Bjørnar Sandvik scite author profile

Bjørnar Sandvik

3Publications

9Citation Statements Received

71Citation Statements Given

How they've been cited

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130

Affiliations

University of Oslo

Publications

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A Grid in Flux: Sound and Timing in Electronic Dance Music

Brøvig-Hanssen¹,

Sandvik²,

Aareskjold-Drecker³

et al. 2021

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Researchers have argued that temporal microdeviations from the metric grid, such as those produced by musicians in performance, are crucial to making a musical rhythm groovy and danceable. It is curious, then, that the music currently dominating the dance floor, “electronic dance music” or EDM, is typically characterized by grid-based rhythms. But is such a “mechanistic,” grid-based aesthetic necessarily devoid of microrhythmic nuance? In this article, we aim to show that the microrhythmic component of an engaging groove involves the manipulation of more than simply the onset locations of rhythmic events—the sonic features fundamentally contribute to shaping the groove as well. In particular, we seek to demonstrate that EDM producers, with their preference for a grid-based microtiming aesthetic, are very sensitive to and adept at manipulating such sonic features for expressive effect. Drawing on interviews with EDM producers, we show that producers are often concerned with both sonic and temporal features, as well as their interactions. We argue that sonic features are crucial to shaping groove and feel at the micro level of rhythm. Moreover, such features also tend to introduce an indirect microtiming aspect to the grid-based aesthetic of EDM through the ways in which they shape timing at the perceptual level.

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Dynamic Range Processing and Its Influence on Perceived Timing in Electronic Dance Music

Brøvig-Hanssen

Sandvik

Aareskjold-Drecker

2020

MTO

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In this article, we explore the extent to which dynamic range processing (such as compression and sidechain compression) influences our perception of a sound signal’s temporal placement in music. Because compression reshapes the sound signal’s envelope, scholars have previously noted that certain uses of sidechain compression can produce peculiar rhythmic effects. In this article, we have tried to interrogate and complicate this notion by linking a description of the workings and effects of dynamic range processing to empirical findings on the interaction between sound and perceived timing, and by analyzing multitracks and DAW project files, as well as released audio files, of selected EDM tracks. The analyses of the different EDM tracks demonstrated that sidechain compression affects the music in many possible ways, depending on the settings of the compressors’ parameters, as well as the rhythmic pattern and the sonic complexity of both the trigger signal and the sidechained signal. Dynamic range processing’s impact on groove and perceived timing indicates, in line with previous findings, that sound and timing interact in fundamental ways. Because of this interaction, then, we cannot limit ourselves to technical terms that describe how particular effects are achieved if we want to fully understand the grooves that are characteristic of EDM or other music. We must also consider how listeners experience these effects.

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Shaping rhythm: timing and sound in five groove-based genres

Danielsen

Johansson²,

Brøvig³

et al. 2023

Pop. Mus.

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Shaping events at the microlevel of rhythm is an important aspect of many groove-based musics. In the present study, we explore the interconnectedness of musical parameters such as timing, attack shape, timbre and relative intensity in creating groove through investigating musicians and producers’ discourse in five genres (jazz, samba, electronic dance music, hip-hop and traditional Scandinavian fiddle music). Through semi-structured interviews, we found both genre-specific accounts of how such musical features interact at the microlevel of rhythm and a cross-generic focus on inducing movement by shaping sound and generating rhythmic friction. The study empirically substantiates the multiparameter nature of musical performance and experience, and that particular genre-typical configurations of temporal and sonic features are needed to create the experience of groove. It thereby adds to the scholarly discourse on groove, which has often taken a more general and time-oriented view of rhythm.

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