| 1 |
Smartphone applications for measuring noise in the intensive care unit: A feasibility study |
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| Pyoung Jik Lee, Thomas Hampton |
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| Journal of Critical Care. 2024; 79: 154435 |
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| 2 |
Assessing the Usefulness of Mobile Apps for Noise Management in Occupational Health and Safety: Quantitative Measurement and Expert Elicitation Study |
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| Jingchen Huyan, Chandnee Ramkissoon, Mah Laka, Sharyn Gaskin |
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| JMIR mHealth and uHealth. 2023; 11: e46846 |
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| 3 |
Calibration matters: I. Sound level meter basics |
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| King Chung |
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| Journal of Communication Disorders. 2023; 101: 106300 |
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| 4 |
Calibration Matters: II. Measurement of Ambient Noise in Test Rooms/Areas |
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| King Chung |
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| Journal of Communication Disorders. 2023; : 106351 |
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| 5 |
Listening to Preferred and Loud Music Enhances Taekwondo Physical Performances in Adolescent Athletes |
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| Ibrahim Ouergui, Eya Jebabli, Slaheddine Delleli, Hamdi Messaoudi, Craig Alan Bridge, Hamdi Chtourou, Emerson Franchini, Christopher Garrett Ballmann, Luca Paolo Ardigò |
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| 6 |
Investigation of simultaneous effects of noise barriers on near-road noise and air pollutants |
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| Melike Nese Tezel-Oguz, Muhammed Marasli, Deniz Sari, Nesimi Ozkurt, S. Sinan Keskin |
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| Science of The Total Environment. 2023; 892: 164754 |
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| 7 |
Assessment of Neonatal Intensive Care Unit Sound Exposure Using a Smartphone Application |
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| Christine Capriolo, Rose M. Viscardi, Karen A. Broderick, Sepideh Nassebeh, Michael Kochan, Nina S. Solanki, Jocelyn C. Leung |
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| American Journal of Perinatology. 2022; 39(02): 189 |
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| 8 |
Evaluation of a wearable consumer noise measurement device in a laboratory setting |
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| Benjamin Roberts, Neva Jacobs, Claire Mathis, Heidi Reamer, Chucri (Chuck) Kardous, Shannon Gaffney, Richard L. Neitzel |
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| The Journal of the Acoustical Society of America. 2022; 152(1): 547 |
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| 9 |
Telehealth solutions for assessing auditory outcomes related to noise and ototoxic exposures in clinic and research |
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| Samantha Kleindienst Robler, Laura Coco, Mark Krumm |
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| The Journal of the Acoustical Society of America. 2022; 152(3): 1737 |
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| 10 |
Design and testing of a personalized noise monitoring system |
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| Oliver Stroh, Geb Thomas, Thomas M. Peters, Marcus Tatum |
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| Journal of Occupational and Environmental Hygiene. 2022; : 1 |
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| 11 |
Smartphones, a tool for noise monitoring and noise mapping: an overview |
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| A. L. Padilla-Ortiz, F. A. Machuca-Tzili, D. Ibarra-Zarate |
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| 12 |
Getting insight in the performance of noise interventions by mobile sound level measurements |
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| Timothy Van Renterghem, Pieter Thomas, Luc Dekoninck, Dick Botteldooren |
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| Applied Acoustics. 2022; 185: 108385 |
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| 13 |
Indoor noise level measurements and subjective comfort: Feasibility of smartphone-based participatory experiments |
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| Carlo Andrea Rozzi, Francesco Frigerio, Luca Balletti, Silvia Mattoni, Daniele Grasso, Jacopo Fogola, Prashanth Prabhu |
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| PLOS ONE. 2022; 17(1): e0262835 |
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| 14 |
Towards the Interpretation of Sound Measurements from Smartphones Collected with Mobile Crowdsensing in the Healthcare Domain: An Experiment with Android Devices |
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| Robin Kraft, Manfred Reichert, Rüdiger Pryss |
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| Sensors. 2021; 22(1): 170 |
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| 15 |
The Accuracy of
iPhone
Applications to Monitor Environmental Noise Levels
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| Eleanor Crossley, Tim Biggs, Phillip Brown, Tahwinder Singh |
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| 16 |
Effects of the COVID-19 pandemic on noise pollution in three protected areas in metropolitan Boston (USA) |
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| Carina Terry, Matthew Rothendler, Lucy Zipf, Michael C. Dietze, Richard B. Primack |
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| 17 |
The Accuracy of Smartphone Sound Level Meter Applications (SLMAs) in Measuring Sound Levels in Clinical Rooms |
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| Yula C. Serpanos, Janet R. Schoepflin, Steven R. Cox, Diane Davis |
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| Journal of the American Academy of Audiology. 2021; 32(01): 027 |
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| 18 |
Using mobile phones as light at night and noise measurement instruments: a validation test in real world conditions |
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| Nahum M. Gabinet, Hassan Shama, Boris A. Portnov |
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| Chronobiology International. 2021; : 1 |
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| 19 |
Attitudes towards outdoor and neighbour noise during the COVID-19 lockdown: A case study in London |
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| Pyoung Jik Lee, Jeong Ho Jeong |
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| Sustainable Cities and Society. 2021; 67: 102768 |
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| 20 |
Predicting Fine Spatial Scale Traffic Noise Using Mobile Measurements and Machine Learning |
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| Xiaozhe Yin, Masoud Fallah-Shorshani, Rob McConnell, Scott Fruin, Meredith Franklin |
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| Environmental Science & Technology. 2020; 54(20): 12860 |
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| 21 |
Noise exposures in different community settings measured by traditional dosimeter and smartphone app |
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| Neva Jacobs, Benjamin Roberts, Heidi Reamer, Claire Mathis, Shannon Gaffney, Richard Neitzel |
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| Applied Acoustics. 2020; 167: 107408 |
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| 22 |
Attitudes to Noise Inside Dwellings in Three Megacities: Seoul, London, and São Paulo |
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| Pyoung Jik Lee, Carl Hopkins, Rafaella Penedo |
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| International Journal of Environmental Research and Public Health. 2020; 17(16): 6005 |
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| 23 |
Advances in the Development of Innovative Sensor Platforms for Field Analysis |
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| Silvia Rizzato, Angelo Leo, Anna Grazia Monteduro, Maria Serena Chiriacò, Elisabetta Primiceri, Fausto Sirsi, Angelo Milone, Giuseppe Maruccio |
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| 24 |
Efficacy of Android Based Mobile Device as a Screening Tool for Hearing Loss in Quiet and Noisy Environments |
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| Devendra Kumar Gupta, Seema Pati, Sanajeet Singh, Ravi Roy, Rajeev Chugh, Sunil Goyal, Shivali Bansal, Keerti Sangwan |
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| Journal of Evolution of Medical and Dental Sciences. 2019; 8(32): 2577 |
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| 25 |
Using a smartphone to investigate classroom acoustics |
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| Maria Jesús Elejalde-García, Erica Macho-Stadler |
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| Journal of Physics: Conference Series. 2019; 1287(1): 012023 |
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| 26 |
Assimilation of mobile phone measurements for noise mapping of a neighborhood |
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| Raphaël Ventura, Vivien Mallet, Valérie Issarny |
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| The Journal of the Acoustical Society of America. 2018; 144(3): 1279 |
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| 27 |
Evaluation and calibration of mobile phones for noise monitoring application |
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| Raphaël Ventura, Vivien Mallet, Valérie Issarny, Pierre-Guillaume Raverdy, Fadwa Rebhi |
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| The Journal of the Acoustical Society of America. 2017; 142(5): 3084 |
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