Bowerbird is pleased to co-present Gene Coleman’s program Experiments in Neuroaesthetics: Evoking Voices from Biological Systems.

In the music of Giacinto Scelsi, Luigi Nono and Pauline Oliveros, and in the films of Stan Brakhage, there was a desire to reveal the “inner voices”. Working with new biodata technologies and systems, we reach a new reality, where the inner voices of the body, mind, via biological systems, can be Evoked – seen and heard in unprecedented ways. How can we create music and art in this new reality? This program shows three different approaches, which are linked by use of The Source, a Biodata device that can translate electric biorhythms into various media. The program features work by: KAVI (Ilze Briede), The Quantum Global Organoid Orchestra (q.GOO), and The Neuro Music Ensemble Conjure.

PROGRAM

KAVI: Emergent Feedback Loops: Cybernetics and the Human Brain

qGOO (Quantum Global Organoid Orchestra): q.GOO_ PhiladelphiaNeuroMusicAI/42026

Gene Coleman: EVOCARE (2026) for string quartet and neuro electronics
Conjure Neuro Music Ensemble + Guests
Adam Vidiksis, Neuro electronics
Sam Wells, Neuro electronics
Tom Kraines, Cello
Gene Coleman (Composition and Direction)
With special guests
Melinda Rice and Molly Germer, Violins
Maren Rothfritz, Viola

ABOUT THE PROGRAM

KAVI (Ilze Briede), a Latvian–Canadian artist and researcher working across visual art, digital design, interactive installation, and live audiovisual performance. Her work Emergent Feedback Loops: Cybernetics and the Human Brain, uses her biodata to generate complex visual structures, accompanied by improvisational responses from musicians. Her work examines how physiological data—such as brain activity and other biosignals—can function as generative inputs for artistic systems. This performance presents ongoing dissertation research and a research-creation inquiry within computational arts, exploring the integration of live human brain data into cybernetic systems. Drawing on unprocessed neural signals, the work resists reductionist models of data interpretation and knowledge construction, aiming to create more authentic, unpredictable experiences that foreground emergence, unpredictability, and co-evolution. A feedback loop among performers, the computational system, and spectators forms a dynamic, interdependent ecology in which visual, sonic, and spatial elements continuously evolve in real time. This research is supported by a developing biophysical sensing device from BioMECI called The Source, designed to collect and translate physiological signals into performative outputs. Through this system, brain activity becomes an active agent within a cybernetic environment, enabling new forms of interaction and perception. Positioned at the intersection of art, science, and technology, this work proposes a framework for data-driven performance centered on relationality, embodiment, and collective world-building.

The Quantum Global Organoid Orchestra (q.GOO) presents its composition
q.GOO_PhiladelphiaNeuroMusicAI/42026. This work extends contemporary practice in media art, neuroscience, and AI by making perceptible the hidden rhythms of living neural matter and prompting new questions about perception, agency, and the future of embodied computation.

The Neuro Music Ensemble Conjure performs EVOCARE, a composition by Gene Coleman for string quartet and neuro electronics. Coleman calls this “Neuro Music” – music modeled on the auditory pathways of the brain and nervous system. EVOCARE reveals the inner voices of the body and mind using a new Biodata technology called The Source, which translates our nervous system rhythms into sound. EVOCARE is a dynamic dialog between acoustic music and the Biorhythms of perception, interoception, affect, emotion and thought.

This program is produced by The Institute for Music and Neuroaesthetics, Bowerbird and The Rotunda

ABOUT THE ARTISTS

Ilze Briede (artist name Kavi) is a Latvian–Canadian artist and researcher working across visual art, digital design, interactive installation, and live audiovisual performance. Her creative and pedagogical practice engages with biophysical sensing, creative coding, and projection-based media to explore the aesthetic and epistemological potential of physiological data. Kavi is currently a PhD candidate in Digital Media at York University, Toronto, where her research investigates the design of cybernetic systems for performance and immersive narrative environments driven by real-time biophysical signals. Her work examines how physiological data—such as brain activity and other biosignals—can function as generative inputs for artistic systems, enabling alternative modes of perception, participation, and knowledge production.
www.ka-vi.com/

Gene Coleman is a composer, musician and director. Among his Awards: Guest Composer at Chigiana International Festival (2026), Composer in Residence at Contemporanea Monferrato (2024), New Jersey Arts Council Fellowship (2024), Nichibei Creative Arts Fellow (2021 and 2001), Artistic Director of Site/Sound Philadelphia (2019), Fromm Foundation Commission (2019), Director of Philadelphia Composers Forum (2016-19), Guggenheim Fellow in Music Composition (2014), Berlin Prize for Music from the American Academy in Berlin (2013) and William Penn Composer in Residence at The American Academy in Rome (2012). He has created many works for various instrumentation and media. Central to his interests is the inventive use of sound, image and time. He sees Art as a way to create experiences that expand our understanding and feelings of the world. For many years he has explored global transformations of culture with his group Ensemble N_JP and music’s relationship with science, video and architecture. His most recent research and compositions explore Neuro Music, Neuroaesthetics and Neurotechnologies. In 2023 his album of Neuro Music compositions called “Exploratorium” was published by the UK label False Walls. He studied painting, music and film making at the School of the Art Institute of Chicago, where his teachers included experimental film artists Stan Brakhage and Ernie Gehr, composer Robert Snyder, and visual artists Barbara Rossi and Oliver Jackson. Coleman is an Affiliated Researcher for Music and Neuroaesthetics in the META Lab at the University of California Santa Barbara. He is the founder and director of the Institute for Music and Neuroaesthetics, a research space for musicians, artists and people in Neuroscience. More at: https://www.genecolemancomposer.com/ and https://www.falsewalls.co.uk/release/exploratorium/

The Quantum Global Organoid Orchestra (q.GOO) is an experimental art–science collaboration that brings together living neural tissue, generative media, and networked human participation to explore new forms of emergent, cross-species creativity. The project centers on brain organoids—lab-grown clusters of neural cells cultivated in partnered neurobiology labs—which produce spontaneous electrical activity. This neural activity is captured through microelectrode arrays (MEAs) and translated in real-time into sound, visual structures, and computational behaviors. In this sense, the organoids function as active “performers” within a hybrid ensemble composed of biological, human, and machine processes.

Featuring the following contributors:

transLAB: Marcos Novak (director), Nefeli Manoudaki, Iason Paterakis, Mert Toka and Diarmid Flatley
ATMOS Implementation: Lucian Parisi
n-D::StudioLab: Mark-David Hosale (director) and Ilze [Kavi] Briede
SBCAST: Alan Macy (director)

Scientific collaborators:
The Kosik Neurobiology Lab: Kenneth Kosik (director) and Tjitse van der Molen

Abstract:

Beyond AI models, the constantly and rapidly evolving q.GOO project assembles Superconductivity for Minds: a globally distributed ecology in which actual and artificial brain organoids, bio-inspired algorithmic and quantum computational processes, spectral sound, coupled human-computer collaboration, and networked planetary environments begin to co-compose intelligence through Agentic Media Ecologies and Perforated Systems. This project explores what becomes thinkable when the “emergent possible” of the hybrid natural-artificial environment itself becomes agentive —reciprocally both data-driven and data-driving— when cognition is distributed across heterogeneous Umwelten, and when the path toward Superoptimal AGI/ASI runs not through isolated systems, but through recursively coupled permeable, porous, and perforated outer and inner worlds.

Modelled on complex ecosystems such as coral reefs, rainforests, and the planet itself, and also perception, cognition, civilization, and culture as emergent systems, the project and its variants are structured operationally by the notion of “perforated systems” — systems that, like living cells, consist of an autonomous internal behavior protected by a permeable, porous, or literally perforated “membrane.” This arrangement allows all parts to maintain their integrity but also to send and receive energy and information to and from each other and from the overall environment. Diverse coordinating processes provide algorithmic environmental homeostasis by adjusting the data flowing through the perforations.

This “free-but-perforated” operational strategy is also a statement regarding human collaboration and environmental sustainability. Each participant contributes a “species” that is free to be whatever it needs to be, provided it remains “perforated” and can receive and send data and information that can alter its behavior. The work thus instantiates a “media ecosystem” where the result is ecosystemically regulated by the health of the whole, which is always richer and more interesting than the sum of its parts.

The Quantum Global Organoid Orchestra (q.GOO) is an experimental art–science collaboration that brings together living neural tissue, generative media, and networked human participation to explore new forms of emergent, cross-species creativity. The project centers on brain organoids—lab-grown clusters of neural cells cultivated in partnered neurobiology labs—which produce spontaneous electrical activity. This neural activity is captured through microelectrode arrays (MEAs) and translated in real-time into sound, visual structures, and computational behaviors. In this sense, the organoids function as active “performers” within a hybrid ensemble composed of biological, human, and machine processes.

q.GOO evolves from the SIGGRAPH 2023 Synaptic Time Tunnel project and the Protonoesis series by collaborators at UCSB’s transLAB (directed by Marcos Novak) and the Kosik Neurobiology Lab (directed by Ken Kosik). These works form closed-loop systems in which organoid signals influence generative algorithms, which in turn shape the audiovisual environment surrounding the installation. Audience members encounter an immersive, multi-modal field where neural activity, machine interpretation, and human agency intermingle, suggesting a form of “distributed cognition” that exceeds any one participant.

The project invites reflection on the aesthetic and ethical dimensions of working with living neural material, asking what it means to situate organoids—entities neither fully biological subjects nor inert tools—as participants within artistic systems. q.GOO foregrounds sensation, emergence, and relationality. It proposes a speculative model of collective intelligence, where biological and computational systems co-produce meaning. Through this, the Quantum Global Organoid Orchestra extends contemporary practice in media art, neuroscience, and AI by making perceptible the hidden rhythms of living neural matter and prompting new questions about perception, agency, and the future of embodied computation.