A01-01 | ANC and AVC for vehicles | Shunsuke ISHIMITSU |
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A01-02 | ANC and AVC for home and/or office use | Woon-Seng GAN |
A01-03 | ANC and AVC for consumer products | Young-Sup Lee |
A01-04 | ANC and AVC for construction and environment | Tsutomu NISHIGAKI |
A01-05 | New applications using ANC and AVC | Chinsuk HONG |
A01-06 | Signal processing and algorithms for ANC and AVC | Yoshinobu KAJIKAWA |
A02-01 | Animal sound classification | Sangwook Park |
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A03-01 | Sound insulation | HyeonKu Park and Tanaka Manabu |
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A03-02 | Sound insulation in wooden construction | Sejong Kim, Hiramitsu Atsuo and Jeffrey Mahn |
A03-03 | Impact-borne noise | Kyoung-woo Kim, Berndt Zeitler amd Ryuta TOMITA |
A03-04 | Absorption materials | KyoungHo Kim and Satoshi SUGIE |
A03-05 | Noise from pipings | |
A03-06 | HVAC noise | |
A03-07 | Measurement & instrumentation | GukGon Song |
A03-08 | Structure borne noise | Hong-Seok Yang and Susumu Hirakawa |
A03-09 | Acoustic regulations, classification schemes and standards in building acoustics | Jeongho Jeong and Birgit Rasmussen |
A03-10 | Safety & emergency acoustics | Jeongho Jeong and Jun-ho Choi |
A03-11 | Room acoustics - Asian music | Yong Hee Kim, Alejandro Bidondo and YAN Xiang |
A03-12 | Indoor spaces, offices & privacy | Yong Hee Kim |
A03-13 | School & learning space | Chan Jae Park, YoungJi Choi and Keiji Kawai |
A03-14 | Green & multistory buildings etc. | WonYound Yang and JoonHee Lee |
A03-15 | Micro perforated panel | JongKwan Ryu and Kimihiro Sakagami |
A04-01 | Noise assessment and policy | Eoin King, Maurice Yeung and Andy Chung |
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A04-02 | Sound propagation model | Timothy Van Renterghem and Yangfan Liu |
A04-03 | Environmental sources affecting large area | Andy Chung and Michel Rosmolen |
A04-04 | Environmental sound modelling and simulation | Gaetano Licitra and Judicael Picaut |
A04-05 | Environmental infrasound and vibration | Kristy Hansen |
A05-01 | Immersive and spatial audio | Wieslaw Woszczyk |
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A05-02 | Loudspeaker and microphone | Finn T. Agerkvist |
A05-03 | Array technology | Efren Fernandez Grande and Jiho Chang |
A05-04 | Acoustic sensors and actuators | Kentaro Nakamura |
A05-05 | Optical and non-invasive measurement of sound | Yasuhiro Oikawa |
A05-06 | Measurement and instrumentation | Wan-Ho Cho |
A05-07 | Sound recording | Toru Kamekawa |
A05-08 | Signal processing for spatial audio and binaural reproduction | Boaz Rafaely and Hyunkook Lee |
A05-09 | Creation of haptic feeling by sound and vibration | Ercan Altinsoy |
A05-10 | Smart material solutions for electroacoustic devices | Ercan Altinsoy |
A05-11 | Metrology - calibration and standards | Salvador Barrera-Figueroa |
A05-12 | Infrasound measurement and analysis | Wan-Ho Cho |
A06-01 | Hydro acoustics | Hanshin Seol and Cheolung Cheong |
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A06-02 | Aeroacoustics: Fundamentals to applications | Jae-Wook Kim, Con Doolan and Stefan Jacob |
A06-03 | Flow duct acoustics | Mats Åbom and Cheolung Cheong |
A06-04 | Fan noise | Mats Åbom, Cheng Yang, Csaba Horváth and Tze Pei Chong |
A06-05 | Flow acoustics in turbo fans and turbine | Mats Åbom and Stefan Jacob |
A06-06 | Aeroacoustics of fluid-structure interaction | Randolph Leung and Cheolung Cheong |
A07-01 | Music signal analysis, processing, synthesis | Nicholas Giordano |
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A07-02 | Musician – Instrument interaction | Michele Ducceschi and Vasileios Chatziioannou |
A07-03 | Acoustics of string instruments | Claudia Fritz |
A07-04 | Sensory evaluation of musical sound | Charalampos Saitis |
A07 (Special Session) | Theater sound reproduction workshop | Youngsun Kim |
A08-01 | Measuring Annoyance: new approaches | D. Schreckenberg |
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A08-02 | Number of events and other traffic conditions to annoyance | Dick Botteldooren and Junhong Park |
A08-03 | Response to transportation noise and vibration | M. Smith and Wonseok Yang |
A08-04 | Noise and health: state of the art (including machine learning assessment) | Ta-Yuan Chang and Yunsang Kwak |
A08-05 | Noise and health in children | Irene van Kamp and Jans Spilski |
A08-06 | Occupational noise and health | Jenny Selander |
A08-07 | Noise barriers, action plans, and other interventions | T. van Renterghem and Francesco Aletta |
A09-01 | Acoustic metamaterials and phononic crystals | Chunyin Qiu and Meng Xiao |
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A09-02 | Acoustic metasurfaces | Chen Shen and Yadong Xu |
A09-03 | Nonlinear acoustics | Won-Suk Ohm and Mark Hamilton |
A09-04 | Acoustofluidics | Feiyan Cai and Xiasheng Guo |
A09-05 | Elastic metamaterials | Rui Zhu and Yangyang Chen |
A09-06 | Jet Noise | Kent Gee and Won-Suk Ohm |
A10-01 | Advances in cochlear imaging | Jens Hjortkjær |
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A10-02 | Characterization of individual hearing profiles | Hari Bharadwaj |
A10-03 | Interactive hearing devices | Volker Hohmann |
A10-04 | Augmented hearing technology | Christi Miller |
A10-05 | Multi-modal solutions to enhance hearing | Jeremy Marozeau and Sebastian Merchel |
A10-06 | Clinical audiology and applications | Yoonseob Lim, Mugyun Park and Jae-Jin Song |
A10-07 | AI and Robot applications in hearing science and technology | Yong-Hwa Park |
A11-01 | Psychological acoustics | Andre Fiebig and Mariko Tsuruta-Hamamura |
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A11-02 | Product sound quality and sound design | Masayuki Takada, Sung-Hwan Shin and Etienne Parizet |
A11-03 | Application of psychoacoustics in noise evaluation | Katsuya Yamauchi and Pedro Poveda-Martinez |
A11-04 | Spatial hearing | Ercan Altinsoy and Piotr Majdak |
A11-05 | Sound in multisensory perception and interactions | Massimiliano Masullo and Akinori Ito |
A11-06 | Psychoacoustics applied to the soundscape | Margret Engel and Andre Fiebig |
A12-01 | Wave-based room acoustic simulations | Stefan Bilbao, Takeshi Okuzono and Allan Peter Engsig-Karup |
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A12-02 | Auditory virtual reality for enclosed spaces | Maarten Hornikx and Finnur Pind |
A12-03 | Recent advances in sound absorption and diffusion of materials/devices | Yun Jing, Jieun Yang and Yong Li |
A12-04 | Acoustics of cultural heritage buildings | Francesco Martellotta and Zühre Sü Gül |
A12-05 | Measurement of sound absorption: standardized and upcoming methods | Melanie Nolan and Jamilla Balint |
A12-06 | Acoustical needs for comfortable and inclusive learning spaces | Arianna Astolfi and Nicola Prodi |
A12-07 | Open plan offices | Manuj Yadav and Sang Hee Park |
A12-08 | Effects of noise and room acoustics on communication among occupational voice users | Lady Catherine Cantor Cutiva, Pasquale Bottalico and Viveka Lyberg Åhlander |
A12-09 | Acoustics and noise in hospitals | Paul Barach and Thea Mathilde Larsen |
A12-10 | Auralization of room acoustics by reproduction of spatial room impulse response | Pulkki Ville and Leo McCormack |
A12-11 | Room acoustic simulations | Toru Otsuru and Lauri Savioja |
A12-12 | Artificial intelligence, machine learning and Bayesian analysis in room-acoustics | John O'Keefe, Ning Xiang and Allan Peter Engsig-Karup |
A12-13 | Acoustics in performance spaces | Tapio Lokki |
A12-14 | Advance measurement methods in room acoustics | Massimo Garai and Tetsuya Sakuma |
A12-15 | Acoustics in coupled volume systems | Zühre Sü Gül and Ning Xiang |
A12-16 | Acoustic array processing in architectural acoustics | Efren Fernandez Grande and Jing Lu |
A12-17 | Spatial and binaural evaluation in performance venues | Michelle Vigeant |
A12-18 | General room acoustics | Louena Shtrepi and Dario D'Orazio |
A13-01 | Machine learning-based single and multi-channel acoustic signal processing | Mingsian R. Bai and Yi-Wen Liu |
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A13-02 | Anomalous sound detection and classification for condition monitoring | Keisuke Imoto and Tatsuya Komatsu |
A13-03 | Source event detection, localization, and classification | Archontis Politis |
A13-04 | Signal processing for spatial audio and binaural reproduction | Boaz Rafaely and Hyunkook Lee |
A13-05 | Spherical array signal processing and VR/AR applications | Franz Zotter and Jung-Woo Choi |
A13-06 | Sound recording | Toru Kamekawa |
A13-07 | Immersive and spatial audio | Wieslaw Woszczyk |
A14-01 | Soundscape of public spaces | Jooyoung Hong and Brigitte Schulte-Fortkamp |
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A14-02 | Soundscape indicators and modeling | Jian Kang and Qi Meng |
A14-03 | Urban sound planning | Luigi Maffei |
A14-04 | Indoor soundscape | Francesco Aletta and Papatya Nur Dokmeci Yorukoglu |
A14-05 | Multisensory interactions in soundscape | Sanghee Park and Hui Ma |
A14-06 | Soundscape and health | Yoshiharu Soeta and Alessia Frescura |
A14-07 | Underwater soundscapes | Olivier Adam |
A14-08 | Covid led changes in soundscapes | Jeongho Jeong and César Asensio |
A15-01 | Child speech analysis | Elena Lyakso and Nersisson Ruban |
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A15-02 | Pathological speech | Cheolwoo Jo and Jaeok Kim |
A15-03 | Model-based and data-driven acoustic signal enhancement | Walter Kellermann |
A15-04 | Assessment methods of speech perception with conventional and emerging hearing devices | Qinglin Meng and Yonghee Oh |
A15-05 | Speech processing for enriched human communication | Masashi Unoki and Shuichi Sakamoto |
A15-06 | Voice conversion | Haizhou Li and Tomoki Toda |
A15-07 | Speech communication research using extended reality (XR) technology | Alexander Raake, Gunilla Berndtsson and Olli Rummukainen |
A15-08 | Deep learning for speech processing | Ha-Jin Yu and Zheng-Hua Tan |
A16-01 | Simulation in ultrasound propagation | Ulrike Steinmann and Sebastian Woeckel |
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A16-02 | Simulation for acoustic design | Sabine Langer, Sebastian Rothe and Blech Christopher |
A16-03 | Underwater noise pollution due to offshore construction activities | Stephan Lippert and Cheolsoo Park |
A16-04 | Data-driven methods in vibroacoustics | Steffen Marburg and Caglar Gurbuz |
A16-05 | Simulation of ultrasound in non-destructive testing | Marc Kirch, Rainer Schneider, Ute Rabe and Dietmar Weber |
A16-06 | Analytical and numerical methods applied to acoustic metamaterials | Jose Sanchez-Dehesa and Vicente Cutanda Henriquez |
A16-07 | Numerical flow acoustics | Jae-Wook Kim and Manfred Kaltenbacher |
A16-08 | Simulation of train-induced noise and vibration and building response | Andrew Peplow and Ola Floden |
A16-09 | Mathematical methods in acoustics | Peter Balazs and Georg Tauboeck |
A17-01 | Automotive noise and vibration | Sangkwon Lee, J. Stuart Bolton, Takeo Hashimoto and Katsuya Yamauchi |
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A17-02 | Road traffic noise | Adam Alexander, Eoin A. King, Kohei Yamamoto and Shinichi Sakamoto |
A17-03 | Railway vehicle noise and vibration | Jiyoung Hong |
A17-04 | Aircraft noise and vibration | Carsten Spehr |
A17-05 | Electric vehicle noise and vibration | Klaus Genuit |
A17-06 | UAV(Drone)/UAM noise and vibration | Joong-Kwan Kim, Jinmo Lee, Sang Kyu Park and Naoaki Shinohara |
A17-07 | ANC/AVC for vehicle | Youngjin Park, J. Cheer, C. Shi, M. Pawelczyk and Y. Kajikawa |
A17-08 | Design for vehicle sound quality | Takeshi Toi and Dong-chul Park |
A17-09 | Diagnostic/prognostic of vehicle components by acoustic means | Choon Su Park |
A17-10 | BSR | Sung-uk Choi, Min-Young Shon and Junhong Park |
A18-01 | High-frequency ultrasound imaging | Weibao Qiu |
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A18-02 | High frame rate ultrasound imaging and its applications | Johnson (C.C) Huang |
A18-03 | Multiphysics and multimodality ultrasound imaging | Jin Ho Chang |
A18-04 | Brain therapy using ultrasound | Jinyoung Park |
A18-05 | Cavitation-based therapeutic ultrasound | Ki Joo Pahk |
A19-01 | Underwater communication | Charalampos Tsimenidis |
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A19-02 | Propagation and scattering | Oleg Godin and Nathalie Favretto-Cristini |
A19-03 | Inverse problems in underwater acoustics | Stan Dosso and Julien Bonnel |
A19-04 | Vector acoustics | Peter Dahl |
A19-05 | General topics in acoustical oceanography | Keunhwa Lee |
A20-01 | Structural acoustics and vibration | Hyun-Gwon Kil and Liling Tang |
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A20-02 | Sound radiation by vibrating structures, fluid loading of vibrating structures | Seong-Hyun Lee and Randolph Leung |
A20-03 | Structure-borne sound and vibration engineering, SEA (Statistical energy analysis) | Jungsoo Ryue and Gregor Tanner |
A20-04 | Inverse problems in vibration and acoustics, acoustic holography | Kyungmin Baik and Weikang Jiang |
A20-05 | Structural intensity – computation, measurement, application | Kyungjun Song and Marcus Maeder |
A21-01 | Reconstruction/restoration of sound in historic buildings, structures, and cultural landscapes | Brian Katz and Margarita Díaz-Andreu |
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A21-02 | Virtual acoustic environments for hearing research | Janina Fels and Jörg Buchholz |
A21-03 | Immersive sound for social connection | Philip Robinson and Antje Ihlefeld |
A21-04 | Rendering of realistic 3D virtual acoustic environments | Jonas Braasch and Josep Llorca-Bofí |
A21-05 | Virtual acoustics in environmental noise control | Massimiliano Masullo and Michael Vorländer |
A21-06 | Auditory virtual reality in architecture | Maarten Hornikx and Finnur Pind |
A21-07 | Virtual validation and simulator aided engineering in automotive acoustics and vibration | Mark Allman-Ward and Gary Newton |
A22-01 | Auditory training | Inyong Choi and William L. Martens |
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A22-02 | Flipped education and smart learning in acoustic education | Takayuki Arai |
A22-03 | Acoustic education in the post-pandemic era: challenges and advances | Marui Atsushi |
A22-04 | Discovering acoustics in history and archeology | Miriam Kolar |