Discrimination experiment of sound distance perception for a real source in near-field

International audienceThe ability of distance perception is quite important for our daily life. For the backward region where the vision cannot cover, listeners perceive objects only via binaural hearing, and the distance perception for a backward sound source is very important. It helps listeners to perceive an approaching sound source and avoid dangerous object especially when the sound source is in the rear. In the free field, the main acoustic distance perception cues for a nearby sound source include intensity variation with distance, binaural cues, dynamic cues, spectrum change and direct-to-reverberant energy ratio (Pavel Zahorik, 2005). Theoretically, all the above mentioned cues can be simulated via virtual auditory display (VAD), and realized by using a real sound source in an anechoic chamber. In comparison, the results based on a real sound source measurement should be more accurate. Previous researches have proved that the sound pressure has a giant influence on the ability of distance discrimination in both near field and far field when source is in front of head (Daniel H. Ashmead, 1990). However, few researches attempt to examine the binaural effect alone in distance perception. The theory was based on a fact that both the sound intensities and spectrums of a nearby sound will be different in two ears due to the head shadow, and these differences will change with distance when the sound source is lateral (PAUL D. COLEMAN, 1963). To verify the impact of binaural effect to distance discrimination, we conducted an experiment to exam the backward sound distance perception thresholds when the sound is presented from different azimuths in the horizontal plane. We used an automatic test system controlled by a computer in an anechoic room, eight listeners participated in the test. A loudness balanced band noise was used as test signals to remove the influence of sound level, and the signal was presented in 75 dBA. One signal was presented in the reference distance (50cm or 100cm), while the other one was presented in a closer distance, and sequence is random. The subjects need to do 2IFC (choose the closer one) between the signals presented in two different distances, and no feedback was given to subjects.The discrimination thresholds of two reference distances (0.5m and 1m) and five source azimuth (0°, 45°, 90°, 135°, 180°, right half plane of head) were examined in the experiment. The result show that subjects distance discrimination thresholds are lower when the sound source is on the side of head (about 20%) compared with front and back (above 30%), distinguishing two signals become quite difficult for participants when signals are presented in azimuth 0° and 180°. Moreover, this phenomenon is more prominent in 50cm compared with 100cm, while the effect of head shadow is more significant in 50cm. The results obtained in this study are consistent with previous studies and reveal that the binaural effect indeed contributes to distance discrimination process of human in a degree. This work is supported by the National Natural Science Foundation of China (Grant No. 11574090) and the Natural Science Foundation of Guangdong Province (Grant No. 2018B030311025)

Hot stamping of an Al-Li alloy: a feasibility study

The feasibility of forming a third generation aluminium-lithium alloy (AA2060) into a complex shaped panel component, was studied by using an advanced forming technology called solution heat treatment, cold die forming and in-die quenching (HFQa) process. The main challenges using HFQ technology to form complex shaped AA2060 component was to find out optimum forming parameters, such as forming temperature, forming speed, lubrication condition and blank holding force. In this paper, the optimum forming temperature was mainly concerned. The flow stresses of AA2060 were obtained at different temperatures ranging from 350 to 520 °C at the strain rate of 2 s−1. The suitable temperature to achieve the adequate ductility was found at 470 °C. By forming the AA2060 blanks at the optimum forming temperature, experimental results exhibited the feasibility for forming complex-shaped AA2060 components. The formed components were analysed through strain measurements. The post-form mechanical properties of AA2060 were assessed using hardness and tensile tests

Language Model Pre-Training with Sparse Latent Typing

Modern large-scale Pre-trained Language Models (PLMs) have achieved tremendous success on a wide range of downstream tasks. However, most of the LM pre-training objectives only focus on text reconstruction, but have not sought to learn latent-level interpretable representations of sentences. In this paper, we manage to push the language models to obtain a deeper understanding of sentences by proposing a new pre-training objective, Sparse Latent Typing, which enables the model to sparsely extract sentence-level keywords with diverse latent types. Experimental results show that our model is able to learn interpretable latent type categories in a self-supervised manner without using any external knowledge. Besides, the language model pre-trained with such an objective also significantly improves Information Extraction related downstream tasks in both supervised and few-shot settings. Our code is publicly available at: https://github.com/renll/SparseLT.Comment: EMNLP 2022 (Oral

Coenzyme Q deficiency may predispose to sudden unexplained death via an increased risk of cardiac arrhythmia

Cardiac arrhythmia is currently considered to be the direct cause of death in a majority of sudden unexplained death (SUD) cases, yet the genetic predisposition and corresponding endophenotypes contributing to SUD remain incompletely understood. In this study, we aimed to investigate the involvement of Coenzyme Q (CoQ) deficiency in SUD. First, we re-analyzed the exome sequencing data of 45 SUD and 151 sudden infant death syndrome (SIDS) cases from our previous studies, focusing on previously overlooked genetic variants in 44 human CoQ deficiency-related genes. A considerable proportion of the SUD (38%) and SIDS (37%) cases were found to harbor rare variants with likely functional effects. Subsequent burden testing, including all rare exonic and untranslated region variants identified in our case cohorts, further confirmed the existence of significant genetic burden. Based on the genetic findings, the influence of CoQ deficiency on electrophysiological and morphological properties was further examined in a mouse model. A significantly prolonged PR interval and an increased occurrence of atrioventricular block were observed in the 4-nitrobenzoate induced CoQ deficiency mouse group, suggesting that CoQ deficiency may predispose individuals to sudden death through an increased risk of cardiac arrhythmia. Overall, our findings suggest that CoQ deficiency-related genes should also be considered in the molecular autopsy of SUD