields, explaining the architecture of the Arduino Uno board, demonstrating the Arduino IDE interface, and providing a basic "Blink" coding example to get started. The document aims to introduce attendees to Arduino's capabilities and get them practicing with a simple LED blinking program.
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Arduino overview - introducing
This document provides an overview of Arduino by introducing its purpose as an open-source electronics platform, describing common Arduino boards and shields, explaining the architecture of the Arduino Uno board, demonstrating the Arduino IDE interface, and providing a basic "Blink" coding example to get started. The document aims to introduce attendees to Arduino's capabilities and get them practicing with a simple LED blinking program.
Arduino: Arduino starter kit
The document provides instructions for connecting an Arduino board to a Windows computer and uploading a simple "Blink" sketch. It outlines downloading the Arduino IDE software, connecting the board via USB, installing the correct USB drivers, opening the Blink example sketch, selecting the board and serial port in the IDE, and uploading the program to make an on-board LED blink.
Arduino Based final Year Projects
This document discusses Arduino-based final year projects and topics. It lists 5 potential Arduino final year project titles including a health monitoring system using wearable sensors, an autopilot design using hardware-in-the-loop simulation, a fuel monitoring and bus tracking system, an omni-directional mobile robot using Mecanum wheels, and a real-time solar panel measurement system using a wireless sensor network. It also outlines 5 major sensor networks when using Arduino including connected vehicles, node mobility, cross-layer design, power management, and 3D visualization. Finally, it lists 5 central applications of Arduino projects involving cloud computing, home monitoring, ambient assisted living, multi-agent systems, and simulation modeling.
IoT Based Home Appliances Control
This document describes an Internet of Things (IoT) based home automation system that allows control of home appliances using a smartphone over Wi-Fi. The system uses an Arduino board connected to appliances like lights and fans using relays. A Wi-Fi module enables communication between the Arduino and a smartphone app over the internet. Users can control appliances remotely using the app even when away from home. The system provides a low-cost and secure way to automate home devices without needing wired connections.
Introduction of Arduino Uno
Arduino is an open-source electronics platform based on easy-to-use hardware and software. Arduino boards are able to read inputs - light on a sensor, a finger on a button, or a Twitter message - and turn it into an output - activating a motor, turning on an LED, publishing something online.
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Home automation, also known as smart home technology, allows users to control and automate various systems in their home such as lighting, climate control, entertainment, and appliances. A home automation system connects controlled devices to a central hub that can be controlled through wall mounts, mobile apps, tablets or the web. Setting up a basic smart home requires components like Arduino, NodeMCU, breadboards, wires and a smart assistant for voice control. However, a lack of technical standards and fragmentation between platforms can make developing consistent applications difficult. Security is also a concern as older and cheaper devices may not receive important software patches.
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The document discusses Arduino, an open-source prototyping platform introduced in 2005 to provide students with an inexpensive yet programmable microcontroller for connecting sensors and actuators in electromechanical devices. Arduino boards like the Uno, Mega, and LilyPad allow users to control outputs like LEDs or motors through inputs like sensors for GPS, WiFi, accelerometers through an intuitive programming environment. Examples of Arduino projects include smart home controllers, spy drones, robots, and automated systems like fish feeders or fan speed controls.
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The document provides instructions for connecting an Arduino board to a Windows computer and uploading a simple "Blink" sketch. It outlines downloading the Arduino IDE software, connecting the board via USB, installing the correct USB drivers, opening the Blink example sketch, selecting the board and serial port in the IDE, and uploading the program to make an on-board LED blink.
Arduino Based final Year Projects
This document discusses Arduino-based final year projects and topics. It lists 5 potential Arduino final year project titles including a health monitoring system using wearable sensors, an autopilot design using hardware-in-the-loop simulation, a fuel monitoring and bus tracking system, an omni-directional mobile robot using Mecanum wheels, and a real-time solar panel measurement system using a wireless sensor network. It also outlines 5 major sensor networks when using Arduino including connected vehicles, node mobility, cross-layer design, power management, and 3D visualization. Finally, it lists 5 central applications of Arduino projects involving cloud computing, home monitoring, ambient assisted living, multi-agent systems, and simulation modeling.
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This document describes an Internet of Things (IoT) based home automation system that allows control of home appliances using a smartphone over Wi-Fi. The system uses an Arduino board connected to appliances like lights and fans using relays. A Wi-Fi module enables communication between the Arduino and a smartphone app over the internet. Users can control appliances remotely using the app even when away from home. The system provides a low-cost and secure way to automate home devices without needing wired connections.
Introduction of Arduino Uno
Arduino is an open-source electronics platform based on easy-to-use hardware and software. Arduino boards are able to read inputs - light on a sensor, a finger on a button, or a Twitter message - and turn it into an output - activating a motor, turning on an LED, publishing something online.
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This document describes a wireless sensor network called CROP that was developed to monitor temperature and soil moisture levels in a precision agriculture application. The network uses Waspmote and Arduino devices equipped with temperature, humidity and light sensors to collect environmental data hourly. The data is transmitted via XBEE radios and stored in an Oracle database. The system was tested over time to evaluate sensor calibration and network performance, with results showing it can monitor fields remotely but requires further work to be fully reliable.
CONTROLLING HOME APPLIANCES WITH IOT,BLYNK APP & NODE MCU
This document discusses controlling home appliances with IoT, Blynk app, and Node MCU. It outlines the components required, including relays, Node MCU ESP8266, batteries, and LED bulbs. The software requirements of Blynk app and Arduino IDE are explained. Circuit diagrams and code are provided. How IoT works for home automation is described, along with advantages like remote control and energy efficiency. Applications include lighting control, home monitoring, and smart appliances. The conclusion is that home automation using IoT was experimentally proven to successfully control appliances remotely over the internet.
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This document presents a project to create a smart home automation application for Android. The application will allow users to control electrical devices in their home remotely from their mobile device. The project will build an Android app and interface with an Arduino board to automate home devices. An online survey will evaluate the acceptance of such an application among homeowners, hotels, and companies. The outcome will be a home automation app that serves to control appliances for any home remotely through a mobile interface.
Internet of things
Düzce ve Kocaeli üniversitelerinde Women TechMakers etkinliğinde Nesnelerin interneti adlı sunumumu gerçekleştirdim.
Home automation
This document presents a home automation project that aims to develop a home automation system controlled by an Android application. The project was completed by Ayan Mondal for their diploma in ECE. The objectives are to create a centralized wireless control system for a smart home. A feasibility study found the technical risks to be moderate and related to security and software. The total estimated cost is Rs. 1,207. The system will use an Android app, BLYNK, and IFTTT for remote control of lights, appliances, and security through a Node MCU and relays. Future applications could include refrigerator communication and home robotics.
Home Automation
Home automation, also known as smart home technology, allows users to control and automate various systems in their home such as lighting, climate control, entertainment, and appliances. A home automation system connects controlled devices to a central hub that can be controlled through wall mounts, mobile apps, tablets or the web. Setting up a basic smart home requires components like Arduino, NodeMCU, breadboards, wires and a smart assistant for voice control. However, a lack of technical standards and fragmentation between platforms can make developing consistent applications difficult. Security is also a concern as older and cheaper devices may not receive important software patches.
IoTino - Arduino for Internet of Things
The IoTino is an Arduino-compatible platform designed for Internet of Things applications. It features integrated Bluetooth Low Energy communication and digital/analog I/O in a small, low-cost, and low-power form factor. The IoTino allows for quick prototyping and product deployment of IoT solutions. It is based on the widely used Arduino architecture to take advantage of the large community of Arduino developers. The IoTino system includes main boards, shields, and software APIs to enable a range of IoT applications.
Automation
In this presentation, Saicharan introduces automation and associated trends. His interest area is in home automation systems.
Smart home with home automation
You can understand about-
What is it?
How it works?
The benefits of Home automation.
Home automation Devices.
Its architecture.
Home automation Software and its working procedure.
Shya_Documentation
This document describes a student project on home automation. It presents a prototype that allows controlling home devices like lights and doors using an Android phone, laptop, or web application. The project was completed by 4 students for their Bachelor's degree. It implemented basic home automation functions like turning lights on/off and opening/closing an automated door. Control was achieved through Bluetooth on Android, serial communication on laptop, and Ethernet on the web app.
Home automation benefits
Are you planning to automate your home? Did you know the benefits of home automation and lighting automation? The GadgEon Lifestyle offers best lighting and home automation services for the past few years. Follow the link for more details: http://gadgeonlifestyle.com/
DIY! Introduction to Arduino (Development Board)
The document discusses Arduino, an open-source prototyping platform introduced in 2005 to provide students with an inexpensive yet programmable microcontroller for connecting sensors and actuators in electromechanical devices. Arduino boards like the Uno, Mega, and LilyPad allow users to control outputs like LEDs or motors through inputs like sensors for GPS, WiFi, accelerometers through an intuitive programming environment. Examples of Arduino projects include smart home controllers, spy drones, robots, and automated systems like fish feeders or fan speed controls.
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This document describes an Android-based home automation system that allows users to control home appliances remotely using their Android smartphones. The system uses an Arduino board, WiFi module, relays, and other hardware components installed next to electrical switches to control appliances. An Android app is also described that communicates with the hardware over WiFi to turn appliances on and off from a smartphone. The system aims to make home automation more affordable and convenient, especially for handicapped individuals. It allows entire homes to be controlled centrally from a mobile device.
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Automatic Plant Watering System using Arduino UNO for University Park
Watering is the most important cultural practice and most labor intensive task in daily greenhouse operation. Watering systems ease the burden of getting water to plants when they need it. Knowing when and how much to water is two important aspects of watering process. To make the gardener works easily, the automatic plant watering system is created. There have a various type using automatic watering system that are by using sprinkler system, tube, nozzles and other. This system uses Arduino UNO board, which consists of ATmega328 microcontroller. It is programmed in such a way that it will sense the moisture level of the plants and supply the water if required. This type of system is often used for general plant care, as part of caring for small and large gardens. Normally, the plants need to be watered twice daily, morning and evening. So, the microcontroller has to be coded to water the plants in the greenhouse about two times per day. However for most people it becomes challenging to keep them healthy and alive. This system automation is designed to be assistive for the University Park. This system hopes that through this prototype people will enjoy having plants without the challenges related to absent or forgetfulness. Yin Yin Nu | San San Lwin | Win Win Maw ""Automatic Plant Watering System using Arduino UNO for University Park"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-4 , June 2019, URL: https://www.ijtsrd.com/papers/ijtsrd23714.pdf
Paper URL: https://www.ijtsrd.com/engineering/information-technology/23714/automatic-plant-watering-system-using-arduino-uno-for-university-park/yin-yin-nu
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Implementation of Internet of Things for Water Quality Monitoring
To make sure the safe supply of the drinking water the quality of the water needs to be monitored. As the monitoring of the water parameter is a complex process as it has been going through several laboratory testing processes and though it is time consuming. The system for monitoring the water quality in the Internet of Things IoT consists of a number of sensors which are used for measuring the parameters of the water these parameters are temperature, pH, turbidity, and CO2 of the water. The measured values of the parameter from the sensors can be processed by Arduino pro mini microcontroller which can be used as a core controller. System focus on continuous monitoring of water in the IOT platform. Internet of things is the network of physical objects embedded with electronics, sensors, software, and network connectivity. Monitoring water parameter can be done from anywhere as a central office using thinger.io which is an open source IoT platform as free server data can be continuously pushed on the cloud so we can see data in real time operation. Sensors are connected with the Arduino pro mini and this can send the parameter value to the Wi Fi module ESP8266 which require internet for sending this parameter values to thinger.io from the thinger.io anyone can see the real time values of the water parameter and these values are also shown on the LCD16×2 screen which is connected to the microcontroller. Priya S. Bhagat | Dr. Vijay S. Gulhane | Prof. Tanuj S. Rohankar ""Implementation of Internet of Things for Water Quality Monitoring"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-4 , June 2019, URL: https://www.ijtsrd.com/papers/ijtsrd23655.pdf
Paper URL: https://www.ijtsrd.com/engineering/information-technology/23655/implementation-of-internet-of-things-for-water-quality-monitoring/priya-s-bhagat
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Digital Tachometer using Aurdino
A Digital RPM Meter is a measuring instrument which can measure the rotational speed of a rotary machine digitally. In industries we can use this type of digital tachometers which will reduce human effect. The industrial name of this instrument is “Tachometerâ€. It is an important measuring device in the field of electrical engineering and widely used in industries and laboratorial work. Here we are going to design an Aurdino based digital tachometer using IR sensor module to detect object for count rotation of any rotating body and the programming is given by the FTDI programmer. As IR transmits IR rays which reflect back to IR receiver and then IR Module generates an output or pulse which is detected by the aurdino controller when we press start button. It counts continuously for 5 seconds. After 5 seconds aurdino calculate RPM for a minute using given formula. Here we demonstrate this project using ceiling fan. A. Sriharsha Kumar | Ch. Venkatesh | K. V. Durga Prasad | S. Balaji ""Digital Tachometer using Aurdino"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-3 , April 2019, URL: https://www.ijtsrd.com/papers/ijtsrd23223.pdf
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