Mozarabic Chant anechoic recordings for auralization purposes

The Hispanic Rite is the liturgy celebrated by Christians of the Iberian Peninsula before the imposition of the Roman Rite in the mid-eleventh century. As in other early Christian liturgies, music was the core of the Hispanic Rite. This music, known as Mozarabic Chant is one of the richest musical repertoires of the Middle Ages. Currently, a research project is underway involving the restoration of the Hispanic Rite sound, using techniques of acoustic virtual reality. The project aims to perform the auralization of the sound of Mozarabic Chant in his primitive environment, that is, taking into account the acoustic characteristics of the pre-Romanesque churches in their original state. For this purpose, anechoic recordings were made for a number of musical pieces representative of the Mozarabic Chant repertoire. In total eight (8) musical pieces have been recorded and interpreted, each of one, by six (6) different singers. The recordings were made using a spherical array composed by 32 microphones. This paper describes the more relevant aspects related to the recorded musical material, the technical specifications and installation details of the recording equipment, the data processing, and a summary of the results.

Inteligência computacional aplicada na geração de respostas impulsivas bi-auriculares e em aurilização de salas

Neste trabalho é apresentada uma nova abordagem para obter as respostas impulsivas biauriculares (BIRs) para um sistema de aurilização utilizando um conjunto de redes neurais artificiais (RNAs). O método proposto é capaz de reconstruir as respostas impulsivas associadas à cabeça humana (HRIRs) por meio de modificação espectral e de interpolação espacial. A fim de cobrir todo o espaço auditivo de recepção, sem aumentar a complexidade da arquitetura da rede, uma estrutura com múltiplas RNAs (conjunto) foi adotada, onde cada rede opera uma região específica do espaço (gomo). Os três principais fatores que influenciam na precisão do modelo arquitetura da rede, ângulos de abertura da área de recepção e atrasos das HRIRs são investigados e uma configuração ideal é apresentada. O erro de modelagem no domínio da frequência é investigado considerando a natureza logarítmica da audição humana. Mais ainda, são propostos novos parâmetros para avaliação do erro, definidos em analogia com alguns dos bem conhecidos parâmetros de qualidade acústica de salas. Através da metodologia proposta obteve-se um ganho computacional, em redução do tempo de processamento, de aproximadamente 62% em relação ao método tradicional de processamento de sinais utilizado para aurilização. A aplicabilidade do novo método em sistemas de aurilização é reforçada mediante uma análise comparativa dos resultados, que incluem a geração das BIRs e o cálculo dos parâmetros acústicos biauriculares (IACF e IACC), os quais mostram erros de magnitudes reduzidas.

A Spherical Array Approach for Simulation of Binaural Impulse Responses using the Finite Difference Time Domain Method

The finite difference time domain (FDTD) method has direct applications in musical instrument modeling, simulation of environmental acoustics, room acoustics and sound reproduction paradigms, all of which benefit from auralization. However, rendering binaural impulse responses from simulated
data is not straightforward to accomplish as the calculated pressure at FDTD grid nodes does not contain any directional information. This paper addresses this issue by introducing a spherical array to capture sound pressure on a finite difference grid, and decomposing it into a plane-wave density
function. Binaural impulse responses are then constructed in the spherical harmonics domain by combining the decomposed grid data with free field head-related transfer functions. The effects of designing a spherical array in a Cartesian grid are studied, and emphasis is given to the relationships
between array sampling and the spatial and spectral design parameters of several finite-difference
schemes.

Investigation on the influence of the order on ambisonics reproduced sound scene over headphones

To investigate the performance of ambisonics systems reproduced over headphones, a pairwise comparison test was carried out. Binaurally reproduced sound scenes for 2D ambisonic orders 1 to 4 decoded on 2M + 2 virtual loudspeakers using two decoder options, basic and mixed basic and maxrE were used. Similarity ratings are obtained from pairwise comparisons between all of the combinations of systemsa and a binaural reference.

Investigations into Velocity and Distance Perception Based on Different Types of Moving Sound Sources with Respect to Auditory Virtual Environments

The characteristics of moving sound sources have strong implications on the listener's distance perception and the estimation of velocity. Modifications of the typical sound emissions as they are currently occurring due to the tendency towards electromobility have an impact on the pedestrian's safety in road traffic. Thus, investigations of the relevant cues for velocity and distance perception of moving sound sources are not only of interest for the psychoacoustic community, but also for several applications, like e.g. virtual reality, noise pollution and safety aspects of road traffic. This article describes a series of psychoacoustic experiments in this field. Dichotic and diotic stimuli of a set of real-life recordings taken from a passing passenger car and a motorcycle were presented to test subjects who in turn were asked to determine the velocity of the object and its minimal distance from the listener. The results of these psychoacoustic experiments show that the estimated velocity is strongly linked to the object's distance. Furthermore, it could be shown that binaural cues contribute significantly to the perception of velocity. In a further experiment, it was shown that - independently of the type of the vehicle - the main parameter for distance determination is the maximum sound pressure level at the listener's position. The article suggests a system architecture for the adequate consideration of moving sound sources in virtual auditory environments. Virtual environments can thus be used to investigate the influence of new vehicle powertrain concepts and the related sound emissions of these vehicles on the pedestrians' ability to estimate the distance and velocity of moving objects.

Procedimiento de diseño acústico y eletroacústico de sistemas tipo

El presente proyecto propone la creación de un procedimiento y metodología para el diseño de salas y sistemas electroacústicos basados en el software EASE. La sala tipo elegida para el diseño será una sala de cine bajo las premisas de DOLBY Digital. Los sistemas electroacústicos modelo serán: • Sistema distribuido tanto en malla cuadrada como hexagonal • Sistemas centralizados basados en agrupaciones, tanto lineales como circulares. Se establecerán los pasos básicos imprescindibles para el diseño de los sistemas descritos de forma que, con la ayuda de este tutorial y los medios didácticos adjuntos al mismo, se puedan acometer paso a paso las distintas fases de diseño, cálculo y análisis de los mismos. Como metodología de trabajo se acometerá el proceso de diseño de un ejemplo de cada tipo sobre el que se describirán todos los pasos, posibilidades de diseño y cálculo de los mismos. Los puntos de estudio serán: • Diseño de una sala de Cine ◦Importación de los Ficheros Autocad del cine a EASE ◦Dibujo del recinto en EASE ◦Inserción de materiales ◦Cálculo del tiempo de reverberación en función del volumen de la sala ◦Ajuste del tiempo de reverberación ◦Elección de altavoces para la sonorización ◦Comprobación de la uniformidad de campo sonoro en todos los canales ◦Comprobación de los niveles de pico y total por canal ◦Ecualización de la sala según la curva X (ISO-2969) ◦Inclusión de la Pantalla en la curva de ecualización ◦Estudios psicoacústico de la sala. Retardos ◦Inteligibilidad ◦Diagrama de bloques • Diseño de un sistema distribuido ◦Estudio de los diferentes tipos de solapamientos ▪Borde con Borde ▪Solapamiento mínimo ▪Centro con Centro ◦Estudio de los diferente tipos de mallas ▪Cuadrada ▪Hexagonal • Diseño de un sistema Centralizado ◦Sistemas centralizados tipo Linear Array ◦Sistemas centralizados tipo Circular Array Así mismo se estudiarán las diferentes posibilidades dentro de la suite EASE, incluyendo las versiones gratuitas del mismo EASE ADDRESS (sistemas distribuidos) y FOCUS II (sistemas centralizados), comparando sus posibilidades con los módulos comerciales equivalentes de EASE y las herramientas añadidas del mismo EARS (software para la auralización biaural) y AURA (utilidad de análisis extendido). ABSTRACT This project proposes the creation of a procedure and methodology for the design of rooms and electroacoustic systems based on EASE software. The room chosen as example design is a cinema under DOLBY Digital premises. Electroacoustic systems chosen as example are: • Distributed both square and hexagonal mesh • Centralized systems based on clusters, both linear and circular. It will be established the basic essential steps for the design of the systems described so, with this tutorial and attached teaching aids, could be undertaken the various stages of design, calculation and analysis. As a working methodology, the process design of an example will be described of each system on which all the steps described, design possibilities and calculation will be shown. The main points are: • Design of a cinema • Importing Autocad Files in EASE • Drawing with EASE • Materials insertion • Reverberation time based on the room volume • Adjusting reverberation time • Choosing speakers • Checking sound field uniformity in all channels • Checking peak levels and total level per each channel • Room equalization using X curve (ISO-2969) • Adding screen in the EQ • Psychoacoustic. Delays • Intelligibility • Block diagram • Design of a distributed system • Study of the different types of overlap o Edge to Edge o Minimum Overlap o Center to Center • Study of different types of mesh • Square • Hex • Centralized System Design • Centralized systems. Linear Array • Centralized systems. Circular Array It also will explore the different possibilities within the EASE suite, including the free versions of the same EASE ADDRESS (distributed systems) and FOCUS II (centralized), comparing its potential with commercial equivalents EASE modules and added tools EARS (software for biaural auralization) and AURA (utility extended analysis).

Auralización del canto mozárabe en una iglesia pre-románica

Las tecnologías de realidad acústica virtual ofrecen una herramienta muy apropiada para la reconstrucción del patrimonio inmaterial del sonido de los recintos históricos. Este trabajo es parte de un proyecto de investigación cuyo objetivo es la restauración virtual del sonido del Antiguo Rito Hispánico y que consiste en la auralización del Canto Mozárabe en una serie de iglesias pre-Románicas de la península ibérica. En este caso se presentan los resultados más relevantes de las auralizaciones realizadas para la iglesia de Santa María de Melque. Para ello se ha elaborado un modelo acústico virtual de la iglesia en las condiciones que, según la documentación arqueológica, tenía el recinto original, se han realizado grabaciones anecoicas de una serie de piezas del repertorio primitivo del Canto Mozárabe y se han efectuado las auralizaciones correspondientes a diferentes configuraciones litúrgicas del Antiguo Rito Hispánico. ABSTRACT Acoustic Virtual Reality technology offers a highly appropriate tool for the reconstruction of the acoustic intangible heritage of the sound of historical enclosures. This work is part of a research project whose aim is the virtual restoration of the sound of the Old Hispanic Rite, auralizing the Mozarabic Chant in Pre-Romanesque churches of the Iberian Peninsula. This paper shows the most relevant results of the auralization of Santa María de Melque church. For that purpose, an acoustic virtual model has been created according to archaeological documentation of the original building conditions, anechoic recordings of several Early Mozarabic Chant musical pieces have been recorded and auralization corresponding to Old Hispanic liturgical Rite multiple settings has been completed.

Evaluación subjetiva de la diferenciación entre las respuestas impulsivas medidas y simuladas en diferentes recintos

Para estudiar la acústica en recintos se utilizan herramientas de modelado acústico de salas y la auralización de estos recintos. En muchos casos el mismo software de modelado genera las auralizaciones que simulan como se escucharía un determinado audio en un punto del recinto. En el presente trabajo se intenta estudiar la calidad de las respuestas impulsivas simuladas generadas por una de estas herramientas de modelado. El proyecto consiste en realizar una evaluación subjetiva de la diferenciación entre las respuestas impulsivas medidas y simuladas en diferentes recintos, comparándola con los parámetros acústicos objetivos que se han obtenido mediante una evaluación objetiva anterior. Para ello, se desarrolla una herramienta software que, con las respuestas impulsivas simuladas (generadas por un software de modelado acústico, ODEON) y las respuestas impulsivas medidas, genere: las auralizaciones correspondientes; un test de escucha para hacer la evaluación subjetiva de las auralizaciones obtenidas y una interfaz de usuario para interaccionar con los oyentes a evaluar; y que almacene los resultados del test de escucha. Además se llevará a cabo la evaluación subjetiva (test de escucha) con un grupo de oyentes, con los que posteriormente se obtendrán los resultados para poder comparar con los valores objetivos. A partir de los resultados del test de escucha, se estudiará la relación entre las diferencias de las respuestas impulsivas (medidas y simuladas) con respecto a: 1) parámetros objetivos (diferencias en valores de JND), 2) evaluación subjetiva (diferenciación subjetiva con el test de escucha) y, 3) comparación entre ambos. Finalmente, se obtendrán las conclusiones derivadas de este estudio. ABSTRACT. Tools of Room Acoustic Modeling and the auralization of these rooms have been used to study room Acoustics. In many cases, the modeling software itself generates the auralizations which simulate the sound of a particular audio in a particular position in a room. The quality of simulated impulse responses generated by a modelling tool has been studied in this project. The project carries out a subjective evaluation of the differences between measured and simulated impulse responses in different rooms, and in comparing them with objective acoustical parameters which have been obtained from the previous objective evaluation. For this, a software tool has been developed. This software, with simulated (generated by a modelling software, ODEON) and measured impulse responses generate: the correspondent auralizations, listening test (which carries out the subjective evaluation of the auralization) and a user interface to interact with listeners. This tool also stores the listening test results. In addition, the subjective evaluation (listening test) will be carried out with a group of listeners, from who we will get the results to compare subjective values. The differences between impulse responses (both measured and simulated) are obtained from the results of the listening test and these differences have been studied regarding: 1) objective parameters (difference in JND values); 2) subjetive evaluation (subjective differences with the listening test); 3) comparison between both. Eventually the conclussions derivative from this project will be obtained.

Evaluación subjetiva de la diferenciación entre las respuestas impulsivas medidas y simuladas en diferentes recintos

Este trabajo tiene como objeto la evaluación subjetiva de la diferenciación entre señales auralizadas con respuestas impulsivas simuladas y con respuestas impulsivas medidas en diferentes recintos. Para ello, se ha desarrollado una herramienta software que genera las auralizaciones correspondientes, proporciona una interfaz de usuario para la realización de un test subjetivo de escucha y almacena los resultados de dicho test. Se presentan los resultados de un test de escucha realizado a 58 oyentes, utilizando diferentes señales de prueba, a partir de las respuestas impulsivas simuladas y medidas en seis recintos con características acústicas distintas. ABSTRACT. This work aims the subjective assessment of the differentiation between auralization signals with impulse responses simulated and impulse responses measured at different rooms. To this end, we have developed a software tool that generates the corresponding auralizations, provides a user interface to perform a subjective listening test and stores the results of the test. In this project we present the results of a listening test performed for 58 listeners, using different test signals from the impulse responses measured and simulated in six rooms with different acoustic characteristics.

Virtual restoration of the sound of the Hispanic Rite

The virtual acoustic reality techniques are powerful tools for the recovery of acoustical heritage of historic buildings. Through the acoustic modeling and auralization techniques it´s possible to reconstruct the sound of disappeared buildings or the ones with significant modifications over the years, knowing the original geometry and the acoustic characteristics of their surfaces. This paper shows the results of a research project whose goal is the virtual recovery of the sound of the Hispanic Rite, the rite celebrated by Christians of the Iberian Peninsula before the imposition of the Roman Rite in the mid-eleventh century. For this purpose, acoustic models of a series of Pre-Romanesque churches were made. These acoustic models represent the churches in their original state, following the reconstruction hypothesis proposed by leading researchers in medieval liturgical archeology. Multichannel anechoic recordings of several pieces of the music of the Hispanic Rite have been carried out using a spherical array composed of 31 microphones. Finally, static and dynamic auralizations have been developed, involving the different liturgical configurations which were usual in this rite.