USING ACOUSTIC EFFECT CONVERSION TO GENERATE LOW FREQUENCY SOUNDS WITH A SET OF TUNING FORKS

Organization Name

JANSEN MICHAEL

Inventor(s)

MICHEL BUDI Wirjatmo of TANGERANG (ID)

USING ACOUSTIC EFFECT CONVERSION TO GENERATE LOW FREQUENCY SOUNDS WITH A SET OF TUNING FORKS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240212660 titled 'USING ACOUSTIC EFFECT CONVERSION TO GENERATE LOW FREQUENCY SOUNDS WITH A SET OF TUNING FORKS

Simplified Explanation:

This patent application describes a computer system that translates audio input into low-frequency vibrations using an acoustic effect conversion. The system includes a signal generator connected to the computer, which drives a set of electromagnetic actuators coupled to a set of tuning forks. When the actuators are activated, the tuning forks vibrate in response to the audio input.

• The computer translates audio input into low-frequency vibrations using an acoustic effect conversion.
• A signal generator connected to the computer drives electromagnetic actuators coupled to tuning forks.
• The tuning forks vibrate in response to the electrical signal generated by the signal generator.
• The system may use digital instructions such as MIDI and may include a sequencer.
• The audio input may be in the form of a digital analog file such as .wav or mp3.
• The tuning forks are arranged in a circular pattern on a plane, pointing away from the center.

Potential Applications:

This technology could be used in music production, sound therapy, and interactive installations where audio input needs to be translated into physical vibrations.

Problems Solved:

This technology provides a unique way to convert audio input into physical vibrations, allowing for new creative possibilities in various applications.

Benefits:

The system offers a novel way to interact with audio input, creating a tactile and immersive experience for users. It opens up new avenues for artistic expression and sensory exploration.

Commercial Applications:

Title: Innovative Audio-to-Vibration Conversion Technology for Music Production and Interactive Installations

This technology could be commercialized for use in music production studios, sound therapy centers, and interactive art installations. It has the potential to enhance user experiences and create new opportunities for creative expression in various industries.

Prior Art:

Prior research in the field of audio-to-vibration conversion technologies may include studies on haptic feedback systems, vibration-based interfaces, and acoustic signal processing methods.

Frequently Updated Research:

Researchers are constantly exploring new ways to improve audio-to-vibration conversion technologies, such as enhancing the accuracy of vibration patterns, optimizing signal processing algorithms, and expanding the range of applications for this technology.

Questions about Audio-to-Vibration Conversion Technology:

1. How does this technology compare to existing audio-to-vibration conversion systems? 2. What are the potential limitations or challenges of implementing this technology in real-world applications?

Original Abstract Submitted

a computer configured for translating an audio input into a low frequency output using an acoustic effect conversion with a signal generator connected to the computer that takes the low frequency output and generates an electrical signal to drive a set of electromagnetic actuator couple to a set of n tuning forks, such that when the electromagnetic actuators are driven by the electrical signal the coupled tuning forks vibrate. the acoustic effect conversion translates the audio input into digital instructions, such as midi and may use a sequencer. the audio input may have a frequency is and the electrical output signal may have a frequency lf and lf=is/n, where n maybe 9 or 12. the audio input may use a digital analog file such as .wav or mp3. the n tuning forks may be in a circular pattern on a plane pointing away from the center.