5,258 research outputs found

    Dataset for Haptic enhancement of speech-in-noise performance in cochlear implant users

    No full text
    Dataset giving percentage of words in noise identified with and without vibro-tactile stimulation before and after a short training regime. Fletcher, Mark ; Hadeedi, Amatullah ; Goehring, Tobias ; Mills, Sean. / Haptic enhancement of speech-in-noise performance in cochlear implant users. In: Scientific Reports. 2019</span

    Dataset for Electro-Haptic Enhancement of Spatial Hearing in Cochlear Implant Users

    No full text
    This dataset supports the publication: Fletcher, Mark, Cunningham, Robyn &amp; Mills, Sean (2020). Electro-Haptic Enhancement of Spatial Hearing in Cochlear Implant Users. Scientific Reports This dataset contains the overall RMS error (calculated as described in the associated manuscript) for each experimental condition and each participant (top left table). Also presented is the average location response for each loudspeaker location and for each participant in each of the experimental conditions.</span

    Dataset for Sensitivity to haptic sound-localization cues at different body locations

    No full text
    This dataset supports the publication: AUTHORS: Mark Fletcher, Jana Zgheib, &amp; Samuel Perry TITLE: Sensitivity to haptic sound-localization cues at different body locations JOURNAL: Sensors This dataset contains a CSV file titled &quot;Fletcher_et_al_2021_Data.csv&quot;. For each participant, the file contains tactile detection thresholds in ms2 at each limb for each of the three body locations used in the study as well as the tactile intensity difference (TID) thresholds in dB for body location. All data was collected at the University of Southampton, U.K.</span

    Dataset for Haptic sound-localisation for use with cochlear implant and hearing-aid users

    No full text
    This dataset supports the publication: Mark Fletcher, &amp; Jana Zgheib (2020). Haptic sound-localisation for use in cochlear implant and hearing-aid users. Scientific Reports This dataset contains the CSV file titled &quot;Fletcher_et_al_2020_Data.csv&quot;. This file contains RMS sound localisation error for each experimental condition (including training sessions) and each participant. All data was collected at the University of Southampton, U.K. The experimental protocol was approved by the University of Southampton Faculty of Engineering and Physical Sciences Ethics Committee (ERGO ID: 47769). All research was performed in accordance with the relevant guidelines and regulations.</span

    Dataset for: Sensitivity to haptic sound-localisation cues

    No full text
    This dataset supports the publication: Fletcher, Mark, Zgheib, Jana &amp; Perry, Samuel (2020). Haptic sound-localisation for use in cochlear implant and hearing-aid users. Scientific Reports.</span

    Dataset for Electro-Haptic Stimulation Enhances Speech Recognition in Spatially Separated Noise for Cochlear Implant Users

    No full text
    This dataset supports the publication: Mark Fletcher, Haoheng Song, &amp; Samuel Perry (2020). Electro-Haptic Stimulation Enhances Speech Recognition in Spatially Separated Noise for Cochlear Implant Users. Scientific Reports This dataset contains the CSV file titled &quot;CISpatialRelease_Data.csv&quot;. This file contains speech reception thresholds for each experimental condition and each participant. Date of data collection: 2019-06-01 - 2019-09-15 All data was collected at the University of Southampton, U.K. The experimental protocol was approved by the University of Southampton Ethics Committee (ERGO ID: 48820) and the UK National Health Service Research Ethics Service (Integrated Research Application System ID: 265606). All research was performed in accordance with the relevant guidelines and regulations.</span

    Effects of very high-frequency sound and ultrasound on humans part I: adverse symptoms after exposure to audible very-high frequency sound

    No full text
    Dataset in support of the paper Fletcher, M et al (2018) Effects of very high-frequency sound and ultrasound on humans part I: adverse symptoms after exposure to audible very-high frequency sound Journal of the Acoustical Society of America A data structure that is readable in Matlab. The data structure contains the raw data for the study, including response type and response times for the attention task, and the participant ratings for each trial, as well as participant information such as age and gender.</span

    Public exposure to ultrasound and very-high frequency sound in air

    No full text
    Audio files containing recordings of very high frequency and ultrasound sources. The source type is described at the start of the name (e.g. &quot;PAVA1&quot;) and matches the descriptions in the associated publication. Each source recording also has an associated calibration tone recording (labelled &quot;_Cal&quot;), which was made immediately before the source recording. The calibration factors of the 4191 microphone used to make the recordings is also included as files, which are readable in Matlab (&quot;MicCorr_4191.mat&quot; and &quot;MicCorr_freqs.mat&quot;). Dataset in support of the paper Fletcher, M et al (2018) Public exposure to ultrasound and very-high frequency sound in air Journal of the Acoustical Society of America</span

    Effects of very high-frequency sound and ultrasound on humans part II: a double-blind randomized provocation study of inaudible 20-kHz ultrasound

    No full text
    Dataset in support of the paper Fletcher, M (2018) &#39;Effects of very high-frequency sound and ultrasound on humans part II: a double-blind randomized provocation study of inaudible 20-kHz ultrasound&#39; Journal of the Acoustical Society of America A data structure that is readable in Matlab. The data structure contains the raw data for the study, including response type and response times for the attention task, and the participant ratings for each trial, as well as participant information such as age and gender. Each condition has a key (stored in a separate file called &quot;condition key&quot;), which reveals the order of conditions in the main data file (&quot;USExpRaw&quot;). This key is separate as the experimenter was blinded to the condition being played.</span

    Sensory unpleasantness of very-high frequency sound and audible ultrasound

    No full text
    Data on the sensory unpleasantness (related to annoyance) of high-frequency tones (14 to 18 kHz) that have been set at sound pressure levels to achieve a subjective loudness that matches that of a 1-kHz reference tone. The data shows ratings of sensory unpleasantness in listening experiments with 18 subjects, 9 of whom were classified as &quot;symptomatic&quot; and 9 as &quot;asymptomatic&quot; based on self-report of having previously experienced adverse symptoms from exposure to high-frequency sound. The data set supports the publication: AUTHORS:Ben Lineton, Rahma Abdul Rahman Al Balushi, Sian Lloyd Jones, Timothy G. Leighton, and Mark D. Fletcher TITLE:Sensory unpleasantness of very-high frequency sound and audible ultrasound JOURNAL: Journal of the Acoustical Society of America PAPER DOI: 10.1121/10.0028380 </span
    corecore