Örjan Johansson scite author profile

Örjan Johansson

5Publications

41Citation Statements Received

70Citation Statements Given

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Affiliations

Luleå University of Technology

Publications

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Development of an annoyance index for heavy-duty diesel engine noise using multivariate analysis

Khan¹,

Johansson²,

Sundback³

1997

Noise Control Eng. J.

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Annoyance response to vehicle noise is commonly reported by many people in society. A need to improve the sound quality of vehicles is therefore apparent. The engine is one of the most predominant sources of vehicle noise causing annoyance. Judgments of annoyance due to engine noise were made by 160 subjects in five separate listening tests. An M-S "mid-side… stereo microphone was used to record engine sounds under idling and running conditions for listening Tests A-C, and E. For listening test D, two microphones were used to record engine sounds in stereo under idling conditions. All sound stimuli were presented to the subjects through a pair of loudspeakers in an anechoic room. One of the listening tests was conducted using a paired comparisons method and the other listening tests were conducted using a sequential rating method known as the method of successive intervals. A prediction model of annoyance response was developed by the use of principal component analysis and partial least-squares regression. In this case, all original annoyance scores for all five separate tests were transformed into a common annoyance scale. The prediction model was based on three psychoacoustic descriptors: loudness, sharpness, and harmonic ratio. The model was validated internally and also externally by three new sound stimuli. The prediction of annoyance for these three sounds was found to be consistent when judged by 20 additional subjects. The model gave good predictions of annoyance judgments for 6-cylinder in-line engine noise.

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Modelling Perceptual Dimensions of Saxophone Sounds

Nykänen¹,

Johansson²,

Lundberg³

et al. 2009

Acta Acustica united with Acustica

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In the past, musical instruments were developed overlong periods of time by skilled craftsmen. Today,most instruments are mass-produced. Design of musical instruments as mass-produced products requires using strategies which makeiteasier to identify customer needs and develop exact specifications. To develop useful specifications it is necessary to convert general descriptions into something which can be commonly understood and also be interpretable in terms of acoustic metrics. In this study,m ethods for analysis and specification of steady state parts of alto saxophone sounds were developed. Saxophonists' use of verbal descriptions of saxophone sounds wasi nvestigated. Sound stimuli were binaurally recorded. Judgements upon perceivedq ualities were made by saxophonists and non-saxophonists using the method of verbal attribute magnitude estimation. Perceptual dimensions were identified using principal component analysis of listening test data. Three prominent dimensions were found and described using the verbal attributes: 1) warm/soft, 2) back vowel analogues and 3) sharp/rough. The perceptual dimensions were modelled as linear functions of acoustic metrics. The results were validated through listening tests with news ubjects and news timuli. Based on the findings, the method wass een as an approach which can enhance the musical instrument design process. PACS no. 43.66.Jh, 43.66.Lj, 43.75.Pq ACTA ACUSTICA UNITED WITH ACUSTICA Nykänen et al.:P erceptual dimensions of saxophone sounds Vol. 95 (2009)

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Extraction of tungsten from scheelite using hydrodynamic and acoustic cavitation

Johansson

Pamidi

Shankar

2021

Ultrasonics Sonochemistry

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Toxin production by and adhesive properties of Clostridium difficile isolated from humans and horses with antibiotic-associated diarrhea

Taha¹,

Johansson²,

Jonsson³

et al. 2007

Comparative Immunology, Microbiology and Infectious Diseases

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Comparison of two different ultrasound reactors for the treatment of cellulose fibers

Pamidi

Johansson

Löfqvist

et al. 2020

Ultrasonics Sonochemistry

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