Capturing and processing vibrations
Context
Starting from choreographer Anne Juren's work Sensorial Transference, Anne Juren, Paul Kotal (sound designer) and Bruno Pocheron (lighting designer) came together in Tanzhalle Wiesenburg in January 2023 for a ten days residency focused on interfacing with vibrations inherent to objects and rooms, addressing the relation between inside and outside spaces . Marc Lagies (programmer) and Marcello Silvio Busato (musician) contributed to that research.
Initial concepts
In Sensorial Transference we used the term of trans-corporealities, which refers to the ways bodies are interconnected and influenced by each other in a co-regulated way. That phenomenon often happens during a soma-therapeutic treatment. For example the heart beats of the patient and the practitioner start synchronising during a session.
We were interested in exploring how those interconnections can also be applied to spaces and objects, which are affected by their environment (the outside) and the resonance of the materials they are made of (the inside). For that we focused on the notion of vibration within and beyond the audible and visible ranges, and tried out electro-mechanical ways of creating an artificial trans-corporeality between objects and spaces. A similar approach can be found e.g. in the works of Bill Fontana. https://ars.electronica.art/planetb/de/silent-echoes-notre-dame/
We set up to expand these interconnections over time and to relocate them in media specific to our practices.
Set up / Implementation
We concentrated on metallic objects such as a gong, fire bowls and singing bowls for their properties of capturing, filtering and transposing/transporting vibrations in the audible domain. We also treated the whole space of Tanzhalle Wiesenburg as a resonating body. For now we used piezo sensors and microphones to capture vibrations, transducers and speakers to amplify and displace them, incandescent lighting bulbs and LED fixtures to translate them in the visible spectrum.
In our experimental set up we used mainly two objects as sound inputs:
- a gong placed on the roof of the studio equipped with a piezo sensor, capturing the sonic environment (trains from afar, birds, sirens, conversations of neighbours, kids playing, church bells, a wedding cortege, etc.)
- a singing bowl placed in the room equipped with a dynamic microphone and played as an instrument.
Sound treatment applied to the input from the gong:
- eQing in order to clean the signal of parasite noise and to compensate for overly present resonances.
- heavy compression to enhance the atmospheric sounds and avoid clipping
- transient shaping to extend the natural sustain of the gong
- noise reduction
Sound treatment applied to the inputs of the singing bowl:
- a set of heavy compression with a fairly fast attack to smooth out the inherent tremolo
- a steep lowCut filter at 200 Hz to protect the incandescent lighting bulbs
- 3 tremolos tuned to the tempo/wavelength of the inherent frequencies. Resulting in a 1/4 note tremolo for the root note, a 1/8 tremolo for the first harmonic and a 1/16 note tremolo for the second harmonic at a tempo of 90.90 bpm.
- those tremolos were inserted on separated mixer buses with eQs tuned to the frequency spectrum of the root note and the two upper harmonics.
Additionally we used the intensity and color temperature of light to modify the tonal spectrum of resonating objects and the decay time of their resonances.