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Modeling the effects of electrode recessing on electrochemical safety in cochlear implant electrodes.

, , , , and . NER, page 490-493. IEEE, (2015)

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Design of an intra-operative imaging system for the cochlear implant., , and . EMBC, page 2448-2451. IEEE, (2014)Influence of blood vessel conductivity in cochlear implant stimulation using a finite element head model., , , , and . EMBC, page 5291-5294. IEEE, (2013)Modeling the effects of electrode recessing on electrochemical safety in cochlear implant electrodes., , , , and . NER, page 490-493. IEEE, (2015)Frequency-dependent simulation of volume conduction in a linear model of the implanted cochlea., , , , and . NER, page 426-429. IEEE, (2015)Time-domain finite element models of electrochemistry in intracochlear electrodes., , , , and . EMBC, page 1554-1557. IEEE, (2013)Subthreshold Electrical Stimulation for Controlling Protein-Mediated Impedance Increases in Platinum Cochlear Electrode., , , , and . IEEE Trans. Biomed. Eng., 67 (12): 3510-3520 (2020)Understanding the cochlear implant environment by mapping perilymph proteomes from different species., , , , , , , , and . EMBC, page 5237-5240. IEEE, (2016)Beyond BAO: improving cosmological constraints from BOSS with measurement of the void-galaxy cross-correlation, , , , and . (2019)cite arxiv:1904.01030Comment: 22 pages, 16 figures. For the busy reader, Figures 13, 14 and 15 summarize the key cosmological information. Code used for reconstruction and void-finding is available at https://github.com/seshnadathur/Revolver.