Thinking Liveness in Performance with Live Electronics:

Whalley, Mavros and Furniss (this issue) explore questions of agency, control and interaction, as well as the embodied nature of musical performance in relation to the use of human-computer interaction through the work Clasp Together (beta) for small ensemble and live electronics. The underlying concept of the piece focuses on direct mapping of a human neural network (embodied by a performer within the ensemble) to an artificial neural network running on a computer. With our commentary, we contextualize the work by offering a brief history of music that uses brainwaves. We review the use of EEG signals for musical performance and point at precedents in EEG-based musical practice. We hope to more clearly situate Clasp Together (beta) in the broad area of Brain Computer Musical Interfaces and discuss the challenges and opportunities that these technologies offer for composers.

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Clasp Together: Composing for Mind and Machine

Empirical Musicology Review ◽

10.18061/emr.v9i3-4.4348 ◽

2015 ◽

Vol 9 (3-4) ◽

pp. 263 ◽

Cited By ~ 2

Author(s):

J. Harry Whalley ◽

Panagiotis Mavros ◽

Peter Furniss

Keyword(s):

Human Computer Interaction ◽

Experimental Work ◽

Sound Synthesis ◽

Musical Performance ◽

Brain Computer Interfaces ◽

Live Electronics ◽

Control Instrument ◽

Computer Interfaces ◽

Small Ensemble ◽

Physical Gestures

This paper will explore questions of agency, control and interaction and the embodied nature of musical performance in relation to the use of human-computer interaction (HCI), through the experimental work Clasp Together (beta) [1] for small ensemble and live electronics by J. Harry Whalley. This practice-led research is situated at the intersection of music neurotechnology for sound synthesis and brain-computer interfaces (BCI, a subdomain of HCI), and explores the use of neural patterns from Electroencephalography (EEG) as a control instrument. The composition departed from the traditional composer/performer paradigm by using both non-instrumental physical gestures and cognitive or emotive instructions integrated into the score.

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The HyPer(sonal) Piano Project

10.22501/nmh-ar.291286 ◽

2016 ◽

Author(s):

◽

Morten Qvenild

Keyword(s):

Video Recording ◽

Music Performance ◽

Live Electronics ◽

Sound Sources ◽

Technological Environment ◽

Led Light ◽

Control Signals ◽

And Control ◽

Grand Piano ◽

Signal Sources

Towards a (per)sonal topography of grand piano and electronics How can I develop a grand piano with live electronics through iterated development loops in the cognitive technological environment of instrument, music, performance and my poetics? The instrument I am developing, a grand piano with electronic augmentations, is adapted to cater my poetics. This adaptation of the instrument will change the way I compose. The change of composition will change the music. The change of music will change my performances. The change in performative needs will change the instrument, because it needs to do different things. This change in the instrument will show me other poetics and change my ideas. The change of ideas demands another music and another instrument, because the instrument should cater to my poetics. And so it goes… These are the development loops I am talking about. I have made an augmented grand piano using various music technologies. I call the instrument the HyPer(sonal) Piano, a name derived from the suspected interagency between the extended instrument (HyPer), the personal (my poetics) and the sonal result (music and sound). I use old analogue guitar pedals and my own computer programming side by side, processing the original piano sound. I also take out control signals from the piano keys to drive different sound processes. The sound output of the instrument is deciding colors, patterns and density on a 1x3 meter LED light carpet attached to the grand piano. I sing, yet the sound of my voice is heavily processed, a processing decided by what I am playing on the keys. All sound sources and control signal sources are interconnected, allowing for complex and sometimes incomprehensible situations in the instrument´s mechanisms. Credits: First supervisor: Henrik Hellstenius Second Supervisors: Øyvind Brandtsegg and Eivind Buene Cover photo by Jørn Stenersen, www.anamorphiclofi.com All other photo, audio and video recording/editing by Morten Qvenild, unless stated.

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‘Live is Dead?’: Some Remarks about Live Electronics Practice and Listening

Musical Listening in the Age of Technological Reproduction ◽

10.4324/9781315596969-26 ◽

2016 ◽

pp. 323-344

Keyword(s):

Live Electronics

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Performing Live-Electronics

10.1515/transcript.9783839417430.199 ◽

2011 ◽

pp. 199-216

Author(s):

Michael Custodis

Keyword(s):

Live Electronics

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Mitterer, Wolfgang (1958--)

Routledge Encyclopedia of Modernism ◽

10.4324/9781135000356-rem582-1 ◽

2018 ◽

Author(s):

Aaron Cassidy

Keyword(s):

Chamber Music ◽

Performing Arts ◽

Electroacoustic Music ◽

Live Electronics ◽

Performance Events ◽

And Performance ◽

Orchestra Music ◽

And Function ◽

Granular Layers ◽

The University

Wolfgang Mitterer (1958--) is an Austrian composer and organist noted for his work with live electronics and improvisation. Born on 6 June, 1958 in Lienz, East Tyrol, Mitterer studied organ and composition at the University of Music and the Performing Arts Vienna, followed by a year-long residency at the studio for electroacoustic music (EMS) in Stockholm. An exceptionally prolific composer, Mitterer’s output spans a staggeringly broad range of approaches to music making, including works for tape, chamber music of various formations, experimental pop songs (Sopop), works for large orchestra, music for theatre and opera, music for film, and sprawling site-specific installations and performance events (turmbau zu babel, for example, is scored for 4,200 singers, 22 drums, 48 brass players, and 8-channel tape). His works list includes over 200 entries and demonstrates a particularly catholic, pluralistic, non-dogmatic approach to instrumentation, duration, venue, scale, and function. Despite this diversity, Mitterer’s work maintains several important central tendencies: stylistically, the music is often characterized by layers of crackles, twitches, clicks, and pops (both electronic and acoustic), with a rustling, flickering, chirping, gestural energy. These more fragmented, granular layers are quite often combined with gradual, elongated, atmospheric, and lyrical material, though generally a sense of instability and unpredictability remains.

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On Stockhausen’s Solo(s): Beyond Interpretation

Leonardo Music Journal ◽

10.1162/lmj_a_01036 ◽

2018 ◽

Vol 28 ◽

pp. 13-18

Author(s):

Juan Parra Cancino ◽

Johannes Mulder

Keyword(s):

Digital Media ◽

Live Electronics ◽

Starting Point ◽

Digital Sound

Using Karlheinz Stockhausen’s Solo für Melodieinstrument und Rückkopplung (1965–1966) as a starting point, the authors investigate the affect and effect of technological transference when reproducing historical repertoire with live electronics. A suggestion of technical transparency often accompanies digital sound technologies; we aim to challenge this notion. We argue that the coloring that emerges with digital media can (and perhaps should be) used to inject new life into, and ask new questions of, the works that are being preserved.

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