Arduino Sensors: A Comprehensive Guide to Sensing the World

Arduino Sensors: A Comprehensive Guide to Sensing the World

Author: Charles Nehme

Publisher: Charles Nehme

Published:

Total Pages: 73

ISBN-13:

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Exploring the World of Arduino Sensors In today's era of rapid technological advancement, the ability to sense and interact with the physical world has become a cornerstone of innovation. This capability allows us to gather data, automate tasks, create responsive systems, and bring our ideas to life in exciting ways. At the heart of this capability lies an incredible ecosystem of sensors, and at the forefront of accessible and versatile sensor platforms stands the Arduino. Arduino, the open-source electronics platform, has revolutionized the way we approach electronics projects. Its user-friendly interface, extensive community support, and a rich library of sensors and modules have democratized electronics, making it accessible to hobbyists, students, and professionals alike. In this document (or project), we delve into the fascinating realm of Arduino sensors. These remarkable devices come in a myriad of forms, each designed to detect and measure specific physical phenomena. From monitoring environmental parameters such as temperature and humidity to tracking motion, light, sound, and even the Earth's position in space, Arduino sensors empower us to create solutions to an array of challenges. Our journey through Arduino sensors will introduce us to an eclectic mix of devices, each with its unique abilities and applications. We will explore how these sensors work, how to connect them to Arduino boards, and how to write code that harnesses their data. Whether you're a seasoned maker looking to expand your toolkit or a newcomer eager to embark on your first sensor-driven project, this exploration promises to be an enlightening adventure. Together, we will unlock the potential of Arduino sensors, pushing the boundaries of what we can sense and achieve. Whether it's building a weather station, designing a home automation system, or crafting an interactive artwork, Arduino sensors are the tools that will help us transform imagination into reality. So, let's embark on this journey into the world of Arduino sensors, where innovation knows no bounds, and where the fusion of electronics and creativity opens doors to endless possibilities.


Getting Started with Sensors

Getting Started with Sensors

Author: Kimmo Karvinen

Publisher: Maker Media, Inc.

Published: 2014-08-14

Total Pages: 129

ISBN-13: 1449367046

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To build electronic projects that can sense the physical world, you need to build circuits based around sensors: electronic components that react to physical phenomena by sending an electrical signal. Even with only basic electronic components, you can build useful and educational sensor projects. But if you incorporate Arduino or Raspberry Pi into your project, you can build much more sophisticated projects that can react in interesting ways and even connect to the Internet. This book starts by teaching you the basic electronic circuits to read and react to a sensor. It then goes on to show how to use Arduino to develop sensor systems, and wraps up by teaching you how to build sensor projects with the Linux-powered Raspberry Pi.


Beginning Sensor Networks with XBee, Raspberry Pi, and Arduino

Beginning Sensor Networks with XBee, Raspberry Pi, and Arduino

Author: Charles Bell

Publisher: Apress

Published: 2020-06-25

Total Pages: 732

ISBN-13: 1484257960

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Build sensor networks with Python and MicroPython using XBee radio modules, Raspberry Pi, and Arduino boards. This revised and updated edition will put all of these together to form a sensor network, and show you how to turn your Raspberry Pi into a MySQL database server to store your sensor data! You'll review the different types of sensors and sensor networks, along with new technology, including how to build a simple XBee network. You'll then walk through building an sensor nodes on the XBee, Raspberry Pi, and Arduino, and also learn how to collect data from multiple sensor nodes. The book also explores different ways to store sensor data, including writing to an SD card, sending data to the cloud, and setting up a Raspberry Pi MySQL server to host your data. You'll even learn how to connect to and interact with a MySQL database server directly from an Arduino! Finally you'll see how to put it all together by connecting your sensor nodes to your new Raspberry Pi database server. If you want to see how well XBee, Raspberry Pi, and Arduino can get along, especially to create a sensor network, then Beginning Sensor Networks with XBee, Raspberry Pi, and Arduino is just the book you need. What You'll LearnCode your sensor nodes with Python and MicroPython Work with new XBee 3 modulesHost your data on Raspberry PiGet started with MySQLCreate sophisticated sensor networks Who This Book Is For Those interested in building or experimenting with sensor networks and IoT solutions, including those with little or no programming experience. A secondary target includes readers interested in using XBee modules with Raspberry Pi and Arduino, those interested in controlling XBee modules with MicroPython.


A Hands-On Course in Sensors Using the Arduino and Raspberry Pi

A Hands-On Course in Sensors Using the Arduino and Raspberry Pi

Author: Volker Ziemann

Publisher: CRC Press

Published: 2018-02-19

Total Pages: 259

ISBN-13: 1351188305

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A Hands-On Course in Sensors using the Arduino and Raspberry Pi is the first book to give a practical and wide-ranging account of how to interface sensors and actuators with micro-controllers, Raspberry Pi and other control systems. The author describes the progression of raw signals through conditioning stages, digitization, data storage and presentation. The collection, processing, and understanding of sensor data plays a central role in industrial and scientific activities. This book builds simplified models of large industrial or scientific installations that contain hardware and other building blocks, including services for databases, web servers, control systems, and messaging brokers. A range of case studies are included within the book, including a weather station, geophones, a water-colour monitor, capacitance measurement, the profile of laser beam, and a remote-controlled and fire-seeking robot This book is suitable for advanced undergraduate and graduate students taking hands-on laboratory courses in physics and engineering. Hobbyists in robotics clubs and other enthusiasts will also find this book of interest. Features: Includes practical, hands-on exercises that can be conducted in student labs, or even at home Covers the latest software and hardware, and all code featured in examples is discussed in detail All steps are illustrated with practical examples and case studies to enhance learning


Arduino Programming

Arduino Programming

Author: Ryan Turner

Publisher: Publishing Factory

Published: 2020-04-18

Total Pages: 266

ISBN-13:

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Are you ready to take your programming to the next level? If you are unfamiliar with programming and are looking for an open-source electronic interface, then Arduino could be just the place to start! With a range of Arduinos to choose from, and an increasing variety of projects online or in-person that are built on Arduino technologies, the flexibility they offer and the ease of building gadgets with Arduino has attracted many people who are both novices and seasoned professionals. Now, with this new and informative guide, Arduino Programming: 3 books in 1 - The Ultimate Beginners, Intermediate & Expert Guide to Learn Arduino Programming Step by Step, you can learn all you need to get you started with this impressive resource, with chapters that delve into: Book 1 - The history of Arduino - 6 advantages of Arduino - Anatomy and other terms of Arduino - Understanding the choices that are on offer - Setting up Arduino - Data types - Inputs, outputs and sensors Book 2 - Getting the most from Arduino - Functions, calculations and tables - Linking the physical to the virtual - Coupling and multiplexing - How to digitalize sound - Advanced techniques - Networking Book 3 - Understanding the basic principles behind Arduino - How you can develop your skills quickly and efficiently - Step-by-step programming advice - Using Arduino to enhance your projects - Where Arduino fits in to the Internet of Things - And, much more. With its combination of theory and practical advice, Arduino Programming - 3 books in 1 is the stand-out book when it comes to building on your basic understanding of this fantastic programming resource. Don't wait any longer and get your copy today. Arduino is the answer you've been looking for and Arduino Programming - 3 books in 1 is the book that will provide the platform for your success!


Arduino: A Quick-Start Guide

Arduino: A Quick-Start Guide

Author: Maik Schmidt

Publisher: Pragmatic Bookshelf

Published: 2015-01-20

Total Pages: 470

ISBN-13: 168050522X

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Arduino is an open-source platform that makes DIY electronics projects easier than ever. Gone are the days when you had to learn electronics theory and arcane programming languages before you could even get an LED to blink. Now, with this new edition of the bestsellingArduino: A Quick-Start Guide, readers with no electronics experience can create their first gadgets quickly. This book is up-to-date for the new Arduino Zero board, with step-by-step instructions for building a universal remote, a motion-sensing game controller, and many other fun, useful projects. This Quick-Start Guide is packed with fun, useful devices to create, with step-by-step instructions and photos throughout. You'll learn how to connect your Arduino to the Internet and program both client and server applications. You'll build projects such as your own motion-sensing game controller with a three-axis accelerometer, create a universal remote with an Arduino and a few cheap parts, build your own burglar alarm that emails you whenever someone's moving in your living room, build binary dice, and learn how to solder. In one of several new projects in this edition, you'll create your own video game console that you can connect to your TV set. This book is completely updated for the new Arduino Zero board and the latest advances in supporting software and tools for the Arduino. Sidebars throughout the book point you to exciting real-world projects using the Arduino, exercises extend your skills, and "What If It Doesn't Work" sections help you troubleshoot common problems. With this book, beginners can quickly join the worldwide community of hobbyists and professionals who use the Arduino to prototype and develop fun, useful inventions. What You Need: This is the full list of all parts you'd need for all projects in the book; some of these are provided as part of various kits that are available on the web, or you can purchase individually. Sources include adafruit.com, makershed.com, radioshack.com, sparkfun.com, and mouser.com. Please note we do not support or endorse any of these vendors, but we list them here as aconvenience for you. Arduino Zero (or Uno or Duemilanove or Diecimila) board USB cable Half-size breadboard Pack of LEDs (at least 3, 10 or more is a good idea) Pack of 100 ohm, 10k ohm, and 1k ohm resistors Four pushbuttons Breadboard jumper wire / connector wire Parallax Ping))) sensor Passive Infrared sensor An infrared LED A 5V servo motor Analog Devices TMP36 temperature sensor ADXL335 accelerometer breakout board 6 pin 0.1" standard header (might be included with the ADXL335) Nintendo Nunchuk Controller Arduino Ethernet shield Arduino Proto shield and a tiny breadboard (optional but recommended) Piezo speaker/buzzer (optional) Tilt sensor (optional) A 25-30 Watts soldering iron with a tip (preferrably 1/16") A soldering stand and a sponge A standard 60/40 solder (rosin-core) spool for electronics work


Environmental Monitoring with Arduino

Environmental Monitoring with Arduino

Author: Emily Gertz

Publisher: Maker Media, Inc.

Published: 2012-01-26

Total Pages: 105

ISBN-13: 144932861X

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After the devastating tsunami in 2011, DYIers in Japan built their own devices to detect radiation levels, then posted their finding on the Internet. Right now, thousands of people worldwide are tracking environmental conditions with monitoring devices they’ve built themselves. You can do it too! This inspiring guide shows you how to use Arduino to create gadgets for measuring noise, weather, electromagnetic interference (EMI), water purity, and more. You’ll also learn how to collect and share your own data, and you can experiment by creating your own variations of the gadgets covered in the book. If you’re new to DIY electronics, the first chapter offers a primer on electronic circuits and Arduino programming. Use a special microphone and amplifier to build a reliable noise monitor Create a gadget to detect energy vampires: devices that use electricity when they’re “off” Examine water purity with a water conductivity device Measure weather basics such as temperature, humidity, and dew point Build your own Geiger counter to gauge background radiation Extend Arduino with an Ethernet shield—and put your data on the Internet Share your weather and radiation data online through Pachube


TinyML

TinyML

Author: Pete Warden

Publisher: O'Reilly Media

Published: 2019-12-16

Total Pages: 504

ISBN-13: 1492052019

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Deep learning networks are getting smaller. Much smaller. The Google Assistant team can detect words with a model just 14 kilobytes in size—small enough to run on a microcontroller. With this practical book you’ll enter the field of TinyML, where deep learning and embedded systems combine to make astounding things possible with tiny devices. Pete Warden and Daniel Situnayake explain how you can train models small enough to fit into any environment. Ideal for software and hardware developers who want to build embedded systems using machine learning, this guide walks you through creating a series of TinyML projects, step-by-step. No machine learning or microcontroller experience is necessary. Build a speech recognizer, a camera that detects people, and a magic wand that responds to gestures Work with Arduino and ultra-low-power microcontrollers Learn the essentials of ML and how to train your own models Train models to understand audio, image, and accelerometer data Explore TensorFlow Lite for Microcontrollers, Google’s toolkit for TinyML Debug applications and provide safeguards for privacy and security Optimize latency, energy usage, and model and binary size


Arduino Project Handbook

Arduino Project Handbook

Author: Mark Geddes

Publisher: No Starch Press

Published: 2016-06-01

Total Pages: 273

ISBN-13: 1593276907

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Arduino Project Handbook is a beginner-friendly collection of electronics projects using the low-cost Arduino board. With just a handful of components, an Arduino, and a computer, you’ll learn to build and program everything from light shows to arcade games to an ultrasonic security system. First you’ll get set up with an introduction to the Arduino and valuable advice on tools and components. Then you can work through the book in order or just jump to projects that catch your eye. Each project includes simple instructions, colorful photos and circuit diagrams, and all necessary code. Arduino Project Handbook is a fast and fun way to get started with micro­controllers that’s perfect for beginners, hobbyists, parents, and educators. Uses the Arduino Uno board.


Make: Sensors

Make: Sensors

Author: Tero Karvinen

Publisher: Maker Media, Inc.

Published: 2014-05-06

Total Pages: 538

ISBN-13: 1449368069

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Make: Sensors is the definitive introduction and guide to the sometimes-tricky world of using sensors to monitor the physical world. With dozens of projects and experiments for you to build, this book shows you how to build sensor projects with both Arduino and Raspberry Pi. Use Arduino when you need a low-power, low-complexity brain for your sensor, and choose Raspberry Pi when you need to perform additional processing using the Linux operating system running on that device.You'll learn about touch sensors, light sensors, accelerometers, gyroscopes, magnetic sensors, as well as temperature, humidity, and gas sensors.