Your search keyword '"Ellie O'Brien"' showing total 18 results

1. TAIPAN starbugs: commissioning and the start of science observations

Author

Rebecca A. Brown, Tony Farrell, Nuwanthika Fernando, Michael Goodwin, Anthony Horton, Celestina Lacombe, Jon Lawrence, Nuria Lorente, Helen McGregor, Ellie O'Brien, Lew Waller, Tayyaba Zafar, and Jessica Zheng

Published

2022

2. MANIFEST@GMT science overview: a multi-interface, multi-mode instrument science and simulations

Author

Tayyaba Zafar, Jon Lawrence, Jessica Zheng, David Adams, Vitor N. Hartmann, Celestina Lacombe, Michael Goodwin, Nuria Lorente, Ellie O'Brien, Will Saunders, Helen McGregor, Lew Waller, Nirmala Kunwar, Daniel M. Faes, Jennifer Marshall, Darren L. DePoy, Alexandar Ji, Dennis Zaritsky, Casey Papovich, Steven Finkelstein, Andrew Szentgyorgyi, Roderik Overzier, Kyler Kuehn, Luca Cortese, Scott Croom, Sarah Martell, Matthew Colless, Anilkumar Mailvaganam, Andrew M. Hopkins, Magda Arnaboldi, Celine Peroux, and Christian Johnson

Published

2022

3. Overall performance of AESOP: the 4MOST fibre positioner

Author

Jurek Brzeski, David Adams, Gabriella Baker, Sufyan Baker, Rebecca Brown, Scott Case, Timothy Chin, Jack Coyne, Tony Farrell, Peter Gillingham, Ellen Houston, Urs Klauser, Yevgen Kripak, Nirmala Kunwar, Jon Lawrence, Slavko Mali, Wojtek Maslak, Helen McGregor, Rolf Muller, Vijay Nichani, Naveen Pai, Ellie O'brien, Will Saunders, Scott Smedley, Sudharshan Venkatesan, Lew Waller, Jahanzeb Zahoor, and Jessica Zheng

Published

2022

4. Development of the FOBOS focal plane positioner

Author

David Adams, Jon Lawrence, Helen McGregor, Ellie O'Brien, Celestina Lacombe, Nuria Lorente, Michael Goodwin, Rebecca A. Brown, Michael Thomakos, Tayyaba Zafar, Nicholas MacDonald, Kyle Westfall, Kevin Bundy, Renate Kupke, Marc Kassis, and Claire Poppett

Published

2022

5. AESOP, the 4MOST fibre positioner: engineering principles

Author

Jurek Brzeski, David Adams, Gabriella Baker, Sufyan Baker, Rebecca Brown, Scott Case, Timothy Chin, Jack Coyne, Tony Farrell, James Gibson, Peter Gillingham, Ellen Houston, Urs Klauser, Yevgen Kripak, Nirmala Kunwar, Jon Lawrence, Slavko Mali, Wojtek Maslak, Helen McGregor, Rolf Muller, Vijay Nichani, Naveen Pai, Ellie O'brien, Will Saunders, Scott Smedley, Sudharshan Venkatesan, Lew Waller, Jahanzeb Zahoor, and Jessica Zheng

Published

2022

6. GMT-MANIFEST project cost estimate case: applying the PMBoK Guide to the cost of instrumentation for ELTs

Author

Celestina S. Lacombe, Jon Lawrence, Scott Smedley, Rebecca Brown, Ellie O'Brien, Lew Waller, Michael Goodwin, Jessica Zheng, Scott Case, David Adams, and Vitor N. Hartmann

Published

2022

7. Application of model-based systems engineering to MANIFEST conceptual design

Author

Michael Goodwin, David Adams, Rebecca Brown, Vitor N. Hartmann, Celestina S. Lacombe, Carlos H. Lahoz, Jon Lawrence, Daniel May, Ellie O'Brien, and Tayyaba Zafar

Published

2022

8. Surgical training tools for dermatology trainees: porcine vs. synthetic skin for excision and repair

Author

Lauren Moy, Cara Joyce, Kristin Lee, Itisha S. Jefferson, Rebecca Tung, Shamika Kayo Robinson, Ashish Arshanapalli, Eleanor Tung-Hahn, Adam Whittington, Murad Alam, Ellie O'Brien, and David Surprenant

Subjects

medicine.medical_specialty, integumentary system, business.industry, Significant difference, Dermatology, General Medicine, Surgical training, Checklist, Tissue handling, Artificial skin, Pig skin, 030207 dermatology & venereal diseases, 03 medical and health sciences, 0302 clinical medicine, 030220 oncology & carcinogenesis, medicine, Porcine skin, Surgical checklist, business

Abstract

Since dermatologists routinely perform surgery in an outpatient setting, ensuring that dermatology trainees are provided with opportunities to develop sufficient proficiency in excisional surgery and suture technique is paramount. The objectives of this study are to assess trainee preference for silicone-based synthetic skin compared with porcine skin as a surgical training medium and to assess the ability of trainees to successfully demonstrate basic surgical skills using the simulated skin model. Participants were a convenience sample of dermatology residents from the greater Chicago area, who were asked to perform an elliptical excision and bilayered repair on a silicone-based synthetic skin model. Residents were then surveyed regarding their satisfaction with the model. Four blinded dermatologist raters evaluated digital photographs obtained during the performance of the procedures and graded the execution of each maneuver using a surgical task checklist. Nineteen residents were enrolled. Residents were more likely to prefer pig skin to simulated skin for overall use (p = 0.040) and tissue repair (p = 0.018), but the nominal preference for tissue handling was nonsignificant (p = 0.086). There was no significant difference between satisfaction with pig skin versus synthetic skin with regard to excision experience (p = 0.82). The majority of residents (10/19) performed all surgical checklist tasks correctly. Of those residents who did not perform all steps correctly, many had difficulty obtaining adequate dermal eversion and wound approximation. Synthetic skin may be conveniently and safely utilized for hands-on surgical practice. Further refinement may be necessary to make synthetic skin comparable in feel and use to animal skin.

Published

2021

9. Conception and design of novel lumbar drain insertion simulator

Author

Nader S. Dahdaleh, Nikhil K. Murthy, and Ellie O'Brien

Subjects

020205 medical informatics, Computer science, education, Short Report, 030208 emergency & critical care medicine, Health Informatics, 02 engineering and technology, Troubleshooting, Education, STERILE FIELD, 03 medical and health sciences, Patient safety, 0302 clinical medicine, Lumbar, Modeling and Simulation, 0202 electrical engineering, electronic engineering, information engineering, Drain insertion, Needle insertion, Simulation

Abstract

Lumbar drain insertion is a common procedure that is performed by anaesthesiologists, radiologists and neurosurgeons that is generally taught through supervised learning that can place patients at risk. We describe in detail the creation and considerations of a novel lumbar drain simulator designed to allow learners to rehearse the complete lumbar drain insertion procedure from start to finish. A lumbar drain simulator was designed with the goal of simulating drain placement on a patient including identifying physical landmarks, sterile field preparation, technical steps of the procedure, troubleshooting and securing and connecting the drainage system. Emphasis was placed on simulating the structural components of the anatomic compartments encountered during needle insertion and accurate reproduction of the tactile aspects of the procedure. The simulator is able to reproduce the critical aspects of drain placement, allowing for learners to practice a complete lumbar drain placement from start to finish. A complete simulation of lumbar drain placement can be created that allows learners to practise all aspects of the lumbar drain procedure. Learners can rehearse all steps of the procedure allowing them to be more confident and facile with the procedure, which can lead to improved patient safety and satisfaction.

Published

2021

10. Creation of a Novel Hands-on Model to Teach Breast Tanner Staging to Pediatric Learners

Author

Reema Habiby, Ellie O’Brien, and Rachel Kadakia

Subjects

Pediatric resident, medicine.medical_specialty, Students, Medical, medicine.diagnostic_test, Epidemiology, business.industry, education, Medicine (miscellaneous), Internship and Residency, Physical examination, Context (language use), Education, Synthetic materials, Modeling and Simulation, Teaching tool, Curriculum development, Medicine, Humans, Medical physics, Curriculum, business, Pediatric care, Child, Physical Examination, Residency training

Abstract

INTRODUCTION Pubertal Tanner staging is a standard part of the pediatric physical examination and provides valuable insight into a child's growth and development. In practice, pediatric care practitioners have varying levels of confidence and expertise with Tanner staging. Currently, breast Tanner staging is taught via illustrated images or limited hands-on practice on real patients during pediatric residency training. METHODS We used synthetic materials to develop a lifelike, 3-dimensional, hands-on educational tool aimed at teaching medical students and pediatric resident physicians how to identify and distinguish among the 5 breast Tanner stages. This tool was evaluated by a group of experienced pediatric endocrinologists. RESULTS Thirty pediatric endocrinologists with an average of 16.7 years of clinical experience evaluated the model, and all participants believed the model was a valuable teaching tool for medical students and pediatric resident physicians. Tanner stages 1, 2, 3, 4, and 5 were correctly identified by 100%, 93%, 90%, 100%, and 73% of participants, respectively. CONCLUSIONS We show that the use of a synthetic, 3-dimensional, lifelike breast model to teach breast Tanner staging may be valuable within the context of pediatric medical education. Further refinement of the model as well as curriculum development and evaluation is necessary before broadly disseminating this model as an educational tool.

Published

2021

11. Starbugs field-allocation simulations for FOBOS

Author

Ellie O’Brien, Michael Goodwin, David T. Adams, Lew Waller, Jonathan S. Lawrence, Kyle B. Westfall, Kevin Bundy, Nuria P. F. Lorente, Renate Kupke, Claire L. Poppett, Helen McGregor, Nicholas MacDonald, Celestina S. Lacombe, and Jessica R. Zheng

Subjects

Wavefront, Optical fiber, business.industry, Computer science, Detector, Astrophysics::Instrumentation and Methods for Astrophysics, law.invention, Telescope, Cardinal point, Conceptual design, law, Broadband, Aerospace engineering, business, Spectrograph

Abstract

Starbugs are robotic devices that have the capability to simultaneously position many optical fibers, over the telescope’s focal plane to carry-out efficient spectroscopic surveys. The conceptual design of FOBOS, the Fiber-Optic Broadband Optical Spectrograph, deploys Starbugs at the Keck II focal plane to enable high-multiplex, deep spectroscopic follow-up of upcoming deep-imaging surveys. FOBOS requires configured fields of many-hundreds of targets (significantly more than TAIPAN and MANIFEST instruments) in a few minutes, consistent with typical detector readout times. FOBOS also requires the inclusion of different optical payloads, like integral field-units, calibration bundles, coherent imaging bundles and perhaps wavefront sensors. Therefore, with these new challenges, it is important to optimize the target allocation and routing algorithms for Starbugs that yield the best configuration times and science outcomes for FOBOS. We provide a description of the Starbug parameters required by the FOBOS conceptual design, perform relevant allocation simulations, and discuss their performance.

Published

2020

12. Surgical training tools for dermatology trainees: porcine vs. synthetic skin for excision and repair

Author

Itisha S, Jefferson, Shamika Kayo, Robinson, David, Surprenant, Adam, Whittington, Ashish, Arshanapalli, Eleanor, Tung-Hahn, Cara, Joyce, Lauren, Moy, Kristin, Lee, Ellie, O'Brien, Rebecca, Tung, and Murad, Alam

Subjects

Skin, Artificial, Surgeons, Swine, Dermatologic Surgical Procedures, Suture Techniques, Internship and Residency, Dermatology, Ambulatory Surgical Procedures, Surveys and Questionnaires, Animals, Humans, Clinical Competence, Simulation Training, Skin

Abstract

Since dermatologists routinely perform surgery in an outpatient setting, ensuring that dermatology trainees are provided with opportunities to develop sufficient proficiency in excisional surgery and suture technique is paramount. The objectives of this study are to assess trainee preference for silicone-based synthetic skin compared with porcine skin as a surgical training medium and to assess the ability of trainees to successfully demonstrate basic surgical skills using the simulated skin model. Participants were a convenience sample of dermatology residents from the greater Chicago area, who were asked to perform an elliptical excision and bilayered repair on a silicone-based synthetic skin model. Residents were then surveyed regarding their satisfaction with the model. Four blinded dermatologist raters evaluated digital photographs obtained during the performance of the procedures and graded the execution of each maneuver using a surgical task checklist. Nineteen residents were enrolled. Residents were more likely to prefer pig skin to simulated skin for overall use (p = 0.040) and tissue repair (p = 0.018), but the nominal preference for tissue handling was nonsignificant (p = 0.086). There was no significant difference between satisfaction with pig skin versus synthetic skin with regard to excision experience (p = 0.82). The majority of residents (10/19) performed all surgical checklist tasks correctly. Of those residents who did not perform all steps correctly, many had difficulty obtaining adequate dermal eversion and wound approximation. Synthetic skin may be conveniently and safely utilized for hands-on surgical practice. Further refinement may be necessary to make synthetic skin comparable in feel and use to animal skin.

Published

2020

13. Use of a Novel Simulator and Simulation-based Mastery Learning to Improve Femoral Arterial Access Skills

Author

Marysa V. Leya, Laura Davidson, Diane B. Wayne, Ranya Sweis, Ashley K. Vavra, Eric Pillado, Daniel Schimmel, Jeffrey H. Barsuk, Eric S. Hungness, Tadaki M. Tomita, Ellie O'Brien, and Kush R. Desai

Subjects

business.industry, Medicine, Surgery, Mastery learning, Cardiology and Cardiovascular Medicine, business, Simulation based, Simulation

Published

2021

14. Veloce environmental control system

Author

Nicholas Herrald, Matthew Robertson, Colin Vest, Robert Boz, Michael J. Ireland, James Gilbert, Ellie O'Brien, Tom Carkic, Ian Price, Michael Ellis, and Gaston Gausachs

Subjects

Atmospheric pressure, Shield, Control system, Environmental control system, Thermal, Enclosure, Environmental science, Mechanical engineering, PID controller, Spectrograph

Abstract

Veloce is an ultra-stabilized Echelle spectrograph for precision radial velocity measurements of stars. In order to maximize the grating performance, the air temperature as well as the air pressure surrounding it must be maintained within tight tolerances. The control goal was set at +/-10 mK and +/-1 mbar for air temperature and pressure respectively. The strategy developed by the design team resulted in separate approaches for each of the two requirements. A constrained budget early in the concept phase quickly ruled out building a large vacuum vessel to achieve stable air pressure. Instead, a simplified approach making use of a slightly over pressurized enclosure containing the whole spectrograph was selected in conjunction with a commercially available pressure controller. The temperature stability of Veloce is maintained through a custom array of PID controlled heaters placed on the outer skin of the internal spectrograph enclosure. This enclosure is also fully lined with 19 mm thick insulating panels to minimize the thermal fluctuations. A second insulated enclosure, built around the internal one, adds a layer of conditioned air to further shield Veloce from the ambient thermal changes. Early success of the environment control system has already been demonstrated in the integration laboratory, achieving results that amply exceed the goals set forth. Results presented show the long term stability of operation under varying barometric conditions. This paper details the various challenges encountered during the implementation of the stated designs, with an emphasis on the control strategy and the mechanical constraints to implement the solutions.

Published

2018

15. Preliminary Evaluation of a Novel Thoracoscopic Infant Lobectomy Simulator

Author

Deborah M. Rooney, Lauren M. Davis, Katherine A. Barsness, and Ellie O'Brien

Subjects

Models, Anatomic, medicine.medical_specialty, Attitude of Health Personnel, Ribs, Pediatrics, Simulation training, Procedural skill, Rating scale, Animals, Humans, Medicine, Pneumonectomy, Simulation Training, Bovine tissue, Global rating scale, Simulation, Rasch model, business.industry, Thoracoscopy, Infant, Test (assessment), Surgery, Printing, Three-Dimensional, Physical therapy, Cattle, Clinical Competence, Surgical education, business

Abstract

Thoracoscopic lobectomy in infants requires advanced minimally invasive skills. Simulation-based education has the potential to improve complex procedural skills without exposing the patient to undue risks. The study purposes were (1) to create a size-appropriate infant lobectomy simulator and (2) to evaluate validity evidence to support or refute its use in surgical education.In this Institutional Review Board-exempt study, a size-appropriate rib cage for a 3-month-old infant was created. Fetal bovine tissue completed the simulator. Thirty-three participants performed the simulated thoracoscopic lobectomy. Participants completed a self-report, 26-item instrument consisting of 25 4-point rating scales (from 1=not realistic to 4=highly realistic) and a one 4-point Global Rating Scale. Validity evidence relevant to test content and response processes was evaluated using the many-facet Rasch model, and evidence of internal structure (inter-item consistency) was estimated using Cronbach's alpha.Experienced surgeons (observed average=3.6) had slightly higher overall rating than novice surgeons (observed average=3.4, P=.001). The highest combined observed averages were for the domain Physical Attributes (3.7), whereas the lowest ratings were for the domains Realism of Experience and Ability to Perform Tasks (3.4). The global rating was 2.9, consistent with "this simulator can be considered for use in infant lobectomy training, but could be improved slightly." Inter-item consistency for items used to evaluate the simulator's quality was high (α=0.90).With ratings consistent with high physical attributes and realism, we successfully created an infant lobectomy simulator, and preliminary evidence relevant to test content, response processes, and internal structure was supported. Participants rated the model as realistic, relevant to clinical practice, and valuable as a learning tool. Minor improvements were suggested prior to its full implementation as an educational and testing tool.

Published

2015

16. Veloce Rosso: Australia's new precision radial velocity spectrograph

Author

James Gilbert, Christoph Bergmann, Colin Vest, Brad D. Carter, Damien Jones, Matthew Robertson, Annino Vaccarella, Ellie O'Brien, Robert Brookfield, Vladimir Churilov, Yevgen Kripak, Gaston Gausachs, Christian Schwab, Ross Zhelem, Robert Boz, Gabe Bloxham, Tom Carkic, Luke Gers, C. G. Tinney, Scott Case, Doug Gray, Duncan J. Wright, Nicholas Herrald, Michael J. Ireland, Michael Ellis, Ian Price, and Jon Lawrence

Subjects

Physics, Doppler spectroscopy, business.industry, FOS: Physical sciences, 01 natural sciences, law.invention, 010309 optics, Telescope, Radial velocity, symbols.namesake, Frequency comb, Optics, law, 0103 physical sciences, symbols, Calibration, Arc lamp, Astrophysics - Instrumentation and Methods for Astrophysics, business, 010303 astronomy & astrophysics, Spectrograph, Doppler effect, Instrumentation and Methods for Astrophysics (astro-ph.IM)

Abstract

Veloce is an ultra-stable fibre-fed R4 echelle spectrograph for the 3.9 m Anglo-Australian Telescope. The first channel to be commissioned, Veloce 'Rosso', utilises multiple low-cost design innovations to obtain Doppler velocities for Sun-like and M-dwarf stars at 75,000 spectra over a 580-950 nm range for the Rosso channel. Simultaneous calibration is provided by a single-mode pulsed laser frequency comb in tandem with a traditional arc lamp. A bundle of 19 object fibres provides a 2.4" field of view for full sampling of stellar targets from the AAT site. Veloce is housed in dual environmental enclosures that maintain positive air pressure at a stability of +/-0.3 mbar, with a thermal stability of +/-0.01 K on the optical bench. We present a technical overview and early performance data from Australia's next major spectroscopic machine., Submitted to SPIE 10702

Published

2018

17. Evaluation of three sources of validity evidence for a laparoscopic duodenal atresia repair simulator

Author

Katherine A. Barsness, Ellie O'Brien, Lauren M. Davis, and Deborah M. Rooney

Subjects

Models, Anatomic, medicine.medical_specialty, Rasch model, business.industry, Attitude of Health Personnel, Intestinal Atresia, Institutional review board, medicine.disease, Pediatrics, United States, Surgery, Duodenal atresia, Specialties, Surgical, Rating scale, medicine, Content validity, Animals, Humans, Cattle, Laparoscopy, Duodenal Obstruction, business, Bovine tissue, Simulation

Abstract

Laparoscopic duodenal atresia (DA) repair is a relatively uncommon pediatric operation requiring advanced minimally invasive skills. Currently, there are no commercial simulators available that address surgeons' needs for refining skills associated with this procedure. The purposes of this study were (1) to create an anatomically correct, size-relevant model and (2) to evaluate the content validity of the simulator.Radiologic images were used to create an abdominal domain consistent with a full-term infant. Fetal bovine tissue was used to complete the simulator. Following Institutional Review Board exempt determination, 18 participants performed the simulated laparoscopic DA repair. Participants completed a self-report, six-domain, 24-item instrument consisting of 4-point rating scales (from 1=not realistic to 4=highly realistic). Validity evidence relevant to test content and response processes was evaluated using the many-facet Rasch model, and evidence of internal structure (inter-item consistency) was estimated using Cronbach's alpha.The highest observed averages were for "Value as a training and testing tool" (both observed averages=3.9), whereas the lowest ratings were "Palpation of liver" (observed average=3.3) and "Realism of skin" (observed average=3.2). The Global opinion rating was 3.2, indicating the simulator can be considered for use as is, but could be improved slightly. Inter-item consistency was high (α=0.89).We have successfully created a size-appropriate laparoscopic DA simulator. Participants agreed that the simulator was relevant and valuable as a learning/testing tool. Prior to implementing this simulator as a training tool, minor improvements should be made, with subsequent evaluation of additional validation evidence.

Published

2014

18. Evaluation of Three Sources of Validity Evidence for a Synthetic Thoracoscopic Esophageal Atresia/Tracheoesophageal Fistula Repair Simulator

Author

Deborah M. Rooney, Ellie O'Brien, Lauren M. Davis, and Katherine A. Barsness

Subjects

medicine.medical_specialty, Attitude of Health Personnel, Silicones, Tracheoesophageal fistula, Computed tomography, Ribs, Esophageal atresia/tracheoesophageal fistula, Pediatrics, Esophagus, medicine, Humans, Esophageal Atresia, Simulation Training, Simulation, medicine.diagnostic_test, business.industry, Thoracoscopy, Equipment Design, medicine.disease, United States, Surgery, Trachea, Atresia, embryonic structures, Printing, Three-Dimensional, Computer-Aided Design, Female, business, Hybrid model, Tracheoesophageal Fistula

Abstract

Thoracoscopic esophageal atresia (EA)/tracheoesophageal fistula (TEF) repair is technically challenging. We have previously reported our experiences with a high-fidelity hybrid model for simulation-based educational instruction in thoracoscopic EA/TEF, including the high cost of the tissue for these models. The purposes of this study were (1) to create a low-cost synthetic tissue EA/TEF repair simulation model and (2) to evaluate the content validity of the synthetic tissue simulator.Review of the literature and computed tomography images were used to create computer-aided drawings (CAD) for a synthetic, size-appropriate EA/TEF tissue insert. The inverse of the CAD image was then printed in six different sections to create a mold that could be filled with platinum-cured silicone. The silicone EA/TEF insert was then placed in a previously described neonatal thorax and covered with synthetic skin. Following institutional review board-exempt determination, 47 participants performed some or all of a simulated thoracoscopic EA/TEF during two separate international meetings (International Pediatric Endosurgery Group [IPEG] and World Federation of Associations of Pediatric Surgeons [WOFAPS]). Participants were identified as "experts," having 6-50 self-reported thoracoscopic EA/TEF repairs, and "novice," having 0-5 self-reported thoracoscopic EA/TEF repairs. Participants completed a self-report, six-domain, 24-item instrument consisting of 23 5-point rating scales and one 4-point Global Rating Scale. Validity evidence relevant to test content and response processes was evaluated using the many-facet Rasch model, and evidence of internal structure (interitem consistency) was estimated using Cronbach's alpha.A review of the participants' ratings indicates there were no overall differences across sites (IPEG versus WOFAPS, P=.84) or experience (expert versus novice, P=.17). The highest observed averages were 4.4 (Value of Simulator as a Training Tool), 4.3 (Physical Attributes-chest circumference, chest depth, and intercostal space), and 4.3 (Realism of Experience-fistula location). The lowest observed averages were 3.5 (Ability to Perform-closure of fistula), 3.7 (Ability to Perform-acquisition target trocar sites), 3.8 (Physical Attributes-landmark visualization), 3.8 (Ability to Perform-anastomosis and dissection of upper pouch), and 3.9 (Realism of Materials-skin). The Global Rating Scale was 2.9, coinciding with a response of "this simulator can be considered for use in neonatal TEF repair training, but could be improved slightly." Material costs for the synthetic EA/TEF inserts were less than $2 U.S. per insert.We have successfully created a low-cost synthetic EA/TEF tissue insert for use in a neonatal thoracoscopic EA/TEF repair simulator. Analysis of the participants' ratings of the synthetic EA/TEF simulation model indicates that it has value and can be used to train pediatric surgeons, especially those early in their learning curve, to begin to perform a thoracoscopic EA/TEF repair. Areas for model improvement were identified, and these areas will be the focus for future modifications to the synthetic EA/TEF repair simulator.

Published

2014