Video_1_A Characterization of Brain-Computer Interface Performance Trade-Offs Using Support Vector Machines and Deep Neural Networks to Decode Movement Intent.MP4 by Nicholas D. Skomrock (5056142)

“…We also show that data preprocessing steps can affect the performance characteristics of the two decoders in drastically different ways. …”

Table_5_Effects of transient, persistent, and resurgent sodium currents on excitability and spike regularity in vestibular ganglion neurons.pdf by Selina Baeza-Loya (20276955)

“…<p>Vestibular afferent neurons occur as two populations with differences in spike timing regularity that are independent of rate. …”

Table_3_Effects of transient, persistent, and resurgent sodium currents on excitability and spike regularity in vestibular ganglion neurons.pdf by Selina Baeza-Loya (20276955)

“…<p>Vestibular afferent neurons occur as two populations with differences in spike timing regularity that are independent of rate. …”

Table_1_Effects of transient, persistent, and resurgent sodium currents on excitability and spike regularity in vestibular ganglion neurons.pdf by Selina Baeza-Loya (20276955)

“…<p>Vestibular afferent neurons occur as two populations with differences in spike timing regularity that are independent of rate. …”

Image_3_Effects of transient, persistent, and resurgent sodium currents on excitability and spike regularity in vestibular ganglion neurons.pdf by Selina Baeza-Loya (20276955)

“…<p>Vestibular afferent neurons occur as two populations with differences in spike timing regularity that are independent of rate. …”

Image_1_Effects of transient, persistent, and resurgent sodium currents on excitability and spike regularity in vestibular ganglion neurons.pdf by Selina Baeza-Loya (20276955)

“…<p>Vestibular afferent neurons occur as two populations with differences in spike timing regularity that are independent of rate. …”

Image_4_Effects of transient, persistent, and resurgent sodium currents on excitability and spike regularity in vestibular ganglion neurons.pdf by Selina Baeza-Loya (20276955)

“…<p>Vestibular afferent neurons occur as two populations with differences in spike timing regularity that are independent of rate. …”

Table_6_Effects of transient, persistent, and resurgent sodium currents on excitability and spike regularity in vestibular ganglion neurons.pdf by Selina Baeza-Loya (20276955)

“…<p>Vestibular afferent neurons occur as two populations with differences in spike timing regularity that are independent of rate. …”

Image_5_Effects of transient, persistent, and resurgent sodium currents on excitability and spike regularity in vestibular ganglion neurons.pdf by Selina Baeza-Loya (20276955)

“…<p>Vestibular afferent neurons occur as two populations with differences in spike timing regularity that are independent of rate. …”

Table_4_Effects of transient, persistent, and resurgent sodium currents on excitability and spike regularity in vestibular ganglion neurons.pdf by Selina Baeza-Loya (20276955)

“…<p>Vestibular afferent neurons occur as two populations with differences in spike timing regularity that are independent of rate. …”

Experimental Gastric Carcinogenesis in <i>Cebus apella</i> Nonhuman Primates by Joana de Fátima Ferreira Borges da Costa (212759)

“…<div><p>The evolution of gastric carcinogenesis remains largely unknown. We established two gastric carcinogenesis models in New-World nonhuman primates. …”

Sensitivity analysis of the results of Fig 3, for the high school contact network, w.r.t. graph of persistent contacts. by Simon Mauras (11337066)

“…Part (b) is a construction of what we call a <i>best friends</i> graph, constructed in the following two steps: First, each person lists their neighbor by order of decreasing number of contacts, stopping as soon as they reach 25% or their total number of contacts. …”