This article proposes various bioinspired control algorithms to emulate the nonlinear dynamics of hair cells in the inner ear. To accommodate the broad range of participants interests and backgrounds, the course format consists of two days of basic introductory lectures focused on. A study of active artificial hair cell models inspired by outer hair cell motility. In this work, we analysed hydrophone recordings of 201 earthquakes, located in the Pacific and the Indian Ocean, by employing acoustic signal processing and classification methods. This article describes how homeostatic control might help to tune the auditory system to nonlinear dynamics (a Hopf bifurcation). Homeostatic enhancement of sensory transduction. A review article that presents the adaptation of the auditory sensing system, in particular using feedback from the processing stage to the outer hair cells. A signal post processing framework was presented in this article to investigate the potential of the acoustic emission method to monitor fracture. However, no acoustic ODE solver has been. Signal processing refers to techniques used in many fields to analyze and display characteristics of various phenomena.In underwater acoustics, signal processing is used to detect, localize, and classify a sound of interest, referred to as the signal, in the presence of noise. Jr Olivocochlear efferents: their action, effects, measurements and uses, and the impact of the new conception of cochlear mechanical responses. In acoustic domain, solving the ODE would revolutionize many application fields ranging from acoustic communication, analog computing to signal processing. A review article that discusses the need for a neuromorphic microphone and describes which biological functionalities are not currently provided by audio front-ends. This paper describes the effect of nonlinear and bioinspired processing on the performance of reservoir computing for speech recognition. Role of non-linear data processing on speech recognition task in the framework of reservoir computing. Underwater acoustic channels differ from radio communication channels in the lower speed of signal propagation, richer and often sparse multipath arrivals, and.
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