We present a novel method for imaging acoustic communication between nocturnal animals. Investigating the spatio-temporal calling behavior of nocturnal animals, e.g., frogs and crickets, has been difficult because of the need to distinguish many animals' calls in noisy environments without being able to see them. Our method visualizes the spatial and temporal dynamics using dozens of sound-to-light conversion devices (called "Firefly") and an off-the-shelf video camera. The Firefly, which consists of a microphone and a light emitting diode, emits light when it captures nearby sound. Deploying dozens of Fireflies in a target area, we record calls of multiple individuals through the video camera. We conduct two experiments, one indoors and th...
Human activities worldwide are increasingly releasing low-frequency noise into the environment. Anth...
Visual communication seems to be widespread among nocturnal anurans, however, reports of these behav...
Many animals acoustically communicate in large aggregations, producing biotic soundscapes. In turn, ...
Many animals use sounds produced by conspecifics for mate identification. Female insects and anuran ...
In this paper, we exploit Bayesian nonparametric micro-phone array processing (BNP-MAP) for analyzin...
High background noise is an impediment to signal detection and perception. We report the use of mult...
High background noise is an impediment to signal detection and perception. We report the use of mult...
Long-distance acoustic signals are widely used in animal communication systems and, in many cases, a...
Abstract Many animals use multimodal (both visual and acoustic) components in courtship signals. The...
Signal detection is a fundamental requirement for any communicative interaction. Acoustic signals, h...
Continuous recording of environmental sounds could allow long-term monitoring of vocal wildlife, and...
Increasing urbanization has led to large scale land-use changes, exposing persistent populations to ...
Predator-prey interactions take place in complex environments, and research on the sensory ecology o...
Vertebrates and invertebrates have diverged from an evolutionary standpoint almost a billion years a...
Túngara frogs are a model organism for studies on communication and sexual selection. Calling behav...
Human activities worldwide are increasingly releasing low-frequency noise into the environment. Anth...
Visual communication seems to be widespread among nocturnal anurans, however, reports of these behav...
Many animals acoustically communicate in large aggregations, producing biotic soundscapes. In turn, ...
Many animals use sounds produced by conspecifics for mate identification. Female insects and anuran ...
In this paper, we exploit Bayesian nonparametric micro-phone array processing (BNP-MAP) for analyzin...
High background noise is an impediment to signal detection and perception. We report the use of mult...
High background noise is an impediment to signal detection and perception. We report the use of mult...
Long-distance acoustic signals are widely used in animal communication systems and, in many cases, a...
Abstract Many animals use multimodal (both visual and acoustic) components in courtship signals. The...
Signal detection is a fundamental requirement for any communicative interaction. Acoustic signals, h...
Continuous recording of environmental sounds could allow long-term monitoring of vocal wildlife, and...
Increasing urbanization has led to large scale land-use changes, exposing persistent populations to ...
Predator-prey interactions take place in complex environments, and research on the sensory ecology o...
Vertebrates and invertebrates have diverged from an evolutionary standpoint almost a billion years a...
Túngara frogs are a model organism for studies on communication and sexual selection. Calling behav...
Human activities worldwide are increasingly releasing low-frequency noise into the environment. Anth...
Visual communication seems to be widespread among nocturnal anurans, however, reports of these behav...
Many animals acoustically communicate in large aggregations, producing biotic soundscapes. In turn, ...