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.
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.
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.
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.
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.
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
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.
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.
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.
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.
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.
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
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.
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.
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.
This document provides instructions for using MIT App Inventor and a $5 Bluetooth module to wirelessly control an Arduino project from an Android device. It details what hardware and software is needed, including an Android device, Arduino, HC-05 Bluetooth module, MIT App Inventor account. It explains how to design the app interface in App Inventor, connect the Bluetooth module to the Arduino, and install the app on the Android device. Code examples are provided to transmit data between the app and Arduino over Bluetooth to control an LED.
This document discusses Arduino and its uses. It begins by explaining that Arduino was created in 2003 as an open-source electronics platform to make prototyping easier. It describes the Arduino software, including its IDE based on Java that supports C/C++. It outlines different Arduino boards like the Uno, Mega, LilyPad, and those for internet of things and 3D printing. Finally, it provides examples of projects developed with Arduino like a bump detection system, health monitor, radar, and more.
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.
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.
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.
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.
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.
This document provides an overview of Arduino, an open-source hardware platform used for building interactive objects and prototypes. It describes Arduino as a single-board microcontroller intended to make electronics projects more accessible. Key topics covered include the Arduino programming environment, common Arduino boards and their features, examples of simple Arduino projects like blinking an LED and building a line-following robot, and comparisons to other prototyping platforms. The document encourages readers to get started with Arduino for its low cost, easy programming environment, and large community support.
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.
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.
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.
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.
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.
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.
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.
Groundwater Contamination from Ammonia, Nitrate, & Nitrite: In Search of a R...MECConference
This document discusses groundwater contamination from ammonia, nitrate, and nitrite in the Midwest region, specifically Nebraska, Iowa, Kansas, and Missouri. Agriculture and livestock production are common industries in these states that can contribute to groundwater contamination through pathways like feedlot infiltration and fertilizer application. A 1996 survey found nitrate levels exceeding standards in hundreds of water systems across the Midwest, affecting hundreds of thousands of people. Efforts are underway through education, facility management, monitoring, and technology to minimize the impacts, but a regional approach combining data and knowledge from various sources could help address this persistent problem.
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.
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.
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.
This document provides instructions for using MIT App Inventor and a $5 Bluetooth module to wirelessly control an Arduino project from an Android device. It details what hardware and software is needed, including an Android device, Arduino, HC-05 Bluetooth module, MIT App Inventor account. It explains how to design the app interface in App Inventor, connect the Bluetooth module to the Arduino, and install the app on the Android device. Code examples are provided to transmit data between the app and Arduino over Bluetooth to control an LED.
This document discusses Arduino and its uses. It begins by explaining that Arduino was created in 2003 as an open-source electronics platform to make prototyping easier. It describes the Arduino software, including its IDE based on Java that supports C/C++. It outlines different Arduino boards like the Uno, Mega, LilyPad, and those for internet of things and 3D printing. Finally, it provides examples of projects developed with Arduino like a bump detection system, health monitor, radar, and more.
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.
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.
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.
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.
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.
This document provides an overview of Arduino, an open-source hardware platform used for building interactive objects and prototypes. It describes Arduino as a single-board microcontroller intended to make electronics projects more accessible. Key topics covered include the Arduino programming environment, common Arduino boards and their features, examples of simple Arduino projects like blinking an LED and building a line-following robot, and comparisons to other prototyping platforms. The document encourages readers to get started with Arduino for its low cost, easy programming environment, and large community support.
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.
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.
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.
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.
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.
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.
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.
Groundwater Contamination from Ammonia, Nitrate, & Nitrite: In Search of a R...MECConference
This document discusses groundwater contamination from ammonia, nitrate, and nitrite in the Midwest region, specifically Nebraska, Iowa, Kansas, and Missouri. Agriculture and livestock production are common industries in these states that can contribute to groundwater contamination through pathways like feedlot infiltration and fertilizer application. A 1996 survey found nitrate levels exceeding standards in hundreds of water systems across the Midwest, affecting hundreds of thousands of people. Efforts are underway through education, facility management, monitoring, and technology to minimize the impacts, but a regional approach combining data and knowledge from various sources could help address this persistent problem.
This document describes building a pore network model from 3D images of a pore space to precisely predict permeability. Key steps include:
1) Skeletonizing the 3D image to extract the pore network topology.
2) Partitioning the pore space to identify individual pores and throats.
3) Constructing the pore network model (PNM) graph from the skeleton and partitioning.
4) Computing local resistances within the PNM to predict permeability and comparing with direct numerical modeling.
The document summarizes an experiment studying rainwater infiltration into unsaturated layered soil columns. It introduces infiltration and the hydrologic cycle, and how unsaturated soils behave when wetted. The experiment aims to provide evidence of infiltration's effects. Two soil samples were tested in soil columns with sensors measuring moisture, suction, and outflow over rainfall periods. Test results showed the samples had different infiltration patterns and properties altered by moisture. The experiment helps explain unsaturated soil behavior and how infiltration impacts slope stability and groundwater.
The document describes various methods for measuring soil permeability in the field, including pumping tests, percolation tests, single ring falling head infiltrometer tests, double ring infiltrometer tests, slug tests, and estimated methods based on grain size like the Hazen and Guelph permeameter methods. It provides details on the principles, procedures, analysis, and limitations of each method. Pumping tests and percolation tests are described as active and passive ways respectively to determine the permeability coefficient. Equations for analyzing slug test data and determining permeability from infiltrometer tests are also presented.
This document discusses non-spore forming anaerobic bacteria. It describes the different types of anaerobic bacteria including gram positive and negative non-sporulating bacilli and cocci. Key anaerobic bacteria discussed include Bacteroides fragilis, Prevotella, Porphyromonas, and Fusobacterium. The document also covers the role of anaerobic bacteria in normal flora and various infections, as well as methods for laboratory diagnosis and treatment of anaerobic infections.
Groundwater contamination can occur from various point and nonpoint sources. Point sources include storage tanks, landfills, and pipeline releases. Nonpoint sources include agricultural activities. Principal sources of groundwater pollution include municipal sources like sewer leakage and liquid wastes; industrial sources like liquid wastes, tank and pipeline leakage, and mining activities; agricultural sources like irrigation return flows, animal wastes, fertilizers and pesticides; and miscellaneous sources like urbanization, spills, stockpiles, septic tanks, and roadway de-icing. Pollutants can enter groundwater and persist for decades due to the difficulty of detecting and controlling subsurface pollution compared to surface water pollution.
This document discusses non-spore forming anaerobic bacteria. It begins by introducing anaerobic bacteriology and some of the challenges associated with culturing and identifying anaerobes. It then covers the different types of anaerobes including obligate, aerotolerant, and microaerophilic bacteria. The document discusses the classification of various anaerobic bacteria and some of the human infections they can cause. It also touches on methods for diagnosing anaerobic infections and techniques for anaerobic culture.
15) groundwater contamination, prevention and remedial techniques as on 27-05...Najam Ul Syed Hassan
This document discusses groundwater contamination and remediation. It introduces groundwater and its importance as a source of drinking water for over 50% of the world's population. It describes how groundwater can become contaminated through human activities like industrial chemical spills and leaks, improper waste disposal, and excessive pesticide and fertilizer use. Both ex-situ and in-situ remediation techniques are discussed for removing contaminants from groundwater, such as pump and treat methods, bioremediation, and air sparging. Specific contaminants like TCE, MTBE, EDC, and gasoline are also summarized along with their typical treatment technologies. The document emphasizes the importance of preventing groundwater contamination to avoid costly
This document discusses soil permeability. It defines permeability as the property of a porous material that allows water to pass through its voids. Permeability depends on factors like particle size, void ratio, and degree of saturation. Darcy's law states that the rate of water flow through a soil is proportional to the hydraulic gradient. Common laboratory tests to measure permeability include constant-head and variable-head tests. Permeability is important for calculating seepage, drainage, settlement, and the stability of earth structures. Soils can be classified based on their permeability rate.
Permeability and factors affecting permeability roshan mankhair
Permeability is the property of soil that allows water to flow through it, denoted by 'K'. Factors that affect permeability include grain size, properties of pore water, temperature, void ratio, stratification, entrapped air/organics, adsorbed water, degree of saturation, shape of particles, and structure of the soil mass. Permeability generally increases with larger grain size, higher temperatures, and void ratios, and decreases with stratified layers perpendicular to flow, entrapped air/organics, adsorbed water, partial saturation, angular particles, and dispersed soil structures.
Arduino is an open-source hardware platform for building electronics projects. It provides a programmable circuit board and software to program it. Key features include an inexpensive ($30) and easy to use board, support for both digital and analog input/output, and a large user community. Arduino boards can be used to build interactive objects, sense and control the physical world, and communicate using various protocols. Examples of Arduino projects include robots, 3D displays, sensors, and more.
Arduino is an open-source hardware and software prototyping platform used for building electronics projects. It consists of a microcontroller board and an IDE used to write code. The board can be connected to sensors, actuators and other hardware components. There are many Arduino boards and derivatives that vary in size, capability, and function. The Arduino IDE uses a simplified version of C/C++ and provides an easy way to compile and upload code to the board.
18/03/2010 - FTS seminar series @ Cardiff Univesity, Computer Science. Pete Woznowski and Rich Coombs one hour presentation on Arduino. Some info on Arduino and the talk: Arduino is a hardware and software platform for developing electronic devices and applications, aimed at being fun and accessible to everyone. Think Lego Mindstorms, but aimed intentionally at adults (rather than aimed at children and incidentally used by adults :)). The scope and potential for Arduino is huge. It has been used to develop simple applications like pedometers and networked environmental sensors, to art exhibits and remote controlled vehicles. The talk aims to give an overview of the Arduino platform and a brief introduction to designing and programming Arduino applications, along with some demonstrations.
The document discusses the Arduino, an open-source electronics prototyping platform. It provides a brief history of how Arduino was created in 2005 to provide an affordable platform for interactive design projects. It describes the key features of the Arduino Uno board and the Arduino programming environment. Finally, it outlines some common applications of Arduino in fields like home automation, robotics, and sensor prototyping.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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
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.
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.
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.
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.
Similar to GeoDC Maker Talks: GPS-Enabled Sensor Platforms using Arduino (20)
Presentation on EPA's Facility Registry Service API for the DC Web API Meetup. The API is being used in front end integration and master data management, delivering data quality improvements, better integration, and burden reduction to reporters.
This document discusses initiatives by the Facilities Registry Service (FRS) to improve data quality for key environmental datasets relevant to emergency response. It identifies known data gaps for oil and hazardous waste facilities (ESF-10) and wastewater/drinking water infrastructure (ESF-3). The FRS will conduct thematically and geographically targeted reviews of high-risk facilities to address these gaps. Geographically, counties in Louisiana, Florida, Alabama and Mississippi with the most frequent hurricane disaster declarations will be prioritized. The FRS will also develop new GIS layers, including one for wastewater treatment plants integrating data from ICIS-NPDES and other sources.
The executive order establishes a cross-agency working group to improve coordination between federal, state, and local agencies on chemical facility safety. The working group is tasked with developing plans to modernize regulations and information sharing, identify best practices, and enhance emergency response coordination. Key objectives include reviewing coverage of existing risk management programs, identifying ways to improve ammonium nitrate safety, and convening stakeholders to discuss options for strengthening chemical safety and security.
This document discusses the EPA's use of infrastructure data for emergency response efforts. It notes that the EPA's emergency response has traditionally focused on oil and hazardous waste cleanup after disasters. However, the poor quality of drinking water and wastewater infrastructure data hampered the EPA's response to Hurricane Sandy. Address and location data for many facilities was missing, invalid, or in the wrong county. The EPA's Facility Registry Service helped fill some gaps by integrating data from other EPA programs and sources. The document calls for more reliable infrastructure data to better support emergency response, assessment of damage, and prioritization of aid.
The document discusses the EPA's efforts to publish environmental data as linked open data. It provides background on the Facility Registry System (FRS), which contains information on 2.8 million facilities. The EPA has begun publishing FRS data as linked data and is testing functionality to better represent the data. The EPA is also working to publish other data sets as linked open data, such as the Substance Registry and Toxic Release Inventory. It is collaborating with other organizations to develop standards and best practices for linked open data.
The document discusses the Facility Registry System (FRS) which aggregates and integrates facility data from over 30 federal and 50 state, local, and tribal databases. FRS contains information on nearly 2.8 million facilities, over 80% of which have latitude and longitude data. FRS improves the validity of facility program data from 40% to 95% by selecting the best contact and location information from multiple sources. It allows users to evaluate facility compliance and perform cross-media analyses. FRS incorporates several layers of quality control and utilizes EPA standards to determine the best pick location from possible location options for each facility.
This document discusses linked data and its use for publishing and connecting environmental data on the web. It describes how linked data allows data to work like web pages by using URIs and standards like RDF to connect related information. The document provides an overview of linked data basics including its underlying structure using triples, standards for formatting and sharing data, and techniques for querying linked data using SPARQL similar to SQL. It also discusses ongoing work by the EPA and other organizations to publish environmental and geospatial data as linked open data.
The document summarizes data and services provided by the U.S. Environmental Protection Agency (EPA) to support health initiatives. It describes EPA's mission to protect human health and the environment. It then provides an overview of various EPA data assets and systems, including the EPA Data Finder, System of Registries, Environmental Dataset Gateway, Substance Registry, and the Facility Registry System. It also describes the National Environmental Information Exchange Network for exchanging data.
This document discusses potential enhancements to the EPA's Facility Registry System (FRS) Linked Open Data approach. It notes issues with the current data serialization, which treats data as flat tables without semantic structure. The document proposes improving data modeling, leveraging existing resources and metadata, and collaborating with others to enhance query capabilities and representational robustness. Short term needs include semantic enhancements to support faceted analysis and unique identification. Long term, the data model may need updates to better support Linked Open Data applications.
The Facility Registry System (FRS) is a data aggregator that integrates, validates and quality assures data from 32 federal and 57 state, tribal and territorial environmental databases containing information on over 2.6 million facilities, over 80% of which have latitude and longitude data. FRS currently publishes this geospatial and facility information as basic RDF on Data.gov but aims to develop a more robust, standards-driven and semantically enriched linked open data representation.
Discussion Notes: Presentation to Ecoinformatics International Technical Collaboration Partnership
International Web Meeting - Linked Open Data and Environmental Information
Day 1 – December 6, 2010
Geospatial Topic – Dave Smith
More from Dave Smith / USEPA Office of Environmental Information (11)
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2024/06/temporal-event-neural-networks-a-more-efficient-alternative-to-the-transformer-a-presentation-from-brainchip/
Chris Jones, Director of Product Management at BrainChip , presents the “Temporal Event Neural Networks: A More Efficient Alternative to the Transformer” tutorial at the May 2024 Embedded Vision Summit.
The expansion of AI services necessitates enhanced computational capabilities on edge devices. Temporal Event Neural Networks (TENNs), developed by BrainChip, represent a novel and highly efficient state-space network. TENNs demonstrate exceptional proficiency in handling multi-dimensional streaming data, facilitating advancements in object detection, action recognition, speech enhancement and language model/sequence generation. Through the utilization of polynomial-based continuous convolutions, TENNs streamline models, expedite training processes and significantly diminish memory requirements, achieving notable reductions of up to 50x in parameters and 5,000x in energy consumption compared to prevailing methodologies like transformers.
Integration with BrainChip’s Akida neuromorphic hardware IP further enhances TENNs’ capabilities, enabling the realization of highly capable, portable and passively cooled edge devices. This presentation delves into the technical innovations underlying TENNs, presents real-world benchmarks, and elucidates how this cutting-edge approach is positioned to revolutionize edge AI across diverse applications.
Building Production Ready Search Pipelines with Spark and MilvusZilliz
Spark is the widely used ETL tool for processing, indexing and ingesting data to serving stack for search. Milvus is the production-ready open-source vector database. In this talk we will show how to use Spark to process unstructured data to extract vector representations, and push the vectors to Milvus vector database for search serving.
leewayhertz.com-AI in predictive maintenance Use cases technologies benefits ...alexjohnson7307
Predictive maintenance is a proactive approach that anticipates equipment failures before they happen. At the forefront of this innovative strategy is Artificial Intelligence (AI), which brings unprecedented precision and efficiency. AI in predictive maintenance is transforming industries by reducing downtime, minimizing costs, and enhancing productivity.
Skybuffer SAM4U tool for SAP license adoptionTatiana Kojar
Manage and optimize your license adoption and consumption with SAM4U, an SAP free customer software asset management tool.
SAM4U, an SAP complimentary software asset management tool for customers, delivers a detailed and well-structured overview of license inventory and usage with a user-friendly interface. We offer a hosted, cost-effective, and performance-optimized SAM4U setup in the Skybuffer Cloud environment. You retain ownership of the system and data, while we manage the ABAP 7.58 infrastructure, ensuring fixed Total Cost of Ownership (TCO) and exceptional services through the SAP Fiori interface.
Salesforce Integration for Bonterra Impact Management (fka Social Solutions A...Jeffrey Haguewood
Sidekick Solutions uses Bonterra Impact Management (fka Social Solutions Apricot) and automation solutions to integrate data for business workflows.
We believe integration and automation are essential to user experience and the promise of efficient work through technology. Automation is the critical ingredient to realizing that full vision. We develop integration products and services for Bonterra Case Management software to support the deployment of automations for a variety of use cases.
This video focuses on integration of Salesforce with Bonterra Impact Management.
Interested in deploying an integration with Salesforce for Bonterra Impact Management? Contact us at sales@sidekicksolutionsllc.com to discuss next steps.
Digital Banking in the Cloud: How Citizens Bank Unlocked Their MainframePrecisely
Inconsistent user experience and siloed data, high costs, and changing customer expectations – Citizens Bank was experiencing these challenges while it was attempting to deliver a superior digital banking experience for its clients. Its core banking applications run on the mainframe and Citizens was using legacy utilities to get the critical mainframe data to feed customer-facing channels, like call centers, web, and mobile. Ultimately, this led to higher operating costs (MIPS), delayed response times, and longer time to market.
Ever-changing customer expectations demand more modern digital experiences, and the bank needed to find a solution that could provide real-time data to its customer channels with low latency and operating costs. Join this session to learn how Citizens is leveraging Precisely to replicate mainframe data to its customer channels and deliver on their “modern digital bank” experiences.
Freshworks Rethinks NoSQL for Rapid Scaling & Cost-EfficiencyScyllaDB
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Are you ready to revolutionize how you handle data? Join us for a webinar where we’ll bring you up to speed with the latest advancements in Generative AI technology and discover how leveraging FME with tools from giants like Google Gemini, Amazon, and Microsoft OpenAI can supercharge your workflow efficiency.
During the hour, we’ll take you through:
Guest Speaker Segment with Hannah Barrington: Dive into the world of dynamic real estate marketing with Hannah, the Marketing Manager at Workspace Group. Hear firsthand how their team generates engaging descriptions for thousands of office units by integrating diverse data sources—from PDF floorplans to web pages—using FME transformers, like OpenAIVisionConnector and AnthropicVisionConnector. This use case will show you how GenAI can streamline content creation for marketing across the board.
Ollama Use Case: Learn how Scenario Specialist Dmitri Bagh has utilized Ollama within FME to input data, create custom models, and enhance security protocols. This segment will include demos to illustrate the full capabilities of FME in AI-driven processes.
Custom AI Models: Discover how to leverage FME to build personalized AI models using your data. Whether it’s populating a model with local data for added security or integrating public AI tools, find out how FME facilitates a versatile and secure approach to AI.
We’ll wrap up with a live Q&A session where you can engage with our experts on your specific use cases, and learn more about optimizing your data workflows with AI.
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HCL Notes and Domino License Cost Reduction in the World of DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-and-domino-license-cost-reduction-in-the-world-of-dlau/
The introduction of DLAU and the CCB & CCX licensing model caused quite a stir in the HCL community. As a Notes and Domino customer, you may have faced challenges with unexpected user counts and license costs. You probably have questions on how this new licensing approach works and how to benefit from it. Most importantly, you likely have budget constraints and want to save money where possible. Don’t worry, we can help with all of this!
We’ll show you how to fix common misconfigurations that cause higher-than-expected user counts, and how to identify accounts which you can deactivate to save money. There are also frequent patterns that can cause unnecessary cost, like using a person document instead of a mail-in for shared mailboxes. We’ll provide examples and solutions for those as well. And naturally we’ll explain the new licensing model.
Join HCL Ambassador Marc Thomas in this webinar with a special guest appearance from Franz Walder. It will give you the tools and know-how to stay on top of what is going on with Domino licensing. You will be able lower your cost through an optimized configuration and keep it low going forward.
These topics will be covered
- Reducing license cost by finding and fixing misconfigurations and superfluous accounts
- How do CCB and CCX licenses really work?
- Understanding the DLAU tool and how to best utilize it
- Tips for common problem areas, like team mailboxes, functional/test users, etc
- Practical examples and best practices to implement right away
This presentation provides valuable insights into effective cost-saving techniques on AWS. Learn how to optimize your AWS resources by rightsizing, increasing elasticity, picking the right storage class, and choosing the best pricing model. Additionally, discover essential governance mechanisms to ensure continuous cost efficiency. Whether you are new to AWS or an experienced user, this presentation provides clear and practical tips to help you reduce your cloud costs and get the most out of your budget.
GeoDC Maker Talks: GPS-Enabled Sensor Platforms using Arduino
1. GeoDC: Maker
Edition
Open Source Hardware Hacking With
Arduino: Building GPS-enabled Sensor
Platforms For The Internet of Things
Dave Smith - @druidsmith
http://www.meetup.com/Geo-DC/events/219604422/
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.