FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1514442637> ?p ?o ?g. }

• W1514442637 abstract "Acoustic noise control systems gain more importance as more and more industrial equipments, i.e., engines, fans, ventilators, and exhausters are in use (1–6). Passive acoustic noise control techniques benefit enclosures, barriers and silencers to attenuate ambient noise. However, if the noise has dominant low-frequency components, then passive techniques are either inefficient or expensive. In contrast, active noise control (ANC) systems are much more effective in canceling low-frequency noise. Various noise cancelation algorithms have been proposed in the literature (7–11). In a generic ANC scheme, a reference microphone is used to receive the ambient noise and the system produces an anti-noise signal which has equal amplitude but opposite phase with the primary noise to cancel it acoustically (1). As the primary noise may have time-varying characteristics, ANC systems should be able to adapt themselves to the noise rapidly. In most of the ANC systems, either adaptive filters or neural network based structures are employed (2–6; 9; 12–18). In (15), fuzzy-neural networks are used to estimate the nonlinear response of the unknown primary acoustic path where primary and secondary paths are characterized by nonlinear functions. On the other hand adaptive filters are usually employed to increase the system performance and robustness. They are mostly employed with least mean squares (LMS)-based algorithms and the adaptation is usually realized in time domain (3; 9; 12; 13; 19). Whereas Fourier domain (20) and wavelet-based adaptive filter bank approaches (21; 22) are among the few transform-domain adaptation techniques that have been used in the ANC systems. Compared to time-domain adaptive filters, transform-domain adaptive filters may need fewer parameters (23; 24). When the noise source has dominant low-frequency components, wavelet transform-based adaptive filters provide higher performance rates. However, in case of linear frequency modulated (LFM) or chirp-type audio signals, as their frequency varies linearly with time, performance rates are limited for both Fourier and wavelet-transform domains. LFM signals are among the frequently used signals in real life and they are good models for mechanical systems with accelerating internal components. A Gaussian enveloped," @default.
• W1514442637 created "2016-06-24" @default.
• W1514442637 creator A5006814743 @default.
• W1514442637 creator A5043960937 @default.
• W1514442637 date "2012-03-02" @default.
• W1514442637 modified "2023-10-18" @default.
• W1514442637 title "Adaptive Fractional Fourier Domain Filtering in Active Noise Control" @default.
• W1514442637 cites W1492221128 @default.
• W1514442637 cites W1541444911 @default.
• W1514442637 cites W1964950368 @default.
• W1514442637 cites W1978432871 @default.
• W1514442637 cites W1985128545 @default.
• W1514442637 cites W1996486345 @default.
• W1514442637 cites W1997108546 @default.
• W1514442637 cites W2026014880 @default.
• W1514442637 cites W2039003912 @default.
• W1514442637 cites W2062177972 @default.
• W1514442637 cites W2067281793 @default.
• W1514442637 cites W2067977964 @default.
• W1514442637 cites W2076401247 @default.
• W1514442637 cites W2079751151 @default.
• W1514442637 cites W2090697566 @default.
• W1514442637 cites W2101181240 @default.
• W1514442637 cites W2108710836 @default.
• W1514442637 cites W2109715093 @default.
• W1514442637 cites W2111605097 @default.
• W1514442637 cites W2114492997 @default.
• W1514442637 cites W2116108098 @default.
• W1514442637 cites W2117228608 @default.
• W1514442637 cites W2120230078 @default.
• W1514442637 cites W2121375037 @default.
• W1514442637 cites W2125031800 @default.
• W1514442637 cites W2137205194 @default.
• W1514442637 cites W2144107915 @default.
• W1514442637 cites W2150876933 @default.
• W1514442637 cites W2151395579 @default.
• W1514442637 cites W2152987686 @default.
• W1514442637 cites W2169791062 @default.
• W1514442637 cites W606473257 @default.
• W1514442637 cites W2115433244 @default.
• W1514442637 doi "https://doi.org/10.5772/26973" @default.
• W1514442637 hasPublicationYear "2012" @default.
• W1514442637 type Work @default.
• W1514442637 sameAs 1514442637 @default.
• W1514442637 citedByCount "0" @default.
• W1514442637 crossrefType "book-chapter" @default.
• W1514442637 hasAuthorship W1514442637A5006814743 @default.
• W1514442637 hasAuthorship W1514442637A5043960937 @default.
• W1514442637 hasBestOaLocation W15144426371 @default.
• W1514442637 hasConcept C100342000 @default.
• W1514442637 hasConcept C102519508 @default.
• W1514442637 hasConcept C115961682 @default.
• W1514442637 hasConcept C134306372 @default.
• W1514442637 hasConcept C154945302 @default.
• W1514442637 hasConcept C163294075 @default.
• W1514442637 hasConcept C19118579 @default.
• W1514442637 hasConcept C2775924081 @default.
• W1514442637 hasConcept C31972630 @default.
• W1514442637 hasConcept C33923547 @default.
• W1514442637 hasConcept C41008148 @default.
• W1514442637 hasConcept C47446073 @default.
• W1514442637 hasConcept C99498987 @default.
• W1514442637 hasConceptScore W1514442637C100342000 @default.
• W1514442637 hasConceptScore W1514442637C102519508 @default.
• W1514442637 hasConceptScore W1514442637C115961682 @default.
• W1514442637 hasConceptScore W1514442637C134306372 @default.
• W1514442637 hasConceptScore W1514442637C154945302 @default.
• W1514442637 hasConceptScore W1514442637C163294075 @default.
• W1514442637 hasConceptScore W1514442637C19118579 @default.
• W1514442637 hasConceptScore W1514442637C2775924081 @default.
• W1514442637 hasConceptScore W1514442637C31972630 @default.
• W1514442637 hasConceptScore W1514442637C33923547 @default.
• W1514442637 hasConceptScore W1514442637C41008148 @default.
• W1514442637 hasConceptScore W1514442637C47446073 @default.
• W1514442637 hasConceptScore W1514442637C99498987 @default.
• W1514442637 hasLocation W15144426371 @default.
• W1514442637 hasLocation W15144426372 @default.
• W1514442637 hasOpenAccess W1514442637 @default.
• W1514442637 hasPrimaryLocation W15144426371 @default.
• W1514442637 hasRelatedWork W114767653 @default.
• W1514442637 hasRelatedWork W2064085306 @default.
• W1514442637 hasRelatedWork W2181334340 @default.
• W1514442637 hasRelatedWork W2196667367 @default.
• W1514442637 hasRelatedWork W2378774807 @default.
• W1514442637 hasRelatedWork W2389103347 @default.
• W1514442637 hasRelatedWork W2391040174 @default.
• W1514442637 hasRelatedWork W2717219646 @default.
• W1514442637 hasRelatedWork W2785276890 @default.
• W1514442637 hasRelatedWork W2888795647 @default.
• W1514442637 isParatext "false" @default.
• W1514442637 isRetracted "false" @default.
• W1514442637 magId "1514442637" @default.
• W1514442637 workType "book-chapter" @default.