Your search keyword '"Wooldridge, E"' showing total 10 results

1. Ariane 5 Fairing Preparations for the James Webb Space Telescope (JWST)

Author

Stewart, E M, primary, Wooldridge, E M, additional, Schmeitzky, O, additional, Bonhomme, J, additional, and Madsen, M, additional

Published

2023

2. ITER-like antenna for JET first results of the advanced matching control algorithms

Author

Durodié, F., Dumortier, P., Blackman, T., Wooldridge, E., Lerche, E., Helou, W., Goulding, R.H., Kaufman, M., Křivská, A., Van Eester, D., and Graham, M.

Published

2017

3. Commissioning and first results of the reinstated JET ICRF ILA

Author

Dumortier, P., Durodié, F., Blackman, T., Graham, M., Helou, W., Lerche, E., Monakhov, I., Noble, C., Wooldridge, E., Goulding, R.H., Jacquet, P., and Kaufman, M.

Published

2017

4. Mining of the association rules between driver electrodermal activity and speed variation in different road intersections

Author

Distefano, N, Leonardi, S, Pulvirenti, G, Romano, R, Boer, E, and Wooldridge, E

Subjects

Urban Studies, General Engineering, Transportation, Safety Research

Abstract

It is commonly acknowledged that the human factor and the interaction between the human factor and the road environment are among the most common causes of road accidents. Physiological signals can provide a real-time assessment of the driver's state because they can be collected continuously without interfering with the driver's task performance or the drivers' perception of the road. This study presents a method for measuring and quantifying drivers' physiological responses when approaching T-junctions and roundabouts using electrodermal activity and speed variations. Speed and electrodermal activity were collected continuously during a driving study which took place on a test environment based at Cranfield University and surrounding roads. Twenty participants were involved in the study. The analysis focused on four crossing manoeuvres on two T-junctions and a roundabout. The association Rule with the Apriori algorithm was used in order to evaluate associations between the variables related to electrodermal activity, i.e. the number and amplitude of the SCR peaks (assessed by the Electrodermal Impact Index in aggregate form), and the variables related to speed, i.e. the speed variation and its sign (positive or negative), for each type of intersection. The main results of this study can be summarized as follows: 1) the rules obtained for the manoeuvres on the T-Junctions show that the T-junctions induce low variations in the electrodermal activity and are often associated with a significant speed increase (between 20% and 30%); 2) the rules obtained for the manoeuvres on the roundabout highlights that the roundabout induces high variations in the electrodermal activity and is associated with a significant speed reduction (between 20% and 40%).

Published

2022

5. Photothermal floats for evaporation enhancement and waterfowl deterrence

Author

Monasmith R., Allred S., Capoccia S., Centurion D.P., Cyr M., Geer J., Moe R., Myhre G., Swenson H., Vasquez B.C., Wooldridge E., Young C., Zodrow K.R., Monasmith R., Allred S., Capoccia S., Centurion D.P., Cyr M., Geer J., Moe R., Myhre G., Swenson H., Vasquez B.C., Wooldridge E., Young C., and Zodrow K.R.

Abstract

Waste storage ponds can present a hazard to migrating birds and some methods of deterrence reduce evaporation, making them ineffective where evaporation is desirable. Inexpensive materials (granular activated carbon, fibreglass, and carbon air filters) have been coated on high-density polyethylene (HDPE) containers to create photothermal floats, which absorb solar irradiation and promote, rather than deter, evaporation. Carbon foam, a buoyant material, was used alone. The materials were tested for their effects on evaporation rates in a laboratory environment at low light intensities (150 W∙m-2). Granular activated carbon displayed the largest improvement in evaporative performance, increasing the evaporation rate by 64% (plus/minus 7%) compared with a control with standing water, and 199% (plus/minus 7%) compared with uncoated HDPE. Materials were characterised using scanning electron microscopy, specific surface area analysis, water retention analysis, contact angle goniometry, and reflectance. Significant differences were found between materials for all parameters and their connections to measured evaporation rates. It is concluded that these novel and inexpensive material combinations may be suitable for maintaining or improving evaporation rates while deterring waterfowl., Waste storage ponds can present a hazard to migrating birds and some methods of deterrence reduce evaporation, making them ineffective where evaporation is desirable. Inexpensive materials (granular activated carbon, fibreglass, and carbon air filters) have been coated on high-density polyethylene (HDPE) containers to create photothermal floats, which absorb solar irradiation and promote, rather than deter, evaporation. Carbon foam, a buoyant material, was used alone. The materials were tested for their effects on evaporation rates in a laboratory environment at low light intensities (150 W∙m-2). Granular activated carbon displayed the largest improvement in evaporative performance, increasing the evaporation rate by 64% (plus/minus 7%) compared with a control with standing water, and 199% (plus/minus 7%) compared with uncoated HDPE. Materials were characterised using scanning electron microscopy, specific surface area analysis, water retention analysis, contact angle goniometry, and reflectance. Significant differences were found between materials for all parameters and their connections to measured evaporation rates. It is concluded that these novel and inexpensive material combinations may be suitable for maintaining or improving evaporation rates while deterring waterfowl.

Published

2020

6. Potential financial savings for the local health economy in type 2 diabetic care, following bariatric surgery

Author

Chambers, S., primary, Manickam, D., additional, Wright, J., additional, Wooldridge, E., additional, White, E., additional, Abolghasemi-Malekabadi, K., additional, Robinson, S.J., additional, and Perry, A., additional

Published

2016

7. Calibrations and Verifications Performed in View of the ILA Reinstatement at JET.

Author

Dumortier, P., Durodié, F., Helou, W., Monakhov, I., Noble, C., Wooldridge, E., Blackman, T., and Graham, M.

Subjects

ELECTRONIC circuit design, S-matrix theory, ELECTRIC capacity, ELECTRIC potential

Abstract

The calibrations and verifications that are performed in preparation of the ITER-Like antenna (ILA) reinstatement at JET are reviewed. A brief reminder of the ILA system layout is given. The different calibration methods and results are then discussed. They encompass the calibrations of the directional couplers present in the system, the determination of the relation between the capacitor position readings and the capacitance value, the voltage probes calibration inside the antenna housing, the RF cables characterization and the acquisition electronics circuit calibration. Earlier experience with the ILA has shown that accurate calibrations are essential for the control of the full ILA closepacked antenna array, its protection through the S-Matrix Arc Detection and the new second stage matching algorithm to be implemented. Finally the voltage stand-off of the capacitors is checked and the phase range achievable with the system is verified. The system layout is modified as to allow dipole operation over the whole operating frequency range when operating with the 3dB combiner-splitters. [ABSTRACT FROM AUTHOR]

Published

2015

8. The Design, Verification, and Performance of the James Webb Space Telescope

Author

Menzel, M., Davis, M., Parrish, K., Lawrence, J., Stewart, A., Cooper, J., Irish, S., Mosier, G., Levine, M., Pitman, J., Walsh, G., Maghami, P., Thomson, S., Wooldridge, E., Boucarut, R., Feinberg, L., Turner, G., Kalia, P., and Bowers, C.

Abstract

The James Webb Space Telescope (JWST) is NASA’s flagship mission successor to the highly successful Hubble Space Telescope. It is an infrared observatory featuring a cryogenic 6.6 m aperture, deployable Optical Telescope Element (OTE) with a payload of four science instruments (SIs) assembled into an Integrated Science Instrument Module (ISIM) that provide imagery and spectroscopy in the near-infrared band between 0.6 and 5 μm and in the mid-infrared band between 5 and 28.1 μm. JWST was successfully launched on 2021 December 25 aboard an Ariane 5 launch vehicle. All 50 major deployments were successfully completed on 2022 January 8. The observatory performed all midcourse correction maneuvers and achieved its operational mission orbit around the Sun–Earth second Lagrange point (L2). All commissioning and calibration activities have been completed, and JWST has begun its science mission. This paper will provide a description of the driving requirements and their technical challenges, the engineering processes involved in the design formulation, the resulting observatory design, the verification programs that proved it to be flightworthy, and the measured on-orbit performance of the observatory. Since companion papers will describe the details of the OTE and SIs, this paper will concentrate on describing the key features of the observatory architecture that accommodates these elements, particularly those features and capabilities associated with accommodating the radiometric and image-quality performance.

Published

2023

9. Non-Solvent Induced Phase Separation (NIPS) for Fabricating High Filtration Efficiency (FE) Polymeric Membranes for Face Mask and Air Filtration Applications.

Author

Ogbuoji EA, Stephens L, Haycraft A, Wooldridge E, and Escobar IC

Abstract

Protection against airborne viruses has become very relevant since the outbreak of SARS-CoV-2. Nonwoven face masks along with heating, ventilation, and air conditioning (HVAC) filters have been used extensively to reduce infection rates; however, some of these filter materials provide inadequate protection due to insufficient initial filtration efficiency (FE) and FE decrease with time. Flat sheet porous membranes, which have been used extensively to filter waterborne microbes and particulate matter due to their high FE have the potential to filter air pollutants without compromising its FE over time. Therefore, in this study, single layer polysulfone (PSf) membranes were fabricated via non-solvent induced phase separation (NIPS) and were tested for airflow rate, pressure drop and FE. Polyethylene glycol (PEG) and glycerol were employed as pore-forming agents, and the effect of the primary polymer and pore-forming additive molecular weights (MW) on airflow rate and pressure drop were studied at different concentrations. The thermodynamic stability of dope solutions with different MWs of PSf and PEG in N-methylpyrrolidone (NMP) at different concentrations was determined using cloud-point measurements to construct a ternary phase diagram. Surface composition of the fabricated membranes was characterized using contact angle and X-ray photoelectron spectroscopy (XPS), while membrane morphology was characterized by SEM, and tensile strength experiments were performed to analyze the membrane mechanical strength (MS). It was observed that an increase in PSf and PEG molecular weight and concentration increased airflow and decreased pressure drop. PSf60:PEG20:NMP (15:15:70)% w / w showed the highest air flow rate and lowest pressure drop, but at the expense of the mechanical strength, which was improved significantly by attaching the membrane to a 3D-printed polypropylene support. Lastly, the FE values of the membranes were similar to those of double-layer N95 filters and significantly higher than those of single layer of N95, surgical mask and HVAC (MERV 11) filters.

Published

2022

10. Eleven biosynthetic genes explain the majority of natural variation in carotenoid levels in maize grain.

Author

Diepenbrock CH, Ilut DC, Magallanes-Lundback M, Kandianis CB, Lipka AE, Bradbury PJ, Holland JB, Hamilton JP, Wooldridge E, Vaillancourt B, G Ngora-Castillo E, Wallace JG, Cepela J, Mateos-Hernandez M, Owens BF, Tiede T, Buckler ES, Rocheford T, Buell CR, Gore MA, and DellaPenna D

Subjects

Epistasis, Genetic, Genetic Variation, Genome-Wide Association Study, Phenotype, Plant Proteins genetics, Quantitative Trait Loci, Seeds metabolism, Carotenoids metabolism, Seeds genetics, Zea mays genetics, Zea mays metabolism

Abstract

Vitamin A deficiency remains prevalent in parts of Asia, Latin America, and sub-Saharan Africa where maize (Zea mays) is a food staple. Extensive natural variation exists for carotenoids in maize grain. Here, to understand its genetic basis, we conducted a joint linkage and genome-wide association study of the US maize nested association mapping panel. Eleven of the 44 detected quantitative trait loci (QTL) were resolved to individual genes. Six of these were correlated expression and effect QTL (ceeQTL), showing strong correlations between RNA-seq expression abundances and QTL allelic effect estimates across six stages of grain development. These six ceeQTL also had the largest percentage of phenotypic variance explained, and in major part comprised the three to five loci capturing the bulk of genetic variation for each trait. Most of these ceeQTL had strongly correlated QTL allelic effect estimates across multiple traits. These findings provide an in-depth genome-level understanding of the genetic and molecular control of carotenoids in plants. In addition, these findings provide a roadmap to accelerate breeding for provitamin A and other priority carotenoid traits in maize grain that should be readily extendable to other cereals., (� American Society of Plant Biologists 2020. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2021