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Journal of Occupational and Environmental Hygiene Volume 13, 2016 - Issue 11
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Original Articles

Improving the accuracy of smart devices to measure noise exposure

Benjamin RobertsDepartment of Environmental Health Sciences, School of Public Health, University of Michigan, Ann Arbor, MichiganCorrespondence[email protected]
,
Chucri KardousNational Institute for Occupational Safety and Health, Cincinnati, Ohio
&
Richard NeitzelDepartment of Environmental Health Sciences, School of Public Health, University of Michigan, Ann Arbor, Michigan
Pages 840-846 | Published online: 09 Sep 2016

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Oliver Stroh, Geb Thomas, Thomas M. Peters & Marcus Tatum. (2023) Design and testing of a personalized noise monitoring system. Journal of Occupational and Environmental Hygiene 20:2, pages 120-128.
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Nahum M. Gabinet, Hassan Shama & Boris A. Portnov. (2022) Using mobile phones as light at night and noise measurement instruments: a validation test in real world conditions. Chronobiology International 39:1, pages 26-44.
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Travis McLennon, Shivangi Patel, Alberto Behar & Mohammad Abdoli-Eramaki. (2019) Evaluation of smartphone sound level meter applications as a reliable tool for noise monitoring. Journal of Occupational and Environmental Hygiene 16:9, pages 620-627.
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Laura Hallett, Marcus Tatum, Geb Thomas, Sinan Sousan, Kirsten Koehler & Thomas Peters. (2018) An inexpensive sensor for noise. Journal of Occupational and Environmental Hygiene 15:5, pages 448-454.
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Articles from other publishers (29)

King Chung. (2023) Alternative audiometric calibration methods: Evaluation of sound level measuring apps for audiometric calibration. Journal of Communication Disorders 105, pages 106351.
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A. L. Padilla-Ortiz, F. A. Machuca-Tzili & D. Ibarra-Zarate. (2022) Smartphones, a tool for noise monitoring and noise mapping: an overview. International Journal of Environmental Science and Technology 20:3, pages 3521-3536.
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Megan Burfoot, Ali GhaffarianHoseini, Amirhosein Ghaffarianhoseini & Nicola Naismith. (2022) Passive variable acoustic technology for classroom reverberation time: a case study. Smart and Sustainable Built Environment.
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Benjamin Roberts, Neva Jacobs, Claire Mathis, Heidi Reamer, Chucri (Chuck) Kardous, Shannon Gaffney & Richard L. Neitzel. (2022) Evaluation of a wearable consumer noise measurement device in a laboratory setting. The Journal of the Acoustical Society of America 152:1, pages 547-552.
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Colleen G. Le Prell, Carmen C. Brewer & Kathleen C. M. Campbell. (2022) The audiogram: Detection of pure-tone stimuli in ototoxicity monitoring and assessments of investigational medicines for the inner ear. The Journal of the Acoustical Society of America 152:1, pages 470-490.
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María del Carmen Rey-Merchán, Antonio López-Arquillos & José Manuel Soto-Hidalgo. (2022) Prevention of Falls from Heights in Construction Using an IoT System Based on Fuzzy Markup Language and JFML. Applied Sciences 12:12, pages 6057.
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Richard L. Neitzel, Lauren Smith, Linyan Wang, Glenn Green, Jennifer Block, Michael Carchia, Kuba Mazur, Glen DePalma, Reza Azimi & Blanca Villanueva. (2022) Toward a better understanding of nonoccupational sound exposures and associated health impacts: Methods of the Apple Hearing Study. The Journal of the Acoustical Society of America 151:3, pages 1476-1489.
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Robin Kraft, Manfred Reichert & Rüdiger Pryss. (2021) Towards the Interpretation of Sound Measurements from Smartphones Collected with Mobile Crowdsensing in the Healthcare Domain: An Experiment with Android Devices. Sensors 22:1, pages 170.
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Tiffany R. Bellomo, Sanjana Prasad, Jacob Abou-Hanna, Sai Talluru, Yanjun Xie, Linyan Wang, Glenn E. Green & Richard L. Neitzel. (2021) Characterization of noise exposure in places of worship. Applied Acoustics 180, pages 108114.
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Yula C. Serpanos, Janet R. Schoepflin, Steven R. Cox & Diane Davis. (2021) The Accuracy of Smartphone Sound Level Meter Applications (SLMAs) in Measuring Sound Levels in Clinical Rooms. Journal of the American Academy of Audiology 32:01, pages 027-034.
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Neva Jacobs, Benjamin Roberts, Heidi Reamer, Claire Mathis, Shannon Gaffney & Richard Neitzel. (2020) Noise exposures in different community settings measured by traditional dosimeter and smartphone app. Applied Acoustics 167, pages 107408.
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Matt Wixey, Emiliano De Cristofaro & Shane D Johnson. (2020) On the Feasibility of Acoustic Attacks Using Commodity Smart Devices. On the Feasibility of Acoustic Attacks Using Commodity Smart Devices.
Heow Pueh Lee, Saurabh Garg & Kian Meng Lim. (2020) Crowdsourcing of environmental noise map using calibrated smartphones. Applied Acoustics 160, pages 107130.
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Stephanie Holmgren, Stacey Mantooth & Eleanor Weston. 2020. Information Resources in Toxicology. Information Resources in Toxicology 63 76 .
Rui B. Melo, Filipa Carvalho & Rafael Assunção. 2020. Advances in Safety Management and Human Performance. Advances in Safety Management and Human Performance 241 248 .
Benjamin Roberts & Richard L. Neitzel. (2019) Noise exposure limit for children in recreational settings: Review of available evidence. The Journal of the Acoustical Society of America 146:5, pages 3922-3933.
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Xiaoping Xie, Zhiyuan Ma, Jinyi Ye, Fandong Zeng, Wenchao Fan & Bingan Chen. (2019) Research and development of sound quality in portable testing and evaluation system based on self-adaptive neural network. Applied Acoustics 154, pages 138-147.
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Charlie Mydlarz, Mohit Sharma, Yitzchak Lockerman, Ben Steers, Claudio Silva & Juan Bello. (2019) The Life of a New York City Noise Sensor Network. Sensors 19:6, pages 1415.
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Saurabh Garg, Kian Meng Lim & Heow Pueh Lee. (2019) An averaging method for accurately calibrating smartphone microphones for environmental noise measurement. Applied Acoustics 143, pages 222-228.
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Yula C. Serpanos, Brittany Renne, Janet R. Schoepflin & Diane Davis. (2018) The Accuracy of Smartphone Sound Level Meter Applications With and Without Calibration. American Journal of Speech-Language Pathology 27:4, pages 1319-1328.
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Benjamin D. Blair, Stephen Brindley, John Hughes, Eero Dinkeloo, Lisa M. McKenzie & John L. Adgate. (2018) Measuring environmental noise from airports, oil and gas operations, and traffic with smartphone applications: laboratory and field trials. Journal of Exposure Science & Environmental Epidemiology 28:6, pages 548-558.
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Benjamin D. Blair, Stephen Brindley, Eero Dinkeloo, Lisa M. McKenzie & John L. Adgate. (2018) Residential noise from nearby oil and gas well construction and drilling. Journal of Exposure Science & Environmental Epidemiology 28:6, pages 538-547.
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Metod Celestina, Jan Hrovat & Chucri A. Kardous. (2018) Smartphone-based sound level measurement apps: Evaluation of compliance with international sound level meter standards. Applied Acoustics 139, pages 119-128.
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Sergey Zhidkov, Andrey Sychev, Alexander Zhidkov & Alexander Petrov. (2018) On Smartphone Power Consumption in Acoustic Environment Monitoring Applications. Applied System Innovation 1:1, pages 8.
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Paul Green, Grason Cheydleur, Kevin Li, Ruyi (Jo) Deng & Reynerio Sanchez. (2017) Free Smartphone Apps to Support Human Factors/Ergonomics Work. Ergonomics in Design: The Quarterly of Human Factors Applications 26:1, pages 4-16.
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Diogo Cerqueira, Filipa Carvalho & Rui Bettencourt Melo. 2018. Advances in Safety Management and Human Factors. Advances in Safety Management and Human Factors 258 268 .
Sumi SinhaElliott D. Kozin, Matthew R. NaunheimSamuel R. BarberKevin WongLeanna W. KatzTiffany M. N. OteroIshmael J. M. Stefanov-WagnerAaron K. Remenschneider. (2017) Cycling exercise classes may be bad for your (hearing) health. The Laryngoscope 127:8, pages 1873-1877.
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Chucri A. Kardous & Peter B. Shaw. (2016) Evaluation of smartphone sound measurement applications ( apps ) using external microphones—A follow-up study . The Journal of the Acoustical Society of America 140:4, pages EL327-EL333.
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Petr Duda. (2016) Processing and Unification of Environmental Noise Data from Road Traffic with Spatial Dimension Collected through Mobile Phones. Journal of Geoscience and Environment Protection 04:13, pages 1-26.
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