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(Chapter / Bokkapittel / SubmittedVersion, 2017)
As living human beings we are constantly in motion. Even when we try to stand absolutely still, our breathing, pulse and postural adjustments lead to motion at the micro-level. Such micromotion is small, but it is still ...
(Chapter / Bokkapittel / PublishedVersion; Peer reviewed, 2017)
Pitch and spatial height are often associated when describing music. In this paper we present results from a sound tracing study in which we investigate such sound–motion relationships. The subjects were asked to move as ...
(Chapter / Bokkapittel / AcceptedVersion; Peer reviewed, 2017)
This paper describes an experiment in which the subjects performed a sound-tracing task to vocal melodies. They could move freely in the air with two hands, and their motion was captured using an infrared, marker-based ...
(Chapter / Bokkapittel / SubmittedVersion, 2017)
This chapter looks at the ways in which micromotion, the smallest controllable and perceivable human body motion, can be used in interactive sound systems. It presents a general taxonomy, followed by examples of how sonic ...
(Chapter / Bokkapittel / PublishedVersion; Peer reviewed, 2017)
The paper presents results from an experiment in which 91 subjects stood still on the floor for 6 minutes, with the first 3 minutes in silence, followed by 3 minutes with mu- sic. The head motion of the subjects was captured ...
(Chapter / Bokkapittel / PublishedVersion; Peer reviewed, 2017)
This paper explores sonic microinteraction using muscle sensing through the Myo armband. The first part presents results from a small series of experiments aimed at finding the baseline micromotion and muscle activation ...