Jack H. Noble, Ph.D.
Affiliations: | 2011 | Vanderbilt University, Nashville, TN |
Area:
Electronics and Electrical EngineeringGoogle:
"Jack Noble"Parents
Sign in to add mentor| Benoit M. Dawant | grad student | 2011 | Vanderbilt | |
| (Automatic identification of the structures of the ear and a new approach for tubular structure modeling and segmentation.) | ||||
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Publications
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| Khan MMR, Fan Y, Dawant BM, et al. (2023) Cochlear Implant Fold Detection in Intra-operative CT Using Weakly Supervised Multi-task Deep Learning. Medical Image Computing and Computer-Assisted Intervention : Miccai ... International Conference On Medical Image Computing and Computer-Assisted Intervention. 14228: 249-259 |
| Smetak MR, Fernando SJ, O'Malley MR, et al. (2023) Electrode array positioning after cochlear reimplantation from single manufacturer. Cochlear Implants International. 24: 273-281 |
| Banalagay RA, Labadie RF, Noble JH. (2023) Validation of active shape model techniques for intracochlear anatomy segmentation in computed tomography images. Journal of Medical Imaging (Bellingham, Wash.). 10: 044003 |
| Berg KA, Chen C, Noble JH, et al. (2023) Effects of the Number of Channels and Channel Stimulation Rate on Speech Recognition and Sound Quality Using Precurved Electrode Arrays. American Journal of Audiology. 1-14 |
| Smetak MR, Riojas KE, Whittenbarger N, et al. (2023) Dynamic Behavior and Insertional Forces of a Precurved Electrode Using the Pull-Back Technique in a Fresh Microdissected Cochlea. Otology & Neurotology : Official Publication of the American Otological Society, American Neurotology Society [and] European Academy of Otology and Neurotology |
| Bratu EL, Sunderhaus LW, Berg KA, et al. (2022) Activation region overlap visualization for image-guided cochlear implant programming. Biomedical Physics & Engineering Express. 9 |
| Cleary M, Bernstein JGW, Stakhovskaya OA, et al. (2022) The Relationship Between Interaural Insertion-Depth Differences, Scalar Location, and Interaural Time-Difference Processing in Adult Bilateral Cochlear-Implant Listeners. Trends in Hearing. 26: 23312165221129165 |
| Gifford RH, Sunderhaus LW, Holder JT, et al. (2022) Speech recognition as a function of the number of channels for pediatric cochlear implant recipients. Jasa Express Letters. 2: 094403 |
| Gifford RH, Sunderhaus LW, Dawant BM, et al. (2022) Cochlear implant spectral bandwidth for optimizing electric and acoustic stimulation (EAS). Hearing Research. 108584 |
| Berg KA, Noble JH, Dawant BM, et al. (2022) Speech recognition as a function of the number of channels for Mid-Scala electrode array recipients. The Journal of the Acoustical Society of America. 152: 67 |