Feeling the sound


Man playing violin

Editor's note: This story originally appeared in the fall 2023 issue of ASU Thrive magazine.

For years, violinist Seth Thorn, a clinical assistant professor in the School of Arts, Media and Engineering, wanted to expand how people play, learn and perform on instruments. Two years ago, he invented a device called an active shoulder rest to transmit the feel of the violin’s sound to a player’s upper body. The revised version also includes small speakers. 

“The speakers balance the sound,” Thorn says. “You get the vibration on your shoulder. You get the actuation of the violin in the upper body and the diffusion of sound more spatially.”

Close up of violin with feedback device

The active violin rest uses haptics so the performer can experience the sound in their body.

Feeling the sound coming out of the violin

The active shoulder rest easily integrates into current violin playing because most violinists already use a shoulder rest to ease neck strain. A key feature is that it works with a violin’s traditional sound and strengths.

“Most of the haptic information you get with a violin is from the mechanoreceptors in your fingertips,” Thorn explains. “So adding haptic feedback felt by the collarbone and neck doesn’t disrupt those natural dynamics. It just adds feedback.”

Thorn’s active shoulder rest serves as a silent metronome, allowing musicians experimenting with digital sound and people with sensory impairments or learning difficulties to entrain rhythm — in other words, to feel the music’s beat.

It also helps students more fully fall in love with the violin. In addition to learning scales and practicing sheet music, some students use it to expand into playing something they’ve heard by ear or to improvise, Thorn says.

“One of the students we worked with at Rosie’s House, when she plucks the violin and feels the sound, her eyes are just like, ‘Oh, my gosh!’” Thorn says.

Initially, Thorn made six active shoulder rests by hand with a colleague from the School of Arts, Media and Engineering. In 2022, he began sharing the active shoulder rests with Rosie’s House, a free musical academy for children in Phoenix. With a $10,000 seed grant from the Herberger Institute for Design and the Arts, the project is expanding and providing 3D-printed active shoulder rest devices, additional tools and music assistants from Thorn’s classes to more Valley schools.

Creating something new

The newest version of the active shoulder rest adds speakers. The various components enable digital musicians to add loops and background rhythms and then play music over them. Thorn compares the latest version of the shoulder rest to a combination of a guitar pedal and haptic device. 

This technology gives players numerous ways to experiment. Thorn offers this anecdote: When a teacher and a student began using it for the first time, one of Thorn’s research assistants put on a repeating musical loop that the player both felt and heard through the violin.

“The student started. And I think the teacher was kind of sitting there, a little skeptical. Just like, what’s going to happen now. And the student started improvising a melody on top of the loop,” Thorn says. “And the teacher started crying because it’s such an emotional thing in this classical music world to see that the student has another side, the ability to improvise.”

Thorn explains that the traditional way of learning the violin is to rehearse, perform in a recital and repeat. The active shoulder rest offers more ways to learn and grow.

“We’re bringing it to the ASU String Project next,” Thorn says.

The mission of the ASU School of Music, Dance and Theatre String Project is to offer low-cost, high-quality instruction on orchestral stringed instruments.

“Most of the haptic information you get with a violin is from the mechanoreceptors in your fingertips. So adding haptic feedback felt by the collarbone and neck doesn’t disrupt those natural dynamics. It just adds feedback.”

— Seth Thorn, clinical assistant professor 

The musical future

Soon, the newest version also will be Bluetooth-enabled, eliminating wires.

“The Bluetooth speaker will push the limits of the violin even more, creating a whole new instrument,” Thorn says. 

How else does it make a difference? For composing music and performing, he adds.

“I picture something like a whole orchestra of them. And you’re adding a little magic and fairy dust, and people wonder, ‘What is that?’ I imagine the orchestra almost sparkling.”

Top photo: Violinist Seth Thorn, a clinical assistant professor in the School of Arts, Media and Engineering, invented and patented a device called an active shoulder rest to transmit the feel of the violin’s sound to a player’s upper body. Photos by Brandon Sullivan

More Science and technology

 

Two men in clean room suits work in a lab

ASU-led Southwest Advanced Prototyping Hub awarded $21.3M for 2nd year of funding for microelectronics projects

The Southwest Advanced Prototyping (SWAP) Hub, led by Arizona State University, has been awarded $21.3 million in Year 2 funding under the CHIPS and Science Act to continue its work advancing the…

Scientist looking at a beaker.

Celebrating '20 Years of Discovery' at the Biodesign Institute

Editor’s note: The Biodesign Institute at Arizona State University wraps up its 20th anniversary with the sixth and final installment of its "20 Years of Discovery" series. Each story highlights…

David McComas in a lab

Student research supports semiconductor sustainability

As microelectronics have become an increasingly essential part of modern society, greenhouse gas emissions, which are associated with their use and manufacture, have increased in tandem.…