The Arduino Infrared touchscreen music controllers are a new and advanced way to play music. The design was created by the Instructables user Amandaghassaei with a touchscreen design layout. It features 64 LEDs to provide visual feedback of what and how the user touches the screen to work. The built-in sensor array allows you to tweak the settings and use them for other operations but not just touch feedback.
This device also allows scanning through the sensors so you can determine the x and y position of the touch events that are happening. For those interested in learning about music apps, these touchscreen music controllers would be best suited for new DJs starting out in the musical industry.
Infrared Touchscreen Music Controllers
The Arduino Music Controller Has an Infrared Touchscreen
Trend Themes
1. Infrared Touchscreen Music Controllers - Infrared touchscreen technology paired with music controllers provide the opportunity for enhanced sensory feedback, increasing user engagement and potential for creative music production.
2. DIY Arduino Music Controllers - The availability of DIY Arduino music controller designs allows for open-source customization and innovation, enabling a wider range of individuals to participate in the musical industry.
3. Sensor Array Integration - The integration of sensor arrays into music controllers provides opportunities for enhanced functionality beyond touch feedback, allowing for new applications in music production and beyond.
Industry Implications
1. Music Production - Infrared touchscreen music controllers have the potential to disrupt and innovate the music production industry by providing more engaging, customizable, and intuitive music production tools.
2. DIY Electronics - The creation and availability of DIY Arduino music controller designs provides opportunities for innovation in the DIY electronics and maker industries.
3. Sensor Technology - Sensor array integration into music controllers allows for expanded applications in the tech and sensor technology industries beyond musical applications.