For one choice of a relative sideband phase, a prior partial wave series (PWS) solution is available, which supports the specular analysis when the PWS is evaluated for a rigid cylinder. The importance of specular contributions for aluminum cylinders in water is noted. A specular analysis for an analogous spherical reflector is also summarized.The goal of this project is to use acoustic signatures to detect, classify, and count the calls of four acoustic populations of blue whales so that, ultimately, the conservation status of each population can be better assessed. We used manual annotations from 350 h of audio recordings from the underwater hydrophones in the Indian Ocean to build a deep learning model to detect, classify, and count the calls from four acoustic song types. The method we used was Siamese neural networks (SNN), a class of neural network architectures that are used to find the similarity of the inputs by comparing their feature vectors, finding that they outperformed the more widely used convolutional neural networks (CNN). Specifically, the SNN outperform a CNN with 2% accuracy improvement in population classification and 1.7%-6.4% accuracy improvement in call count estimation for each blue whale population. In addition, even though we treat the call count estimation problem as a classification task and encode the number of calls in each spectrogram as a categorical variable, SNN surprisingly learned the ordinal relationship among them. SNN are robust and are shown here to be an effective way to automatically mine large acoustic datasets for blue whale calls.Ao is a Tibeto-Burman language spoken in Nagaland, India. It is a low resource, tonal language with three lexical tones, namely, high, mid, and low. However, tone assignment on lexical words may differ among the three dialects of Ao, namely, Chungli, Mongsen, and Changki. In this work, an acoustic study is conducted on the three tones in the three dialects of Ao. It was found that the acoustic characteristics of the tones in the Changki dialect are markedly different from that of the Chungli and the Mongsen dialects. Hence, in the latter part of the work, automatic dialect identification (DID) in the Ao dialects is attempted with Mel Frequency Cepstral Coefficients, Shifted Delta Cepstral coefficients, and F0 features using the Gaussian Mixture models. It is confirmed that in both text-dependent and text-independent DID, the F0 features improve the accuracy of classification.High sound pressure levels cause impedance changes in orifices and perforated plates due to vortex shedding and jet formation at the orifices. Etomoxir mw The effects of an additional high amplitude stimulus, unrelated in terms of frequency and phase, on the impedance of perforated plates received little attention. This work experimentally studies the impedance changes of perforated plates at various primary frequencies when an additional unrelated high-level single tone actuation is applied. It is shown that the impedance, the primary sound field faces, is altered dependent on the particle velocity induced in the orifices by the secondary actuation. Dimensionless quantities correlating the change of impedance with the secondary excitation are identified from the measurements and an empirical model for the change of resistance at quasi-steady flow conditions is derived. The results show that for low amplitude primary sound fields, the change of impedance is completely dependent on the secondary sound field. In case of a high amplitude primary sound field, the impedance is dependent on the particle velocities induced by both sound fields, whereas the larger induced particle velocity is the main contributor to the impedance changes. For unsteady flow conditions, a dependency on the frequency of the secondary actuation is found.The proliferation process’s efficiency is related to the number of cells grown in culture and the maximum efficiency obtained at the stationary phase. Since the culture’s growth speed is different for various cells and even for subgroups of the same cells, it is essential to monitor the process properly to obtain maximum efficiency. In this work, ultrasonic velocity measurement was performed noninvasively for wireless real-time monitoring of the suspension cell culture using a single integrated device to get maximum efficiency from the process by determining the phases. Using the advantage of the developed device’s portability and wireless connectivity, the cells are monitored in the incubator without interfering with the actual process. Therefore, a real-time highly sampled growth curve is obtained, which was not possible to obtain with the currently used methods or the offline methods that are based on taking samples from the culture invasively. Filtering and curve fitting methods are also applied to the data to obtain a clean growth curve. The method developed as a result of this study ensures that the suspension cell culture was monitored most conveniently in the actual growth medium in real-time and noninvasively.The lockdown measures in Spain due to COVID-19 social measures showed a wide decrease in the urban noise levels observed. This paper presents an analysis of the noise levels in Girona, a 100 000 citizen city in the North-East of Catalonia (Spain). We present the LAeq levels in four different locations from January 2020 to June 2020, including all the stages of the lockdown. Several comparisons are conducted with the monitoring data available from the previous years (2019, 2018, and 2017, when available). This analysis is part of the project “Sons al Balcó,” which aims to draw the soundscape of Catalonia during the lockdown. The results of the analysis in Girona show drastic LAeq changes especially in nightlife areas of the city, moderate LAeq changes in commercial and restaurants areas, and low LAeq changes in dense traffic areas.It may be difficult to determine whether a dichotic lag-click points to the left or right when preceded by a diotic lead-click. Previous research suggests that this loss of spatial information is most prominent at inter-click intervals (ICIs) 20 ms), suggesting different mechanisms underlying lag-click lateralization at short versus long ICIs.