Exploiting Alignments in Linked Data for Compression and Query Answering

Joshi, Amit Krishna

06 June 2017

No description available.

Computer Science

Linked Data

RDF Compression

Ontology Alignment

Linked Data Querying

Synthetic RDF Generator

SPARQL

Design and Implementation of an analog to digital conversion mechanism for an in-situ monitoring microelectrode SOC

Alla, Ravi Chandar

January 2008

No description available.

Engineering

ADC

Comparator

Current Mirror

Capacitor

voltage

Ramp generator

input voltage

PHASE-LOCKED PIV INVESTIGATION OF THE EFFECTS OF THE BLOWING RATIO OF A PULSED VORTEX GENERATOR JET IN A LOW-PRESSURE TURBINE

Woods, Nathan Michael

02 October 2007

No description available.

Turbine

Pack-B

Pak-B

separation

Low Pressure Turbine

Vortex Generator Jets

PIV

Engineering of Complex Optical Fields and Its Applications

Han, Wei

30 August 2013

No description available.

Optics

Electromagnetics

Vectorial Optical Field Generator

Polarization

Space-Variant Polarization Engineering

Full Poincare beam

DOE Simulator

Compressive Sensing Analog Front End Design in 180 nm CMOS Technology

Shah, Julin Mukeshkumar

27 August 2015

No description available.

Electrical Engineering

Direct Power Control of a Doubly Fed Induction Generator in Wind Power Systems

Sam, Mahmodicherati

04 October 2016

No description available.

Electrical Engineering

A study of the accuracy and reliability of traffic recording devices

Hsieh, Long-Bing Benson

January 1996

No description available.

traffic recording devices

Test Vehicle Generator

Automated Traffic Recorders

Federal Highway Administration

Brainstem Mechanisms Underlying Ingestion and Rejection

Chen, Zhixiong

12 February 2003

No description available.

Central pattern generator

NMDA receptor

Non-NMDA receptor

GABAA receptor

Glycine receptor

Taste oromotor processing

Modeling and Development of Thermoelectric Device Technologies for Novel Mechanical Systems

Headings, Leon Mark

January 2011

No description available.

Mechanical Engineering

thermoelectric device

heat pump

buildings

combustion generator

modeling

frequency domain

transmission matrix

ROLE OF MULTIUNIT ACTIVITY IN RYTHMOGENESIS: INSIGHTS FROM DELETIONS

Lakshmanan, Subashini

January 2015

The rhythmic activity of locomotion is most frequently modeled as a periodic oscillation coordinated by a spinal Central Pattern Generator (CPG) controlling reciprocal activation of flexor and extensor muscles. Expression of locomotion errors in the form of spontaneous deletions in the motor output has been critical in formulating models of CPG network structure governing locomotion in mammals (Lafreniere-Roula et al 2005, Duysens 2006). Deletions are defined as the disappearance of either antagonist or agonist muscles’ activity along with the simultaneous tonic/rhythmic activity of the corresponding agonist or antagonist muscles. The formulation of a two-layer model of the CPG (Rhythm Generator (RG) layer & Pattern Formation (PF) layer) by Rybak et al (2006) stems from observations of such deletions in the fictive locomotion of the decerebrated cat. The RG functions as a clock controlling the temporal activity of the PF layer which controls the firing pattern of motor neuron pools that activate muscles. The deletion episodes are said to be “resetting” if the EMG activity after the deletion does not return after an integer value of the pre-deletion average period. If the motoneuron activity returns in phase with the pre-deletion “clock”, the deletion period is considered to be “non-resetting”. Multiunit Activity (MUA) recorded from a spinalised air-stepping cat was analyzed against its corresponding EMG activity to investigate the role of MUA in rhythmogenicity, specifically whether or not MUA activity may represent the RG layer of the Central Pattern Generator (CPG) model. This hypothesis would predict that MUA activity should be disrupted in phase or amplitude when and only when deletions episodes are re-setting.. Alternatively, MUA activity may reflect PF layer activity. In this case MUA activity should be disrupted in phase or amplitude during each of the deletions episodes. MUA’s spatio-temporal characteristics were compared to that of the EMG activity during the deletion periods for analysis. From the analysis performed, there was a significant proportion (average more than 25%) of the MUA (collected from the lumbar region of the spinal cord of spinalized cat) that were disrupted in phase or amplitude during non-resetting deletions or undisrupted during resetting episodes, indicating that MUA activity is unlikely to represent the RG layer activity during . In addition, MUA oscillation during the period of deletions was unchanged (amplitude or phase) for more than 25% of the deletion episodes, ruling out the possibility that MUA represents the activity of the PF layer. So although MUA has been found to be highly synchronized throughout the lumbar extent during locomotor activity, it does not appear to act as a “clocking” mechanism for the locomotor rhythm. / Bioengineering

Neurosciences

Engineering, Biomedical

Biostatistics

Central Pattern Generator

Multiunit Analysis

Rhythmogenisis

Signal Processing

Spinal Cord Injury