Electronic Military & Defense Annual Resource

6th Edition

Electronic Military & Defense magazine was developed for engineers, program managers, project managers, and those involved in the design and development of electronic and electro-optic systems for military, defense, and aerospace applications.

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Trends 12. Gean, A. D. (2014). Brain Injury: Applications from War and Terrorism. Philadelphia: LWW. 13. Case, T., Morrison, C., & Vuylsteke, A. (2012). The Clinical Application of Mobile Technology to Disaster Medicine. Prehosp. Disaster Med., 27 (5), 473-80. 14. Cawthorn, M. A., Goeringer, F., Telepak, R. J., Burton, B. S., Pupa, S. H., Willis, C. E., et al. (1991). Preliminary Assessment of Computed Tomography and Satellite Teleradiology from Operation Desert Storm. Invest Radiol., 26 (10), 854-7. 15. Freitag, D. (2015, May 18). The Role Of 3D Displays In Medical Imaging Applications. Retrieved May 5, 2016, from http://www.meddeviceonline.com/doc/the-role-of-d-displays- in-medical-imaging-applications-0001. 16. Trattnig, S. (2016). Biomarkers Increase Impact on Imaging. ECR 2016. Vienna. 17. Sengupta, P. P. (2013). Intelligent Platforms for Disease Assessment: Novel Approaches in Functional Echocardiography. JACC Cardiovasc. Imaging., 6 (11), 1206- 11. 18. CCPi Tomographic Imaging. (n.d.). Quantification. Retrieved May 1, 2016, from https://www.ccpi.ac.uk/node/6. 19. Ford, J. (2016, Apr 22). 3D X-ray Imaging Technology Provides Fresh Insight into Lung Disease. Retrieved May 1, 2016, from https://www.theengineer.co.uk/3d-x-ray-imaging- technology-provides-fresh-insight-into-biopsy-samples/ 20. Medical Imaging and Technology Alliance (MITA). (2016). Medical Imaging Modalities. Retrieved May 5, 2016, from http://www.medicalimaging.org/about-mita/ medical-imaging-primer/. 21. Gregan, J., Balasingam, A., & Butler, A. (2016). Radiology in the Christchurch Earthquake of 22 February 2011: Challenges, Interim Processes and Clinical Priorities. J. Med. Imaging Radiat. Oncol., 60 (2), 172–181. 22. Azeem, B. (2015). Managing Radiology On Battlefield. ECR 2015. Vienna. 23. Science Museum UK. (n.d.). Medicine in the War Zone. Retrieved May 1, 2016, from http://www.sciencemuseum. org.uk/broughttolife/themes/war/warzone 24. Seegert, C. (2015, Jan 29). Portable X-Ray Services Are On The Rise. Retrieved May 1, 2016, from http://www. meddeviceonline.com/doc/portable-x-ray-services-are-on-the-rise-0001. 25. Jiménez, P., Medlen, K. P., & Fleitas-Estévez, I. (2014). Diagnostic Imaging for Global Health: Implementation and Optimization of Radiology in the Developing World. In Radiology in Global Health (pp. 127-137). Springer. 26. Lin, C.-W., Bachilo, S. M., Vu, M., Beckingham, K. M., & Bruce, W. R. (2016). Spectral Triangulation: a 3D Method for Locating Single-Walled Carbon Nanotubes In Vivo. Nanoscale, 8, 10348-10357. 27. Liebergall, M. (2006). Removal of Retained Shrapnel: When and Why?. Extremity War Injuries: State of the Art and Future Directions. Washington, D.C. Electronic Military & Defense Annual Resource, 6th Edition 23 Nuruzzaman Noor, Eng.D., is an intern researcher at Adaptix Ltd. His research background spans various aspects of experimental materials science and engineering. He currently is exploring principles related to the early-stage commercialization of fundamental and novel scientific research outputs. Zena Patel, Ph.D., received her degree in nuclear physics from University of Surrey and currently is working as an intern at Adaptix Ltd. Gil Travish, Ph.D., is a co-founder and chief science officer at Adaptix Ltd. He is a scientist with over two decades of experience in radiation production and beam physics. Kristin Schmiedehausen, M.D., is chief medical officer at Adaptix Ltd. She is a board-certified nuclear medical physician with more than 18 years clinical and commercial experience in medical imaging. She also works as an independent consultant for the medical device and biotech industry. Phased array radar Avionics, communications, and power hold-up High power lasers Displays, mission computers JTRS software-defined radio Space systems EVANSCAPS EVERYWHERE 401-435-3555 • info@evanscap.com • www.evanscap.com TDD4080123 80V • 12,000µF • 0.015Ω • <25 cc High Power • 10V to 125V • Low ESR • >100 Amp Discharge • Hermetic Unlimited Cycle Life • Unlimited Shelf Life • Low Weight / Volume High Shock and Vibe • >5 Million Hour MTBF • -55˚C to 125˚C Operation Advanced Capacitors for Demanding Applications

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