Arduino Workshop with Lukas Flory: Difference between revisions
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{{#vardefine:HeaderBildURL|Arduino.jpg}} | |||
In January, we had a 3-day-workshop led by [https://www.linkedin.com/in/lukas-flory-b82480a2/?original_referer=https%3A%2F%2Fwww%2Egoogle%2Ecom%2F&originalSubdomain=de Lukas Flory], which provided us with an invaluable opportunity to delve into the realm of Arduino technology and sensorics. Throughout the workshop, we gained insights into the versatile applications of [https://de.wikipedia.org/wiki/Arduino_(Plattform) Arduino] and explored various sensoric capabilities inherent in the device. | |||
Under Lukas Flory's guidance, we embarked on a journey of creative exploration, conceiving and crafting our own unique Flora-inspired mechanisms. Drawing inspiration from the intricate functionalities of Flora's sensorics, we meticulously designed models that mirrored the essence and attributes of Flora. | |||
== Technology, sensorics, product design, and coding == | |||
Beyond the realm of mere ideation, the workshop facilitated hands-on experience in product design and prototyping. Participants delved into the intricacies of building physical models, gaining practical skills that bridged the conceptual with the tangible. | |||
Furthermore, the workshop provided a comprehensive introduction to Arduino coding, specifically utilizing the [https://joy-it.net/de/products/SBC-NodeMCU NodeMcu ESP8266] model. This equipped participants with the essential knowledge and skills to program and control their creations effectively. Through practical exercises and demonstrations, attendees grasped the fundamentals of Arduino programming, laying a solid foundation for future projects and endeavors. | |||
Overall, the workshop served as a catalyst for innovation, fostering a collaborative environment where creativity flourished, and participants emerged with newfound expertise in Arduino technology, sensorics, product design, and coding. | |||
''Below, you will find a showcase of all the projects that emerged from the workshop. This includes photos capturing the creative process and videos showcasing the final products.'' | |||
</br></br> | |||
[[File:MushroomVideo.mp4|frameless]] | |||
[[File:Giesela.mp4|frameless]] | |||
[[File:Dornenpflanze.mp4|frameless]] | |||
[[File:Giselas Schwester.mp4|frameless]] | |||
[[File:Siebträgermaschine.mp4|frameless]] | |||
[[File:Henri 1.mp4|frameless]] | |||
</br> | |||
== Henri die fleischfressende Pflanze == | |||
By [[User:Niklas|Niklas]] and [[User:Sina|Sina]] | |||
Sensorics in use: IR Infrared Obstacle Detection Distance Sensor | |||
Description: The plant retracts for protection when approached, then slowly opens up to the sun again in an innovative manner. This is achieved through a sophisticated mechanism made of paper, fishing line, and several servo motors. | |||
</br></br> | |||
[[File:NikSin.jpg|class=half-width grayscale|upright=3.0|frameless]] | [[File:NikSin.jpg|class=half-width grayscale|upright=3.0|frameless]] | ||
[[File:NikSin2.jpg|class=half-width grayscale|upright=3.0|frameless]] | [[File:NikSin2.jpg|class=half-width grayscale|upright=3.0|frameless]] | ||
</br></br> | |||
== Bloom the Mushroom Lamp == | |||
By [[User:Max|Max]] and [[User:Diep217|Diep]] | |||
Sensorics in use: IR Infrared Obstacle Detection Distance Sensor | |||
Description: The model was designed to mimic the growth mechanism of an [[wikipedia:Pleurotus_ostreatus|oyster mushroom]]. By using an infrared distance sensor, the "mushroom" responds to proximity; as you approach, the fungi appear to "grow." This effect is achieved by a string mechanism that lifts the paper structure with linear ridges, simulating the natural expansion of a mushroom. On top of the mushroom, there is a light that operates on the same mechanism. It illuminates as you move closer to it. | |||
</br></br> | |||
[[File:Mushroom1.jpg|class=half-width grayscale|upright=3.0|frameless]] | [[File:Mushroom1.jpg|class=half-width grayscale|upright=3.0|frameless]] | ||
[[File:Mushroom2.jpg|class=half-width grayscale|upright=3.0|frameless]] | [[File:Mushroom2.jpg|class=half-width grayscale|upright=3.0|frameless]] | ||
[[File:Mushroom3.jpg|class= | [[File:Mushroom3.jpg|class=third-width grayscale|upright=3.0|frameless]] | ||
[[File:Mushroom4.jpg|class= | [[File:Mushroom4.jpg|class=third-width grayscale|upright=3.0|frameless]] | ||
[[File:Mushroom5.jpg|class=third-width grayscale|upright=3.0|frameless]] | |||
</br> | |||
== Doch Keine Siebträgermaschine == | |||
by [[User:Zeno|Zeno]] and [[User:MaLeen|Maleen]] | |||
Sensorics in use: | |||
Description: | |||
</br></br> | |||
[[File:Siebträgermaschine 2.jpg|frameless|class=half-width grayscale]] | |||
[[File:Zeno Siebträger.jpg|frameless|class=half-width grayscale]] | |||
</br></br> | |||
== Gisela == | |||
by [[User:Bastian|Basti]], [[User:Sophie|Sophie]] and [[User:Jule|Jule]] | |||
Sensorics in use: | |||
Description: | |||
== Berührmichnicht == | |||
by [[User:Danja|Danja]], [[User:Julian|Julian]], [[User:Timo|Timo]] | |||
Sensorics in use: IR Infrared Obstacle Detection Distance Sensor | |||
Description: Berührmichnicht dislikes being touched, but when it is, it reveals its true beauty. | |||
</br></br> | |||
[[File:Gisella.jpg|class=half-width grayscale|frameless]] | |||
[[File:Gisella 3.jpg|class=half-width grayscale|frameless]] | |||
</br></br> | |||
== Kaktus == | |||
by [[User:Lina|Lina]] and [[User:Corinna|Corinna]] | |||
Sensorics in use: IR Infrared Obstacle Detection Distance Sensor | |||
Description: The thorny plant appears harmless with its cardboard look, but beware! As you get closer, the thorns suddenly appear. This installation contrasts external innocuousness with actual defensiveness. | |||
</br></br> | |||
[[File:Dornenpflanze 2.jpg|class=half-width grayscale|frameless]] | |||
[[File:Kaktus.jpg|class=half-width grayscale|frameless]] | |||
</br></br> | |||
[[Category:Cloud]] | |||
Latest revision as of 14:00, 20 August 2024
In January, we had a 3-day-workshop led by Lukas Flory, which provided us with an invaluable opportunity to delve into the realm of Arduino technology and sensorics. Throughout the workshop, we gained insights into the versatile applications of Arduino and explored various sensoric capabilities inherent in the device. Under Lukas Flory's guidance, we embarked on a journey of creative exploration, conceiving and crafting our own unique Flora-inspired mechanisms. Drawing inspiration from the intricate functionalities of Flora's sensorics, we meticulously designed models that mirrored the essence and attributes of Flora.
Technology, sensorics, product design, and coding
Beyond the realm of mere ideation, the workshop facilitated hands-on experience in product design and prototyping. Participants delved into the intricacies of building physical models, gaining practical skills that bridged the conceptual with the tangible.
Furthermore, the workshop provided a comprehensive introduction to Arduino coding, specifically utilizing the NodeMcu ESP8266 model. This equipped participants with the essential knowledge and skills to program and control their creations effectively. Through practical exercises and demonstrations, attendees grasped the fundamentals of Arduino programming, laying a solid foundation for future projects and endeavors.
Overall, the workshop served as a catalyst for innovation, fostering a collaborative environment where creativity flourished, and participants emerged with newfound expertise in Arduino technology, sensorics, product design, and coding.
Below, you will find a showcase of all the projects that emerged from the workshop. This includes photos capturing the creative process and videos showcasing the final products.
Henri die fleischfressende Pflanze
Sensorics in use: IR Infrared Obstacle Detection Distance Sensor
Description: The plant retracts for protection when approached, then slowly opens up to the sun again in an innovative manner. This is achieved through a sophisticated mechanism made of paper, fishing line, and several servo motors.
Bloom the Mushroom Lamp
Sensorics in use: IR Infrared Obstacle Detection Distance Sensor
Description: The model was designed to mimic the growth mechanism of an oyster mushroom. By using an infrared distance sensor, the "mushroom" responds to proximity; as you approach, the fungi appear to "grow." This effect is achieved by a string mechanism that lifts the paper structure with linear ridges, simulating the natural expansion of a mushroom. On top of the mushroom, there is a light that operates on the same mechanism. It illuminates as you move closer to it.
Doch Keine Siebträgermaschine
Sensorics in use:
Description:
Gisela
Sensorics in use:
Description:
Berührmichnicht
Sensorics in use: IR Infrared Obstacle Detection Distance Sensor
Description: Berührmichnicht dislikes being touched, but when it is, it reveals its true beauty.
Kaktus
Sensorics in use: IR Infrared Obstacle Detection Distance Sensor
Description: The thorny plant appears harmless with its cardboard look, but beware! As you get closer, the thorns suddenly appear. This installation contrasts external innocuousness with actual defensiveness.
