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Pixel VGA, version 1 (Floor Cluster) - Garnet Hertz
Two dozen old computer monitors occupy the center of a gallery floor in a cluster facing the wall. Each screen is controlled with custom electronics to create pulsating and strobing patterns, casting a colored wash across the darkened gallery.
Dimensions: Variable (approx 3m x 3m). VGA monitors, custom electronics. 2011.
More project information: conceptlab.com/pixel/
Arduino is een opensource-computerplatform dat is opgebouwd rond de ATmega168-microcontroller van Atmel en het softwareontwikkelplatform Processing. Dit platform is bedoeld voor hobbyisten, artiesten, kunstenaars en iedereen die geïnteresseerd is in het maken en ontwerpen van slimme en creatieve objecten die kunnen reageren op hun omgeving.
Met Arduino is het mogelijk apparaten en objecten te creëren die reageren op hun omgeving door middel van digitale en analoge inputsignalen. Op basis van deze input kan een Arduinoschakeling autonome actie initiëren door het afgeven van digitale en analoge outputsignalen. Input kan bijvoorbeeld worden gegenereerd door schakelaars, lichtsensoren, bewegingsmeters, afstandsmeters, temperatuursensoren, of op basis van commando's afkomstig van internet, een radiomodule of een ander apparaat met een seriële interface. Outputsignalen kunnen bijvoorbeeld motoren, lampjes, pompjes en beeldschermen aansturen, maar ook input genereren voor een andere Arduinomodule.
Daarnaast bestaan ook zogenaamde "shields". Deze integreren vaak verschillende sensoren en modules in één printplaat. Deze kan dan gemakkelijk op de Arduino aangesloten worden door hem te plaatsen op de input-/outputpinnen van de Arduino. Vele van deze shields worden verkocht als kit en dienen dus zelf nog gesoldeerd te worden. Veelvoorkomend zijn de wifi- en gps-kits. Naast deze kits kan ook een ProtoShield gekocht worden die dienstdoet als breadboard om op te experimenteren.
This hands-on design module course introduce students to microcontroller platforms like Arduino. Students meet weekly to learn the basics behind programming the microcontroller development board, use of external programs to support development of controlled systems and build circuits using the platform in the design of simple control systems. Instructor: Dr. Jennifer Choi, UC Davis Department of Biomedical Engineering.
This hands-on design module course introduce students to microcontroller platforms like Arduino. Students meet weekly to learn the basics behind programming the microcontroller development board, use of external programs to support development of controlled systems and build circuits using the platform in the design of simple control systems. Instructor: Dr. Jennifer Choi, UC Davis Department of Biomedical Engineering.
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This hands-on design module course introduce students to microcontroller platforms like Arduino. Students meet weekly to learn the basics behind programming the microcontroller development board, use of external programs to support development of controlled systems and build circuits using the platform in the design of simple control systems. Instructor: Dr. Jennifer Choi, UC Davis Department of Biomedical Engineering.
Found this in an old dot matrix printer and I wanted to use it. The pinouts weren't listed but the grouping was suspicious, and I was able to guess this was a nibble wired HD44780 class controller -- I was right!
Building another serial-display project, but with an easy-to-program microcontroller at the end of the line.
Tonight was just relaxing while attaching the wires. Tomorrow I'll drop in the parallel LCD code and put some logic around that to do something fun.
This hands-on design module course introduce students to microcontroller platforms like Arduino. Students meet weekly to learn the basics behind programming the microcontroller development board, use of external programs to support development of controlled systems and build circuits using the platform in the design of simple control systems. Instructor: Dr. Jennifer Choi, UC Davis Department of Biomedical Engineering.
This hands-on design module course introduce students to microcontroller platforms like Arduino. Students meet weekly to learn the basics behind programming the microcontroller development board, use of external programs to support development of controlled systems and build circuits using the platform in the design of simple control systems. Instructor: Dr. Jennifer Choi, UC Davis Department of Biomedical Engineering.
Turned a Rubbermaid food storage container into a case to carry my Arduino in my bag on my bicycle.
For Bread Bike Blog
This hands-on design module course introduce students to microcontroller platforms like Arduino. Students meet weekly to learn the basics behind programming the microcontroller development board, use of external programs to support development of controlled systems and build circuits using the platform in the design of simple control systems. Instructor: Dr. Jennifer Choi, UC Davis Department of Biomedical Engineering.
The SBS-52A single-board computer featured in www.flickr.com/photos/toonfox42/8895027050/in/set-7215763... hooked up and working.
Tom Igoe, one of the co-creators of the Arduino board, talking to Amogha Srirangarajan, the CEO of Carbon Origins and one of the creators of the newest Arduino at Heart boards—an open source data logger they've been using to log data from their rocket launches.
Topics include history of digital art, microcontroller programming, basic electronics & sensors.
An intensive studio course, which focuses upon developing innovative processes for understanding and deploying a range of software and hardware based real-time I/O and electromechanical tools within the context of contemporary experimental art practice. The course covers real-time systems programming and basic digital/ analog electronics and looks to locate the usage of these within a wider aesthetic framework. In building a critical language with which to analyze relationships between real and virtual, static and mobile, local and remote, online and offline, students are encouraged to implement new tools, new systems and new presentational scenarios for performance, art installations, and other digital arts applications. The concentration in this class is on prepackaged but flexible tools, and rapid prototyping processes.
課程內容包括數位藝術歴史、單片微型計算機程式設計、基本感應器及電子。
此工作坊以精研的形式,透過創新學習過程重點教授一系列於當代實驗藝術廣泛使用的軟件及硬件的實時輸入/輸出及電機用具。課程將包括實時聲音程式設計、基本模似/數位電子知識及其於藝術層面上之應用。為發展對真與假;動與靜;在地與流動;在線與離線的批評思考,課程將鼓勵學員運用新的工具、程式、表現手法於行為藝術、藝術裝置及其他數位藝術應用。課程將著重於簡便但靈活的程式設計環境。
Photos from our craft room. This is a dump of photos from my phone. Many may be duplicates or similar angles.
Using over 30 batteries, 80 LEDs, 4 microcontrollers and one embedded computer, volunteers and staff in the Jocelyn H. Lee Innovation Lab prepared an attention-grabbing presentation for the 2016 Texas Library Association Poster Session. The poster presented various ways to use LEDs in maker projects, had embedded QR codes for viewers to access additional information on each topic, and was even interactive - participants could change LED colors by sending appropriate Tweets,
Thank you everyone who helped make this presentation a success.
This hands-on design module course introduce students to microcontroller platforms like Arduino. Students meet weekly to learn the basics behind programming the microcontroller development board, use of external programs to support development of controlled systems and build circuits using the platform in the design of simple control systems. Instructor: Dr. Jennifer Choi, UC Davis Department of Biomedical Engineering.
This hands-on design module course introduce students to microcontroller platforms like Arduino. Students meet weekly to learn the basics behind programming the microcontroller development board, use of external programs to support development of controlled systems and build circuits using the platform in the design of simple control systems. Instructor: Dr. Jennifer Choi, UC Davis Department of Biomedical Engineering.
Bogdan Marinescu and Raman Gopalan's talk on eLua at FOSDEM 2012 running from an ARM Microcontroller!
Installed in garage to run a DS1620 temperature sensor mounted outside. Connected to Howie via CAT5 wiring plant.
The chipKIT™ Max32 is a prototyping platform that adds the performance of the Microchip® PIC32 microcontroller. The Max32 features a USB serial port interface for connection to the IDE and can be powered via USB or an external power supply.
The Max32 board takes advantage of the powerful PIC32MX795F512 microcontroller, which features a 32-bit MIPS processor core running at 80 MHz, 512K of flash program memory and 128K of SRAM data memory. In addition, the processor provides a USB 2 OTG controller, 10/100 Ethernet MAC and dual CAN controllers that can be accessed via add-on I/O shields.
store.digilentinc.com/chipkit-max32-microcontroller-board...