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Beginning Arduino Programming

Author: Brian Evans
Publisher: Apress
ISBN: 1430237775
Size: 59.56 MB
Format: PDF, ePub, Docs
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Beginning Arduino Programming allows you to quickly and intuitively develop your programming skills through sketching in code. This clear introduction provides you with an understanding of the basic framework for developing Arduino code, including the structure, syntax, functions, and libraries needed to create future projects. You will also learn how to program your Arduino interface board to sense the physical world, to control light, movement, and sound, and to create objects with interesting behavior. With Beginning Arduino Programming, you'll get the knowledge you need to master the fundamental aspects of writing code on the Arduino platform, even if you have never before written code. It will have you ready to take the next step: to explore new project ideas, new kinds of hardware, contribute back to the open source community, and even take on more programming languages. What you’ll learn Start programming quickly with Arduino sketches. Write code that interacts with devices, such as LEDs, sensors, and motors. Work with loops, functions, randomness, and delays in your Arduino projects. Develop a style of writing code that reflects your individuality. Use many of the Arduino libraries to control even more devices. Read from RFID readers, write data to SD memory cards, and connect to the Internet using Ethernet. Who this book is for This book is for all Arduino board users who want to learn to program the Arduino board, regardless of hardware version or which devices are connected to the board. You do not need to have programmed before, but if you have, then you'll learn how to apply core coding features in the Arduino context. Table of Contents Getting Started Sketching in Code Working With Variables Making Decisions Digital Ins and Outs Analog in, Analog out Functions, Time, and Interrupts Arrays for Arduino Writing New Functions for Arduino Arduino Libraries Arduino Hardware 10 Where to Go from Here? Appendix A: Common Circuits Appendix B: Arduino Math

Beginning Arduino

Author: Michael McRoberts
Publisher: Apress
ISBN: 143025016X
Size: 68.27 MB
Format: PDF
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Presents an introduction to the open-source electronics prototyping platform.

Beginning Sensor Networks With Arduino And Raspberry Pi

Author: Charles Bell
Publisher: Apress
ISBN: 143025825X
Size: 68.41 MB
Format: PDF, ePub, Docs
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Beginning Sensor Networks with Arduino and Raspberry Pi teaches you how to build sensor networks with Arduino, Raspberry Pi, and XBee radio modules, and even shows you how to turn your Raspberry Pi into a MySQL database server to store your sensor data! First you'll learn about the different types of sensors and sensor networks, including how to build a simple XBee network. Then you'll walk through building an Arduino-based temperature sensor and data collector, followed by building a Raspberry Pi-based sensor node. Next you'll learn 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 even learn how to connect to and interact with a MySQL database server directly from an Arduino! Finally you'll learn how to put it all together by connecting your Arduino sensor node to your new Raspberry Pi database server. If you want to see how well Arduino and Raspberry Pi can get along, especially to create a sensor network, then Beginning Sensor Networks with Arduino and Raspberry Pi is just the book you need.

Beginning Android Adk With Arduino

Author: Mario Böhmer
Publisher: Apress
ISBN: 1430241977
Size: 42.51 MB
Format: PDF, Mobi
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Whether you're new to Arduino and Android development, or you've tinkered a bit with either one, this is the book for you. Android has always been a natural fit with Arduino projects, but now that Google has released the Android Open Accessory Development Kit (the Android ADK), combining Android with Arduino to create custom gadgets has become even easier. Beginning Android ADK with Arduino shows how the ADK works and how it can be used with a variety of Arduino boards to create a variety of fun projects that showcase the abilities of the ADK. Mario Böhmer will walk you through several projects, including making sounds, driving motors, and creating alarm systems, all while explaining how to use the ADK and how standard Arduino boards may differ from Google-branded Arduinos. You aren't tied to specific hardware with this book; use what you have, and this book will show you how. What you’ll learn How different boards work with the ADK How to create your first sketch and project How to work with light and sound How to work with servos and DC motors How to work with photoresistors and thermistors to sense the environment How to make your own capacitive touch game show buzzer How to create your own camera-enabled alarm system Who this book is for This book is for beginning Arduino and Android enthusiasts, or Arduino developers who want to try out the new Android ADK. Table of Contents Introduction Andriod and Arduino: Getting to Know Each Other Outputs Inputs Sounds Light Intensity Sensing Temperature Sensing A Sense of Touch Making Things Move Alarm System

Beginning C For Arduino

Author: Jack Purdum
Publisher: Apress
ISBN: 1430247770
Size: 66.53 MB
Format: PDF, Docs
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Beginning C for Arduino is written for those who have no prior experience with microcontrollers or programming but would like to experiment and learn both. This book introduces you to the C programming language, reinforcing each programming structure with a simple demonstration of how you can use C to control the Arduino family of microcontrollers. Author Jack Purdum uses an engaging style to teach good programming techniques using examples that have been honed during his 25 years of university teaching. Beginning C for Arduino will teach you: The C programming language How to use C to control a microcontroller and related hardware How to extend C by creating your own library routines During the course of the book, you will learn the basics of programming, such as working with data types, making decisions, and writing control loops. You'll then progress onto some of the trickier aspects of C programming, such as using pointers effectively, working with the C preprocessor, and tackling file I/O. Each chapter ends with a series of exercises and review questions to test your knowledge and reinforce what you have learned.

Multi Disciplinary Sustainable Engineering Current And Future Trends

Author: P.N. Tekwani
Publisher: CRC Press
ISBN: 1315676885
Size: 22.47 MB
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The Nirma University International Conference on Engineering NUiCONE is a flagship event of the Institute of Technology, Nirma University, Ahmedabad. NUiCONE-2015 is focussed on events/themes in the current trends in Engineering and its research issues. Practicing engineers, technologists and technopreneurs from the industry will engage in special knowledge sharing sessions using applied technical papers by industry participants on case-study applications, white-papers, panel discussions, industrial exhibitions of innovations and technology products etc. This proceedings book includes peer reviewed and presented research papers by research scholars and professionals from academia, industry and government R&D organizations. The papers included in this proceedings volume present unpublished research of participating researchers related to some specific multi-disciplinary themes addressing sustainable engineering fields like Sustainable Manufacturing Processes; Design and Analysis of Machine & Mechanisms; Energy Conservation and Management; Concrete and Structural Engineering; Infrastructure Project Planning and Management; Chemical Process Development and Design; and Technologies for Green Environment.

Make Action

Author: Simon Monk
Publisher: Maker Media, Inc.
ISBN: 1457187752
Size: 33.17 MB
Format: PDF, Docs
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Beginning with the basics and moving gradually to greater challenges, this book takes you step-by-step through experiments and projects that show you how to make your Arduino or Raspberry Pi create and control movement, light, and sound. In other words: action! The Arduino is a simple microcontroller with an easy-to-learn programming environment, while the Raspberry Pi is a tiny Linux-based computer. This book clearly explains the differences between the Arduino and Raspberry Pi, when to use them, and to which purposes each are best suited. Using these widely available and inexpensive platforms, you'll learn to control LEDs, motors of various types, solenoids, AC (alternating current) devices, heaters, coolers, displays, and sound. You'll even discover how to monitor and control these devices over the Internet. Working with solderless breadboards, you'll get up and running quickly, learning how to make projects that are as fun as they are informative. In Make: Action, you'll learn to: Build a can crusher using a linear actuator with your Arduino Have an Arduino water your plants Build a personal traffic signal using LEDs Make a random balloon popper with Arduino Cool down your beverages with a thermostatic drink cooler you build yourself Understand and use the PID control algorithm Use Raspberry Pi to create a puppet dance party that moves to your tweets!

Arduino Wearables

Author: Tony Olsson
Publisher: Apress
ISBN: 1430243600
Size: 70.87 MB
Format: PDF, Mobi
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You've probably seen LED-decorated t-shirts and hats, and maybe even other electronic gadgets embedded in clothing, but with Arduino Wearables you can learn to make your own wearable electronic creations. This book is an introduction to wearable computing, prototyping, and smart materials using the Arduino platform. Every chapter takes you all the way from idea to finished project. Even if you have no experience with Arduino, this book will get you set up with all the materials, software, and hardware you need; you'll complete simple projects first, and then build on your growing expertise to make more complex projects. By the end of the book, you'll have learned: Electronics basics How to prototype successfully Arduino programming How to design and build your own wearable Arduino creations Along the way you'll create fun and inspiring wearables, such as: An LED bracelet: learn the basics of wearable electronics A synthesizer tie: accept user input and create output in response A solar-powered glow in the dark bag: create self-sufficient wearables A shape memory flower: store state and manipulate your wearables An EL wire dress: add designer touches to your wearables A beatbox hoodie: use a voice-activated sequencer and skin resistance to create the coolest of urban wearables Arduino Wearables is the complete guide to getting started with Arduino and wearable computing. The 10 inspiring projects to make, learn from, and build upon will equip you for creating your own projects; the only limit is your imagination.

Arduino In Action

Author: Martin Evans
Publisher: Manning Publications
ISBN: 9781617290244
Size: 39.81 MB
Format: PDF, ePub
View: 1996
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A guide to prototyping and building electronics using the Arduino platform, an open source DIY electronics platform that supports a large collection of sensors and actuators.

Arduino Projects To Save The World Premeaux Evans 2011

Author: Technology in Action (TIA)
Publisher: Bukupedia
Size: 34.24 MB
Format: PDF, ePub
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Preface In the year following the Tohoku earthquake and tsunami, I have been fortunate enough to be able to work alongside some incredible people in the open source community, doing extraordinary things. By now I am sure you are all well aware that the tsunami caused severe damage to the Fukushima daiichi (number 1) power plant. When the backup generators were swamped by the waves, the reactors began melting down. Almost overnight, the cost of Geiger counters and Geiger-muller tubes skyrocketed. The price hike was not limited to Japan. A lack of ready supplies of Geiger counters caused a global price shock. The Japanese government began radiation tests almost as quickly as the news pundits started making comparisons to Three Mile Island and Chernobyl. It quickly became apparent to the hacker community that a few spot measurements taken outside government office buildings once a week were not going to cut it. Not that the Japanese government failed to step in and do its job, but until now the standard practices within the nuclear energy industry were limited to stationary sensors and limited readings. Essentially, the book would have to be rewritten. Only a few days after the quake, a few Tokyo HackerSpace members braved the dangers and ventured out to the space to have our usual meeting. Right away we began brainstorming ideas as to how we could help, by applying our technical skills to the current disasters (it was in fact multiple disasters). We got to work on solar-powered cell phone chargers, international pleas for donations and supplies, and coordinating with volunteers to provide crash space, food, and equipment for their trips up north. In the first week, radiation was definately at the top of everyone’s list. About that time, Pieter Franken made contact with a group of people in the U.S., willing to set up and host a data server for collecting radiation data. In the beginning they could only aggregate all the independent sensors registered on sites such as Patchube, as well as independent servers. Even so, they quickly developed a radiation map far more sophisticated than anything the government could come up with. The advantage was many distributed sensors maintained by enthusiasts, willing to spend a bit of money and sweat to do it. Once the Peter Franken-to-SafeCast-to-Tokyo-HackerSpace connection was made, the project exploded in scope. Akiba, one of our star members in the field of wireless sensor networks, quickly mashed up a portable Geiger counter system that logged readings to an SD card every 5 seconds. It does not sound like an amazing feat, but you must keep in mind that up till this point, the best the universities and government could come up with was to send ten people into an area. They each carried a Geiger counter, GPS receiver, camera, marking stick, and a clipboard. They were literally writing down GPS coordinates and timestamps on pieces of paper before jotting down the Geiger reading! Terribly inefficient to say the least. Pieter got hold of the prototype, added his own touches to it, and the bGeigi was born. The bGeigi (or bento geigi; literally “lunchbox Geiger counter”) contains an off-the-shelf, professionally calibrated Geiger counter connected to a wireless Arduino board. The Arduino reads the counts, reads a GPS receiver, and logs all the data to a memory card. In addition, it transmits the Geiger reading to a remote receiver. ■ PREFACE xvii The concept works like this: The bGeigi is mounted to a car, bus, or bicycle. It is battery powered and takes readings continuously every 5 seconds for up to 12 hours. You simply drive around, taking readings everywhere you go! By now, the SafeCast team has over a million readings throughout northern Japan. One volunteer has vowed to get readings on every street in his town. Even in the early days of the SafeCast project, the resultant data maps were very telling and quite interesting to see evolve. Now that they have more than a million data points, you start to see the radiation cloud effect. As more data comes in, the true fallout pattern becomes more apparent. It’s like assembling a jigsaw puzzle, only without seeing the box cover. So you really don’t know what you will have till it’s done. Each new puzzle piece reveals surprising perspective. The team has not limited themselves to only road data. They make regular stops at homes, office parks, train stations, and other high-traffic areas. In fact, once the first bGeigi was complete, their first order of business was to collect readings in and around every public school in the affected areas. Children were the first priority. Through these field studies they have learned some interesting lessons about how radiation settles in and around a home. Certain materials are more prone to retaining radioactive materials. Areas around drainpipes often contain the highest concentrations (don’t let your pets play or drink in the puddles). A very interesting experiment involved measuring a family’s yard soil before and after an attempt at cleaning up. They shoveled and bagged the first few centemeters of half their yard, then took readings on both areas. The results were significant. The undisturbed soil had readings that were highly disturbing (do a search for SafeCast on YouTube for the shock of a lifetime). The simple act of bagging the top soil had an incredibly positive affect. Unfortunately, other parts of the new home were contaminated in ways that were much more difficult to clean up, and the family felt their best option was to move. The SafeCast model is the best example of citizen data in action. Individuals came together, applied open source thinking and tools to a national problem, and arrived at a solution that far outperformed the hertofore existing solutions. Their open and public data was at first debated and downplayed by some members of the scientific community, only to be fully backed by Keiyo University (one of the top three universities in Japan). This “unorganized,” “scientifically questionable,” non-corporate, all-volunteer organization is currently deploying the largest radiation network in Japan. Until recently, funding was entirely private donations. With the backing of Keiyo and a few corporations that shall remain nameless, this group of concerned citizens is now providing reliable and consistant data to the scientific community and the public. Eventually the government adopted a similar solution of high data rate mobile automated logging. Imitation is the best form of flattery. All of our current models and understanding of the environment are based on a limited data set. We make grand predictions based on isolated sensors taking readings once a day. Our models can only get more accurate as we exponentially increase the number of sensors out there collecting data. But it is absolutely critical that this data be open. Perhaps more important is that we enable each individual to participate in the collection process. The Arduino is perfectly situated to make this happen. As it becomes more acceptable for normal everyday people to be mobile science stations, smart phones will fill the role of data collector. The next step for the bGeigi? The smart phone iGeigi. Then the world.