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1

The Comprehensive Research of the Road Acoustic Screen with Absorbing and Diffusing Surface

Kamisiński T., Kinasz R., Szeląg A., Rubacha J., Pilch A., Flach A., Baruch K.

Archives of Acoustics

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2015

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Vol. 40, No. 1

137--144

EN

The paper presents the new solution to a road acoustic screen consisting of elements which are highly diffusing and simultaneously resistant to weathering, but also characterised by a sound absorption. There is described the comprehensive research of such the road acoustic screen with absorbing and diffusing surface. The study includes screen’s resistance to wind load and snow removal, impact tests and measurements of some acoustic parameters.

2

On Certain Practical Issues Relating to Construction of the In-duct Single Mode Synthesizer

Gorazd Ł., Snakowska A., Jurkiewicz J., Flach A.

Archives of Acoustics

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2015

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Vol. 40, No. 2

247--255

EN

It is convenient to have a device and a method of generating single cut-on modes in cylindrical hard-walled waveguides or at least in laboratory models of such systems. This allows to examine, among other things, properties of various active and/or passive elements inserted in a cylindrical duct by testing them in conditions when the incident (input) wave comprises only one cut-on mode and determining the reflection and transmission coefficients for single selected incident modes. As it has been already demonstrated by the present authors, it is possible to generate single cut-on modes in a circular duct using a small (although increasing with mode order) number of acoustic monopoles arranged properly on a duct cross-section and driven with appropriate acoustic volume amplitudes and phases. Laboratory models of such sources are proposed in this paper and results of tests verifying their directional properties are presented. The other technical issue relating to practical utilization of the proposed method is the possible error introduced by the apparatus used for scanning the acoustic field inside the duct model. It is shown that insertion of the measuring probe changes the total energy radiated into the free space only by a fraction of a decibel.

3

System do wspomagania pomiarów akustycznych

Mężyk J., Zbrowski A., Flach A.

Elektro Info

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2012

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nr 11

60--64

PL

W artykule zaprezentowano system do wspomagania pomiarów akustycznych prowadzonych w komorze pogłosowej. Jego zadaniem jest pozycjonowanie próbek badanych materiałów rozpraszających dźwięk względem źródeł dźwięku i mikrofonów pomiarowych. Zaprezentowano konstrukcję mechaniczną urządzenia, zasadę sterowania nim oraz przykładowe wyniki pomiarów. Urządzenie zaprojektowano tak, aby jego wpływ na warunki akustyczne w komorze był jak najmniejszy.

EN

The article presents the system for automated acoustic measurements taken In an anechoic chamber Its task is to position the samples of tested sound dif-fusing materials related to the sources of sounds and the measurement microphones. The mechanical construction of the deyjce is presented as well as ttie principle of its control and the sample results of measurements. The design of the system is aimed at as little effect on the acoustic conditions in the chamber as possible.

4

Testing of a Device for Positioning Measuring Microphones in Anechoic and Reverberation Chambers

Felis J., Flach A., Kamisiński T.

Archives of Acoustics

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2012

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Vol. 37, No. 2

245-250

EN

This paper presents a mechanical positioning system for a measuring microphone designed for acoustic studies in anechoic and reverberation chambers at the Department of Mechanics and Vibroacoustics, AGH. The results are discussed in the context of mechanical positioning and its impact on the outcome of the execution of individual measurement procedures. Moreover, areas for research were identified and solution concepts shown for further development of the automation of acoustic measurements in different research rooms in order to reduce the human involvement in them.

5

System sterowania manipulatora 3DOF

Mężyk J., Flach A.

Problemy Eksploatacji

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2011

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nr 4

125-133

PL

W artykule zaprezentowano strukturę układów regulacji w systemie sterowania napędami w manipulatorze przeznaczonym do pozycjonowania mikrofonu pomiarowego podczas badań w komorze bezechowej. Omówiono sposób współpracy układów wykonawczych z układem sterującym. Przedstawiono wewnętrzną strukturę złożonych, wielopoziomowych układów regulatorów zabudowanych w użytych urządzeniach. Przedstawiono aplikację sterującą do prowadzenia badań w komorze bezechowej.

EN

In the article control circuits are presented for manipulator system for measurement microphone positioning during tests in anechoic chamber. The method of combining actuators with superior circuits is presented. Inner structure of complex, multi-stage controllers in stock devices is described. The article presents the control application for performing the measurements in the anechoic chamber.

6

Ekran akustyczny z powierzchnią dyfuzyjną

Kamisiński T., Flach A., Rubacha J., Pilch A.

Drogownictwo

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2010

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nr 12

416-418

PL

Ekrany akustyczne mogą odbijać, pochłaniać lub rozpraszać dźwięki. Ekran ze specjalnie zaprojektowaną powierzchnią dyfuzyjną ma wysoki stopień rozpraszania dźwięku. Ma również możliwość pochłaniania dźwięku dzięki komorom i systemem perforacji. Te właściwości umożliwiają zastosowanie ekranu do ochrony przed hałasem drogowym.

EN

Acoustic screen can reflect, absorb or scatter a sound. Screen with especially designed diffusion surface gives high degree of sound scattering. It has also possibility of sound absorbing by mean of cells and perforation system. These characteristic features make possible the use of such screen for protection against road noise.

7

A concept of an actuator for the positioning measurement system in an anechoic room

Batko W., Felis J., Flach A., Kamisiński T., Giesko T., Zbrowski A.

Archives of Acoustics

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2008

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Vol. 33, No. 2

201-207

EN

Automation of acoustic measurements constitutes a considerable challenge to designers. On one hand, the special character of acoustic measurements in an anechoic room requires designs that minimize disturbances to the acoustic field; on the other hand, automation always involves the introduction of additional mechanical elements, which disturb this field. The authors of this paper attempt to reconcile these conflicting demands by designing a mechatronic measurement system. On the basis of known solutions and current measurement needs, a number of concepts has been proposed, and a design has been identified that can be implemented in the room under study.