GeoDC Maker Talks: GPS-Enabled Sensor Platforms using Arduino
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Lightning talk for GeoDC June 3, 2015: Building GPS-Enabled Sensor Platforms using Arduino Microcontrollers
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Introduction To Arduino
Richard Rixham's presentation introducing open source hardware hacking with Arduino.
Presented at unsheffield 2009.
http://unsheffield.net
Microcontroller arduino uno board
A microcontroller (MCU for microcontroller unit, or UC for μ-controller) is a small computer on a single integrated circuit. In modern terminology, it is similar to, but less sophisticated than, a system on a chip (SoC); an SoC may include a microcontroller as one of its components.
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This project describes a sign language translation glove that uses flex sensors and an accelerometer/gyroscope to detect finger movements and positions. An Arduino microcontroller collects sensor data and sends it over Bluetooth to an Android device running a neural network model to recognize signs and output text. The goal is to translate American Sign Language signs into text in real-time using open source hardware and software components like Arduino, Android ADK, and various sensors.
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Arduino is an open-source electronic prototyping platform that includes both hardware and software. It was founded by Massimo Banzi and David Cuartielles. There are different types of Arduinos including physical boards and shields that can add additional functionality like Wi-Fi, Bluetooth, relays, and more. The Arduino IDE is the integrated development environment software used to compile and upload code to Arduino boards via serial ports. The LilyPad Arduino is designed for wearables and e-textiles as it can be sewn onto fabric and used with conductive thread to power sensors, actuators, and more.
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This document introduces Arduino, an open-source electronics prototyping platform. It can be used for projects involving robotics, music, sensor networks, interactive objects, art and more. Arduino boards use microcontrollers and can read input from sensors and control outputs to actuators. The Arduino software and community help make electronics prototyping accessible to anyone. Examples of Arduino projects include interactive installations, high-speed photography systems, biomimetic art, and drone autopilots.
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Arduino Uno Board - Robomart
The Arduino Uno Board is an open resource microcontroller board based on the ATmega328 chip. This Board has 14 digital I/O pins, 6 analog input pins, onboard 16 MHz ceramic resonator, Port for USB connection, Onboard DC power jack, An ICSP header and a microcontroller reset button. Robomart is the biggest selling store in india buy arduino board, buy arduino online, arduino india, arduino uno price, arduino uno india, arduino uno price in india, arduino board price in india at best prices. https://www.robomart.com/arduino-uno-online-india
Recommended
Introduction To Arduino
Richard Rixham's presentation introducing open source hardware hacking with Arduino.
Presented at unsheffield 2009.
http://unsheffield.net
Microcontroller arduino uno board
A microcontroller (MCU for microcontroller unit, or UC for μ-controller) is a small computer on a single integrated circuit. In modern terminology, it is similar to, but less sophisticated than, a system on a chip (SoC); an SoC may include a microcontroller as one of its components.
Show & Tell.- Introduction
This project describes a sign language translation glove that uses flex sensors and an accelerometer/gyroscope to detect finger movements and positions. An Arduino microcontroller collects sensor data and sends it over Bluetooth to an Android device running a neural network model to recognize signs and output text. The goal is to translate American Sign Language signs into text in real-time using open source hardware and software components like Arduino, Android ADK, and various sensors.
My arduino presentation
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This document introduces Arduino, an open-source electronics prototyping platform. It can be used for projects involving robotics, music, sensor networks, interactive objects, art and more. Arduino boards use microcontrollers and can read input from sensors and control outputs to actuators. The Arduino software and community help make electronics prototyping accessible to anyone. Examples of Arduino projects include interactive installations, high-speed photography systems, biomimetic art, and drone autopilots.
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The Arduino Uno Board is an open resource microcontroller board based on the ATmega328 chip. This Board has 14 digital I/O pins, 6 analog input pins, onboard 16 MHz ceramic resonator, Port for USB connection, Onboard DC power jack, An ICSP header and a microcontroller reset button. Robomart is the biggest selling store in india buy arduino board, buy arduino online, arduino india, arduino uno price, arduino uno india, arduino uno price in india, arduino board price in india at best prices. https://www.robomart.com/arduino-uno-online-india
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This document discusses various projects that combine Arduino and Android capabilities. It provides examples of using Arduino for tasks like receiving SMS messages and displaying them on an LCD screen, building robots controlled by an Android phone via Bluetooth, and creating a Bluetooth-enabled alcohol meter for an Android phone. It also lists some other possibilities like an emergency call system triggered by a car crash or using an Android phone to control TV channels via infrared signals sent from an Arduino.
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Arduino is an open-source hardware platform for building interactive electronic projects. It consists of a simple open hardware design with an Atmel processor and input/output support. The hardware is less expensive than other prototyping devices. It is accompanied by a software side written in Java and based on Processing. Arduino began in Italy to control student-built interaction design projects and is descended from the open-source Wiring platform. It has a large community and potential for growth supporting its future success.
Tinker cad intro
TinkerCAD is a free online 3D modeling and circuit program that runs in a web browser. It was created by former Google engineers to make 3D modeling accessible to the general public. TinkerCAD Circuits allows users to simulate Arduino-based systems using blocks before testing them on real hardware. Components, circuits, and simulations can be built and programmed using a drag-and-drop interface or text code, with designs able to be shared publicly.
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Maker Education can help kids to enjoy learning Science, Technology, Engineering and Maths (STEM). We at Fun2Do Labs - Open Education Project have published this presentation so that teachers can help their students to learn basics of science using project based activities.
In this presentation we teach how Arduino can be used for creating maker projects.
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This document provides an overview of the Arduino open source electronics prototyping platform. It describes the history and origins of Arduino starting in 2005 at the Interactive Design Institute in Italy. Key Arduino boards are identified like the Arduino Uno, the most popular board. The features of the Arduino Uno board are outlined including its microcontroller, pins for input/output, power supply and more. The Arduino IDE software for writing and uploading code to Arduino boards is also summarized. Other open source prototyping platforms besides Arduino are mentioned but not described.
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This is contain the following:
Embedded Systems.
• Microcontroller.
• Microprocessor vs. Microcontroller.
• Arduino.
• Digital vs Analog Signal.
• I/O Arduino Uno pins.
• Arduino IDE.
• Simulations Programs.
Email: elafe1888@gmail.com
linkden: www.linkedin.com/in/elaf-a-saeed-97bbb6150
facebook: https://www.facebook.com/profile.php?id=100004305557442
github: https://github.com/ElafAhmedSaeed
youtube: https://youtube.com/channel/UCE_RiXkyqREUdLAiZcbBqSg
slideshare: https://www.slideshare.net/ElafASaeed
Slideplayer: https://slideplayer.com/search/?q=Elaf+A.Saeed
Google Scholar: https://scholar.google.com/citations?user=VIpVZKkAAAAJ&hl=ar&gmla=AJsN-F7PIgAjWJ44Hzb18fwPqJaaUmG0XzbLdzx09
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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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Arduino presentation by_warishusain
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This document provides an overview of an Arduino project. It describes what Arduino is, which is an open-source electronics platform that allows boards to read inputs and turn them into outputs. It then lists some of the key elements that are included in an Arduino board, such as a power supply connector, microcontroller, and reset button.
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The document provides an overview of Arduino, describing it as an open-source physical computing platform consisting of a programmable integrated circuit board and integrated development environment. It can be used for physical computing projects, interactive installations, and rapid prototyping. The document outlines what Arduino can do, including interacting with sensors to detect inputs and actuators to produce outputs. It explains how to get started with Arduino by obtaining a board, learning the programming language based on C/C++, and uploading simple programs to control outputs like LEDs. A pushbutton example circuit is demonstrated.
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This article discusses about different types of Arduino boards includes the Arduino UNO (R3), LilyPad, Red Board, Arduino Mega (R3), Arduino Leonardo
Arduino board
The document discusses the Arduino board, an open-source electronics platform that allows users to read sensor inputs and activate outputs like motors or LEDs. It explains that the Arduino programming language and IDE are used to send instructions to the microcontroller on the board. Finally, it lists the main parts of an Arduino board including the power supply, pins, reset button, LEDs, main IC, and voltage regulator.
Ardunio
The document provides information about how the Arduino board works. It explains that the Arduino uses an Atmega microcontroller chip which is programmed to control inputs and outputs. A secondary chip, such as an Atmega8U2, handles the USB connection and communication between the microcontroller and computer. Supporting components like voltage regulators, capacitors, crystals and resistors work together to power the chips safely and generate the clock signal needed for programming and operation.
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Arduino is an open-source hardware platform for building interactive electronic projects. It consists of a simple open hardware design with an Atmel processor and input/output support. The hardware is less expensive than other prototyping devices. It is accompanied by a software side written in Java and based on Processing. Arduino began in Italy to control student-built interaction design projects and is descended from the open-source Wiring platform. It has a large community and potential for growth supporting its future success.
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Our Arduino project involved creating an LED light that automatically turns on and off at a set frequency. An Arduino board acts as an interface between a computer and electronic devices by adapting input and output signals. To complete the project, we connected the board to a computer, wrote code to program the board to control the LED, tested that the LED turned on and off as intended, and successfully demonstrated our working project.
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This document provides an overview of the Arduino open source electronics prototyping platform. It describes the history and origins of Arduino starting in 2005 at the Interactive Design Institute in Italy. Key Arduino boards are identified like the Arduino Uno, the most popular board. The features of the Arduino Uno board are outlined including its microcontroller, pins for input/output, power supply and more. The Arduino IDE software for writing and uploading code to Arduino boards is also summarized. Other open source prototyping platforms besides Arduino are mentioned but not described.
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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.
Embedded system introduction - Arduino Course
This is contain the following:
Embedded Systems.
• Microcontroller.
• Microprocessor vs. Microcontroller.
• Arduino.
• Digital vs Analog Signal.
• I/O Arduino Uno pins.
• Arduino IDE.
• Simulations Programs.
Email: elafe1888@gmail.com
linkden: www.linkedin.com/in/elaf-a-saeed-97bbb6150
facebook: https://www.facebook.com/profile.php?id=100004305557442
github: https://github.com/ElafAhmedSaeed
youtube: https://youtube.com/channel/UCE_RiXkyqREUdLAiZcbBqSg
slideshare: https://www.slideshare.net/ElafASaeed
Slideplayer: https://slideplayer.com/search/?q=Elaf+A.Saeed
Google Scholar: https://scholar.google.com/citations?user=VIpVZKkAAAAJ&hl=ar&gmla=AJsN-F7PIgAjWJ44Hzb18fwPqJaaUmG0XzbLdzx09
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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Analog signals are continuous signals representing physical measurements, denoted by sine waves. Digital signals are discrete time signals generated by digital modulation, denoted by square waves. Arduino is an open source hardware platform used by artists, hobbyists and professionals to easily design and prototype electronics projects. It uses a simple hardware and software design that allows anyone to produce Arduino boards.
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The document discusses Arduino, an open-source hardware platform used for building electronics projects. It notes that Arduino is a microcontroller board that can be programmed to read input and control output from various sensors and actuators. The document provides details on Arduino components, programming, common shields and expansions, applications in different domains, and its popularity as an accessible platform for physical computing.
Our arduino project
This document provides an overview of an Arduino project. It describes what Arduino is, which is an open-source electronics platform that allows boards to read inputs and turn them into outputs. It then lists some of the key elements that are included in an Arduino board, such as a power supply connector, microcontroller, and reset button.
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The document provides an overview of Arduino, describing it as an open-source physical computing platform consisting of a programmable integrated circuit board and integrated development environment. It can be used for physical computing projects, interactive installations, and rapid prototyping. The document outlines what Arduino can do, including interacting with sensors to detect inputs and actuators to produce outputs. It explains how to get started with Arduino by obtaining a board, learning the programming language based on C/C++, and uploading simple programs to control outputs like LEDs. A pushbutton example circuit is demonstrated.
PPT ON Arduino
This presentation summarizes a summer training on Arduino. It defines Arduino as an open-source hardware and software platform for building electronics projects. It describes the main types of Arduino boards including the Arduino Uno, Mega 2560, Duemilanove, and Fio. It also outlines some key features of the Arduino Uno board. Furthermore, it provides examples of interfacing Arduino with a DC motor and RC car motor. The presentation concludes by listing some common applications of Arduino and its advantages.
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The document discusses the Arduino board, an open-source electronics platform that allows users to read sensor inputs and activate outputs like motors or LEDs. It explains that the Arduino programming language and IDE are used to send instructions to the microcontroller on the board. Finally, it lists the main parts of an Arduino board including the power supply, pins, reset button, LEDs, main IC, and voltage regulator.
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The document provides information about how the Arduino board works. It explains that the Arduino uses an Atmega microcontroller chip which is programmed to control inputs and outputs. A secondary chip, such as an Atmega8U2, handles the USB connection and communication between the microcontroller and computer. Supporting components like voltage regulators, capacitors, crystals and resistors work together to power the chips safely and generate the clock signal needed for programming and operation.
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Introduction to Arduino
1) Arduino is an open-source electronics platform used for building interactive objects that can sense and control the physical world. It contains a microcontroller and can be programmed to sense input from sensors and control outputs like motors or lights.
2) The Arduino programming environment allows users to write code and upload it to an Arduino board. It was initially developed in 2005 to make electronics projects more accessible to students.
3) Popular Arduino boards include the Arduino Uno, Leonardo, and Mega. Arduino is advantageous because it is inexpensive, has a simple programming language, and has a large community of users developing sensors, modules, and applications.
Introduction to arduino
The document introduces Arduino, an open-source hardware platform for building electronics projects. Arduino consists of a programmable circuit board and IDE software. It is widely used due to its low cost, extensive documentation and community support. The document describes common Arduino boards like Uno and Mega, the Arduino programming language based on C/C++, and the Arduino IDE. It also discusses Arduino shields that extend the capabilities of the main board and provides examples of blinking LED projects.
Smartphone++
This document discusses using Arduino and the Google Android Open Accessory Development Kit (ADK) to connect Android devices to hardware. It provides an overview of Arduino, describes the Google ADK and how it allows an Android device to communicate over USB with an Arduino board. It also outlines the steps to write firmware for the Arduino, create an Android application, and provides examples of uses including a sonar demo and motor control demo.
Arduino camera interfacing OV7670
This document discusses interfacing an OV7670 camera module with an Arduino board. It provides an overview of the hardware used, including details of the Arduino board specifications and the camera module. It then describes how the camera module connects to the Arduino via its pins and communicates over the Serial Camera Control Bus protocol. The document explains that the Arduino software IDE makes it easy to write code to capture and process images from the camera module.
Aurdino presentation
This document provides an introduction to Arduino and Arduino programming language. It defines Arduino as an open-source prototyping platform based on microcontrollers and an easy-to-use IDE. Key aspects covered include how to set up the Arduino environment, select a board and port, and understand the basic structure of an Arduino program using setup() and loop() functions. Examples demonstrated include blinking an LED, reading serial data, and creating infinite loops. The document aims to explain the basics of Arduino for beginners.
jeevan ppt anits ecec.pptx
The document provides information on using Arduino IoT Cloud to build IoT projects. It discusses what Arduino and IoT are, describes the features of Arduino IoT Cloud including auto-generated sketches and device-to-device communication. It also outlines the steps to create an IoT project using an Arduino MKR WiFi 1010 board, and provides an example of a project to control an LED from the cloud.
Report on arduino
Arduino is an open-source hardware and software platform for building electronic projects and interactive objects. It consists of a circuit board with a microcontroller, and an IDE software to write and upload code. The boards can read inputs from sensors and turn them into outputs that control actuators. Arduino provides a standard format that simplifies use of microcontrollers. It allows controlling the board by sending instructions to the microcontroller via the Arduino IDE. The platform works with both the physical board and its libraries and IDE software.
Industrial IoT in a Nutshell
This document provides an overview of industrial Internet of Things (IIoT). It discusses how IIoT can help with operational efficiency, predictive maintenance, and asset tracking. It also covers common IIoT technologies like sensors, microcontrollers, connectivity options, cloud platforms, and energy sources. A demo is shown of a power meter sending data to the cloud. The global IIoT market is estimated to reach $2.6 trillion by 2020 according to Cisco, showing the huge opportunity it presents.
Taller IoT en la Actualidad
This document discusses Arduino and its history and applications. It notes that Arduino was created in 2005 as an educational open-source hardware project. It was developed by Massimo Banzi and others to provide a low-cost, easy-to-use platform for prototyping that could be used in classrooms. Arduino was built upon Wiring, an earlier open-source electronics platform, to make hardware programming more approachable. It has since grown into a large community and product line used widely for hardware prototyping, especially in IoT and home automation applications.
Arduino in Agricoltura -Alessandro Matese
Séminaire AgroTIC : Arduino et ses applications en agriculture
Seminario per l'introduzione della tecnologia arduino in agricoltura
Riferimento alessandro matese a.matese@ibimet.cnr.it IBIMET CNR
Arduino IoT (shared)
1) The document discusses Internet of Things (IoT) topics including Arduino, IoT applications, and concludes with how information tools like mobile phones, robots, artificial intelligence, and IoT can be utilized.
2) It provides an overview of Arduino boards and components that can be used for IoT projects, describing sensors, pins, and the Arduino IDE. Examples of IoT applications presented include smart glasses, agriculture, and water quality monitoring.
3) The conclusion emphasizes making good use of information tools and technologies by combining aspects like design, communication, data, and networks.
Introduction to Internet of Things Hardware
This presentation introduces to the world of hardware everyone can use to get stated with Internet of Things (IoT) such as Arduino, Raspberry Pi and ESP8266.
arduino 320126512170.pptx
The document discusses learning to use the Arduino IoT cloud platform to build IoT projects. It provides an abstract that Arduino IoT cloud allows makers to easily build connected objects in a quick, secure way. It then discusses what Arduino and IoT are, and defines Arduino IoT cloud as being fully integrated into the Arduino Create ecosystem. Example projects are outlined, such as creating a motion sensor alarm that calls a cell phone. Steps for working on projects are also provided.
Unit6_P7_luciablazquez
Arduino is an open-source hardware and software platform for building electronics projects. It uses a simple C++-based programming language and consists of a microcontroller board and IDE software. The Arduino platform is popular for beginners due to its ease of use - it can be programmed via USB without additional hardware. It was created in 2003 by students in Italy to provide a low-cost alternative for learning electronics and programming. The core components of an Arduino board include a microcontroller, analog and digital pins, power supply, and USB interface.
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- 2. Ard-what?
- 3. Arduino – http://arduino.cc WHAT IS ARDUINO? Arduino is an open- source electronics platform based on easy-to-use hardware and software. It's intended for anyone making interactive projects.
- 4. Why would I be interested?
- 5. Because, DATA! Digital I/O Ports (PWM) Analog Input Ports
- 6. What’s in it for Geogeeks?
- 7. GPS “Shields” – easy stacking, IO and power supplied via pins, plus SD Card Logging
- 8. What can I measure and map? Temperature Pressure Light level Humidity Smoke CO2 Methane VOCs Radiation et cetera…
- 9. Putting it all together…
- 10. Easy to code, IDE is supplied, transfers your sketch to the Arduino via USB cable
- 11. GPS Code https://github.com/mikalhart -> TinyGPS NMEA Parsing