Acoustic interactions for robot audition: A corpus of real auditory scenes.

The Acoustic Interactions for Robot Audition corpus is introduced for research on sound source localization and separation, and for multi-user speech recognition. Its aim is to evaluate and train Robot Audition techniques, as well as Auditory Scene Analysis in general. It was recorded in six real-life environments with different noise presence and reverberation time, using two array configurations: an equilateral triangle, and a three-dimensional 16-microphone array set over a hollow plastic body. It includes clean speech data for static sources and tracking information for mobile sources. It is freely available at https://aira.iimas.unam.mx/.

Further validation of a model of fibromyalgia syndrome in the rat.

UNLABELLED: We have recently developed an animal model of fibromyalgia syndrome in the rat. In this model, rats exposed to unpredictable sound stress develop a delayed onset enhancement and prolongation of cytokine-induced mechanical hyperalgesia in muscle and skin. In this study, we tested the hypothesis that our model also manifests symptoms of common comorbid diagnoses: irritable bowel syndrome, temporomandibular disorder, and anxiety. Both visceral sensitivity and cytokine hyperalgesia in masseter muscle were present in the stressed rats. Furthermore, in an established model of irritable bowel syndrome-water avoidance-we observed significant muscle hyperalgesia. Finally, using the elevated plus maze to assess for anxiety level, we observed a significantly higher anxiety level in sound stress-exposed rats. Thus, unpredictable sound stress produces a condition in the rat with several features-delayed onset visceral and temporomandibular hyperalgesia and increased anxiety, as well as cutaneous and muscle hyperalgesia-commonly found in patients with fibromyalgia syndrome. PERSPECTIVE: A stress model-unpredictable sound-in the rat exhibits several features (cutaneous, musculoskeletal, and visceral hyperalgesia, as well as anxiety) that are found in patients with fibromyalgia syndrome. Thus, this model may be used to test hypotheses about the underlying mechanisms and response to therapy in patients with fibromyalgia.