Your search keyword '"Casali, John G."' showing total 8 results

1. Noise in cesarean deliveries: a comprehensive analysis of noise environments in the Labor and Delivery operating room and evaluation of a visual alarm noise abatement program

Author

Whitham, Megan D., Casali, John G., Smith, Gabrielle K., Allihien, Alexis L., Wright, Brett W., Barter, Shannon M., Urban, Amanda R., Dudley, Donald J., and Fuller, Robert R.

Published

2023

2. Development and Human Factors Evaluation of a Portable Auditory Localization Training System.

Author

Thompson, Brandon S., Lee, Kichol, Casali, John G., and Cave, Kara M.

Subjects

DIRECTIONAL hearing, ACOUSTIC localization, REPEATED measures design, SITUATIONAL awareness, AUDITORY learning

Abstract

Objective: To design and develop a Portable Auditory Localization Acclimation Training (PALAT) system capable of producing psychoacoustically accurate localization cues; evaluate the training effect against a proven full-scale, laboratory-grade system under three listening conditions; and determine if the PALAT system is sensitive to differences among electronic level-dependent hearing protection devices (HPDs). Background: In-laboratory auditory localization training has demonstrated the ability to improve localization performance with the open (natural) ear, that is, unoccluded, and while wearing HPDs. The military requires a portable system capable of imparting similar training benefits as those demonstrated in laboratory experiments. Method: In a full-factorial repeated measures design experiment, 12 audiometrically normal participants completed localization training and testing using an identical, optimized training protocol on two training systems under three listening conditions (open ear, TEP-100, and ComTac™ III). Statistical tests were performed on mean absolute accuracy score and front-back reversal errors. Results: No statistical difference existed between the PALAT and laboratory-grade DRILCOM systems on two dependent localization accuracy measurements at all stages of training. In addition, the PALAT system detected the same localization performance differences among the three listening conditions. Conclusion: The PALAT system imparted similar training benefits as the DRILCOM system and was sensitive to HPD localization performance differences. Application: The user-operable PALAT system and optimized training protocol can be employed by the military, law enforcement, and various industries, to improve auditory localization performance in conditions where auditory situation awareness is critical to safety. [ABSTRACT FROM AUTHOR]

Published

2024

3. Optimisation of an auditory azimuth localisation training protocol for military service members.

Author

Cave, Kara M., Thompson, Brandon, Lee, Kichol, and Casali, John G.

Subjects

EDUCATION of military personnel, ANALYSIS of variance, AUDITORY perception, AUDITORY perception testing, HEARING levels, REACTION time, REGRESSION analysis, RESEARCH funding, T-test (Statistics), PILOT projects, TASK performance, ACOUSTIC localization, PRE-tests & post-tests, CONTROL groups, DESCRIPTIVE statistics, ACOUSTIC stimulation, INDEPENDENT variables

Abstract

Objective: Design an optimised auditory azimuth localisation training protocol by: (1) differing the number of training stimuli presentations to determine the highest angular accuracy achieved in the fewest training sessions, (2) evaluating the presence of training transfer from a broadband stimulus to untrained military-relevant stimuli and (3) measuring the effect of differing training strategies on localisation accuracy. Design: Two pilot studies of 18 and six subjects, respectively, determined the number of presentations and type of stimuli to be included in a localisation training experiment that evaluated different training strategies. In the pilot studies, participants trained using eight Learning Units (LU) and then tested using untrained stimuli. In the main experiment, 40 participants completed eight LUs using four different learning strategies, with 10 participants randomly assigned to each condition. Sample: All participants were ages 18–42 normal-hearing listeners with thresholds not exceeding 25 dB HL and asymmetry not exceeding 15 dB HL. Results: Transfer of training occurred using three of the four untrained stimuli. The training strategy that resulted in the highest localisation accuracy involved active participation. Conclusions: Training with a broadband stimulus transfers to untrained broadband stimuli. Training involving the active participation strategy resulted in the greatest localisation accuracy. [ABSTRACT FROM AUTHOR]

Published

2020

4. Learning to localize a broadband tonal complex signal with advanced hearing protectors and TCAPS: the effectiveness of training on open-ear vs. device-occluded performance.

Author

Lee, Kichol and Casali, John G.

Subjects

*EAR physiology, *AUDITORY perception, *AUDITORY perception testing, *COGNITION, *COMMUNICATION, *COMPARATIVE studies, *NOISE-induced deafness, *HEARING, *HEARING -- Physiological aspects, *HEARING levels, *MUSICAL perception, *INTONATION (Phonetics), *MILITARY personnel, *SOUND, *PRODUCT design, *TASK performance, *ACOUSTIC localization, *EDUCATIONAL outcomes, *HEARING protection

Abstract

(1) determine if untrained, normal-hearing listeners could learn, with regimented practice trials, to localise a dissonant tonal complex while wearing electronic hearing protectors and achieve equivalent performance to the unoccluded ear, (2) determine if different protector designs affect the localisation learning curve, and (3) determine if a sequential training regimen could be used to determine whether a device is not amenable to training effects. All subjects completed paired training and testing trials, in 12 Learning Units (LU), first with the open ear., then half with device A, a US Army TCAPS (INVISIO® X50), and the other half with device B (a prototype). Both groups then finished with the opposite device. Ten subjects participated, with thresholds below 25 dBHL, bilateral symmetry below 15 dBHL, and naivety with electronic protectors and localisation testing. Subjects eventually approached their open ear capability with device A, but never reached equivalent open ear nor asymptotic performance with device B. Depending upon a protector's sound transduction, frequency response, and other characteristics, different amounts of training are required to adapt. The training protocol has value in determining device acceptability based on the training burden required, especially when mission-related localisation performance is important. [ABSTRACT FROM AUTHOR]

Published

2019

5. Development of an auditory situation awareness test battery for advanced hearing protectors and TCAPS: detection subtest of DRILCOM (detection-recognition/identification-localization-communication).

Author

Lee, Kichol and Casali, John G.

Subjects

*AUDITORY perception testing, *COGNITION, *COMMUNICATION, *NOISE-induced deafness, *NOISE, *MILITARY personnel, *STATISTICS, *DATA analysis, *TASK performance, *ACOUSTIC localization, *HEARING protection

Abstract

Objective: To design a test battery and conduct a proof-of-concept experiment of a test method that can be used to measure the detection performance afforded by military advanced hearing protection devices (HPDs) and tactical communication and protective systems (TCAPS).Design: The detection test was conducted with each of the four loudspeakers located at front, right, rear and left of the participant. Participants wore 2 in-ear-type TCAPS, 1 earmuff-type TCAPS, a passive Combat Arms Earplug in its “open” or pass-through setting and an EB-15LE™ electronic earplug. Devices with electronic gain systems were tested under two gain settings: “unity” and “max”. Testing without any device (open ear) was conducted as a control.Study sample: Ten participants with audiometric requirements of 25 dBHL or better at 500, 1000, 2000, 4000, 8000 Hz in both ears.Results: Detection task performance varied with different signals and speaker locations. The test identified performance differences among certain TCAPS and protectors, and the open ear. Conclusions: A computer-controlled detection subtest of the Detection-Recognition/Identification-Localisation-Communication (DRILCOM) test battery was designed and implemented. Tested in a proof-of-concept experiment, it showed statistically-significant sensitivity to device differences in detection effects with the small sample of participants (10). This result has important implications for selection and deployment of TCAPS and HPDs on soldiers and workers in dynamic situations. [ABSTRACT FROM PUBLISHER]

Published

2017

6. Effects of user training with electronically-modulated sound transmission hearing protectors and the open ear on horizontal localization ability.

Author

Casali, John G. and Robinette, Martin B.

Subjects

*ANALYSIS of variance, *AUDIOMETRIC equipment, *LEARNING, *STATISTICAL sampling, *STATISTICS, *T-test (Statistics), *DATA analysis, *RANDOMIZED controlled trials, *HEARING protection, *DATA analysis software

Abstract

Objective: To determine if training with electronically-modulated hearing protection (EMHP) and the open ear results in auditory learning on a horizontal localization task. Design: Baseline localization testing was conducted in three listening conditions (open-ear, in-the-ear (ITE) EMHP, and over-the-ear (OTE) EMHP). Participants then wore either an ITE or OTE EMHP for 12, almost daily, one-hour training sessions. After training was complete, participants again underwent localization testing in all three listening conditions. A computer with a custom software and hardware interface presented localization sounds and collected participant responses. Study sample: Twelve participants were recruited from the student population at Virginia Tech. Audiometric requirements were 35 dBHL at 500, 1000, and 2000 Hz bilaterally, and 55 dBHL at 4000 Hz in at least one ear. Results: Pre-training localization performance with an ITE or OTE EMHP was worse than open-ear performance. After training with any given listening condition, including open-ear, performance in that listening condition improved, in part from a practice effect. However, post-training localization performance showed near equal performance between the open-ear and training EMHP. Auditory learning occurred for the training EMHP, but not for the non-training EMHP; that is, there was no significant training crossover effect between the ITE and the OTE devices. Conclusion: It is evident from this study that auditory learning (improved horizontal localization performance) occurred with the EMHP for which training was performed. However, performance improvements found with the training EMHP were not realized in the non-training EMHP. Furthermore, localization performance in the open-ear condition also benefitted from training on the task. [ABSTRACT FROM AUTHOR]

Published

2015

7. Happy ears for many years: selected papers from the 2018 Annual Conference of the National Hearing Conservation Association.

Author

Casali, John G. and Murphy, William J.

Subjects

*NOISE control, *CONFERENCES & conventions, *AUDITORY perception, *COCHLEA, *DIAGNOSIS, *FIREARMS, *HEARING, *MEDICAL societies, *NOISE, *OTOACOUSTIC emissions, *RADIATION dosimetry, *PRODUCT design, *HEARING protection

Abstract

An introduction to the journal is presented which discusses topics within the issue including various aspects of small caliber firearm noise exposures, firearm noise that is not typically experienced by persons using firearms at a target range or when hunting, and noise exposure risks.

Published

2019

8. Effects of low speed wind on the recognition/identification and pass-through communication tasks of auditory situation awareness afforded by military hearing protection/enhancement devices and tactical communication and protective systems.

Author

Lee, Kichol and Casali, John G.

Subjects

*AUDITORY perception, *COMMUNICATION, *RESEARCH methodology, *MILITARY personnel, *HEARING protection

Abstract

Objective: To investigate the effect of controlled low-speed wind-noise on the auditory situation awareness performance afforded by military hearing protection/enhancement devices (HPED) and tactical communication and protective systems (TCAPS).Design: Recognition/identification and pass-through communications tasks were separately conducted under three wind conditions (0, 5, and 10 mph). Subjects wore two in-ear-type TCAPS, one earmuff-type TCAPS, a Combat Arms Earplug in its ‘open’ or pass-through setting, and an EB-15LE™ electronic earplug. Devices with electronic gain systems were tested under two gain settings: ‘unity’ and ‘max’. Testing without any device (open ear) was conducted as a control.Study sample: Ten subjects were recruited from the student population at Virginia Tech. Audiometric requirements were 25 dBHL or better at 500, 1000, 2000, 4000, and 8000 Hz in both ears.Results: Performance on the interaction of communication task-by-device was significantly different only in 0 mph wind speed. The between-device performance differences varied with azimuthal speaker locations.Conclusions: It is evident from this study that stable (non-gusting) wind speeds up to 10 mph did not significantly degrade recognition/identification task performance and pass-through communication performance of the group of HPEDs and TCAPS tested. However, the various devices performed differently as the test sound signal speaker location was varied and it appears that physical as well as electronic features may have contributed to this directional result. [ABSTRACT FROM PUBLISHER]

Published

2016