Prediction of the dynamic environment of spacecraft components. Part 2 - Acoustic and structural path transmission through two models of a shroud-enclosed spacecraft Final report

Acoustic and structural path transmission through shroud enclosed spacecraf

Methods for calculating noise transmitted to the inside of space vehicles from random loading on the outside. Preliminary ideas and basic equations Technical report no. 4

Equations for computing noise transmitted to space vehicle inside from random loading on outsid

Modelling of spacecraft under random loading

Modeling laws for space vehicles under random dynamic loadin

Sensory computations in the cuneate nucleus of macaques

Tactile nerve fibers fall into a few classes that can be readily distinguished based on their spatiotemporal response properties. Because nerve fibers reflect local skin deformations, they individually carry ambiguous signals about object features. In contrast, cortical neurons exhibit heterogeneous response properties that reflect computations applied to convergent input from multiple classes of afferents, which confer to them a selectivity for behaviorally relevant features of objects. The conventional view is that these complex response properties arise within the cortex itself, implying that sensory signals are not processed to any significant extent in the two intervening structures-the cuneate nucleus (CN) and the thalamus. To test this hypothesis, we recorded the responses evoked in the CN to a battery of stimuli that have been extensively used to characterize tactile coding in both the periphery and cortex, including skin indentations, vibrations, random dot patterns, and scanned edges. We found that CN responses are more similar to their cortical counterparts than they are to their inputs: CN neurons receive input from multiple classes of nerve fibers, they have spatially complex receptive fields, and they exhibit selectivity for object features. Contrary to consensus, then, the CN plays a key role in processing tactile information

Lamina-specific population encoding of cutaneous signals in the spinal dorsal horn using multi-electrode arrays

The dorsal spinal cord (DH) is a complex laminar structure integrating peripheral signals into the central nervous system. Spinal somatosensory processing is commonly measured electrophysiologically in vivo by recording the activity of individual Wide Dynamic Range neurons in the deep DH and extrapolating their behaviour to all cells in every lamina. This fails to account for the specialised processes that occur in each lamina and the considerable heterogeneity in cellular phenotype within and between laminae. Here we overcome this oversimplification by employing linear multi‐electrode arrays (MEAs) in the DH of anaesthetized rats to simultaneously measure activity across all laminae. The MEAs, comprised of 16‐channels, were inserted into the lumbar dorsal horn and peripheral neurones activated electrically via transcutaneous electrodes and ethologically with von Frey hairs (vFh) or an aluminium heating block. Ascending electrical stimuli showed fibre thresholds with distinct dorso‐ventral innervation profiles. Wind up was observed across the DH during the C‐fibre and post‐discharge latencies following 0.5Hz stimulation. Intrathecal application of morphine (5ng/50ul) significantly reduced Aδ and C‐fibre evoked activity in deep and superficial DH. Light vFhs (≤10g) predominantly activated intermediate and deep laminae whereas noxious vFh (26g) also activated the superficial laminae. Noxious heat (55°C) induced significantly greater activity in the superficial and deep laminae than the innocuous control (30°C). The application of these arrays produced the first description of the processing of innocuous and noxious stimuli throughout the intact DH

Microstimulation of human somatosensory cortex evokes task-dependent, spatially patterned responses in motor cortex

The primary motor (M1) and somatosensory (S1) cortices play critical roles in motor control but the signaling between these structures is poorly understood. To fill this gap, we recorded – in three participants in an ongoing human clinical trial (NCT01894802) for people with paralyzed hands – the responses evoked in the hand and arm representations of M1 during intracortical microstimulation (ICMS) in the hand representation of S1. We found that ICMS of S1 activated some M1 neurons at short, fixed latencies consistent with monosynaptic activation. Additionally, most of the ICMS-evoked responses in M1 were more variable in time, suggesting indirect effects of stimulation. The spatial pattern of M1 activation varied systematically: S1 electrodes that elicited percepts in a finger preferentially activated M1 neurons excited during that finger’s movement. Moreover, the indirect effects of S1 ICMS on M1 were context dependent, such that the magnitude and even sign relative to baseline varied across tasks. We tested the implications of these effects for brain-control of a virtual hand, in which ICMS conveyed tactile feedback. While ICMS-evoked activation of M1 disrupted decoder performance, this disruption was minimized using biomimetic stimulation, which emphasizes contact transients at the onset and offset of grasp, and reduces sustained stimulation

Perfectionistic strivings and the perils of partialling.

Two recent reviews of research examining the effects of perfectionism in athletes concluded that perfectionistic strivings is adaptive when perfectionistic concerns are controlled or partialled. This study aims to provide a caveat to the conclusions of these reviews by highlighting the perils of partialling and illustrating how it is possible for the conceptual meaning of perfectionistic strivings to change following partialling. In order to do so, 283 athletes (age M = 20.65, s = 3.68, range 18–43) completed measures of two commonly used sub-dimensions of perfectionistic strivings and perfectionistic concerns (personal standards and concern over mistakes) along with a number of constructs from their nomological network. A comparison of the observed relationships before (raw scores) and after (residualised scores) partialling indicated a reasonably high degree of overall similarity. However, closer examination revealed 14 of 18 individual relationships changed in magnitude, directio