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Dr. Joseph T. Foley (MIT B.Sc, M.Eng, Ph.D) has worked on analyzing how to make manufacturing processes use less energy. At iRobot, he developed shape-changing robots to fit through small holes. As a professor at Reykjavík University, Joseph is continuing to expand his interests into engineer and artist collaborative works, Shape Memory Alloy research, and the Axiomatic Design method. He is a member of the scientific committee for the International Conference on Axiomatic Design 2017 and has published an article on how Axiomatic Design can be applied to artistic endeavors. His personal projects with Icelandic museums resulted in development of low-cost synchronizers for video installations and a wireless tablet-based interface for playing video works on screens.
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Joseph Timothy Foley (MIT BSc ‘99, MEng, ‘99, PhD ‘07) previously worked at iRobot's Government and Industrial division designing and building shape-changing robots. At Reykjavik University, he focuses on Mechatronics and Mechanical Design for teaching. His research interests include Axiomatic Design, aircraft maintenance, product design, embedded smart devices, wireless communication, physical security, and engineering-artist collaborations.
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Dr. Joseph Timothy Foley (MIT BSc ‘99, MEng, ‘99, PhD ‘07) has worked as a researcher and designer in a large variety of fields with a heavy emphasis on infrastructure and mechatronics.
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His graduate research at MIT focused on integrating RFID into smart devices in a scalable and secure way.
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He worked as a postgraduate researcher in the Environmentally Benign Manufacturing group at MIT in partnership with SKF, investigating methods of reducing the impact and energy usage of manufacturing processes.
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At iRobot's Government and Industrial division, he developed shape-changing robots as the technical lead for the Harvard-MIT-iRobot DARPA ChemBots team.
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This research resulted in a US patent on the manufacture of enhanced Shape Memory Alloy springs, a topic he still is researching.
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He is now an assistant professor at Reykjavik University teaching topics in mechatronics and mechanical design.
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He has integrated Axiomatic Design into the courses he currently teaches to provide students with a common framework for the heavily multi-disciplinary nature of modern computer-controlled manufacturing and smart devices.
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His research interests include aircraft maintenance automation, product design, embedded smart devices, wireless communication, physical security, and engineering-artist collaborations.
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His most recent developments in Axiomatic Design research include Creative Axiomatic Design (CIRP DC 2016), Desirable Complexity (ICAD 2017), and Axiomatic Design as an Ontology (CIRP DC 2017).
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In addition, he was the head organizer for the 12th International Conference on Axiomatic Design 2018 at Reykjavík University.
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# Joseph T. Foley's CV repository
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## Files to look at
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Joe usually updates PDFs of the various versions with the name "-publish.pdf"
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He recommends looking a foley-main_cv-publish.pdf to start
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## Early synopis
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Joseph T. Foley has a varied career stretching across multiple startups and consulting jobs. His first startup position was with the founding of Brute Force Games in Cambridge who’s intent was to build a modular immersive gaming system that could be deployed in gaming parlors across the country. Due to Disney’s entry into the market, he moved on to another startup: Emode. This company promised better understanding of employees for HR divisions of companies through carefully constructed surveys developed by a Harvard Doctor of Psychology. His position there was as a “Magic Mechanic”, in short IT manager, software developer, and designer. Joseph returned back to his graduate career focus and instead did small consulting jobs on the side. A former colleague hired him to develop a web interface for a startup called “Uffinity” which was to be a social network aggregation site for businesses to connect to newly graduate young professionals. Upon graduation, Joseph worked at iRobot’s Government and Industrial division overseeing the DARPA Chembots project. Once that project was completed, Joseph moved to Iceland but acted as a consultant for Professor Sanbae Kim at the MIT Biomimetic Robotics Lab at MIT performing FEA analysis on the Cheeta-bot’s major leg elements.
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He was also a consultant for the small machining and design firm Brass Drift on the west coast. Owner Peter Luka hired Joseph to apply design methodologies to redesigning machine elements he was manufacturing. Joseph was soon hired as a lecturer at Reykjavík University which he progressed to the position of Assistant Professor. He has continued to do consulting while maintaining his position at the University: designing an automated zebrafish embryo dispensing robot for the startup 3Z, developing a Distributed Quality Control concept with Professor Sanjay Sarma, developing microcontroller based IoT systems for Icelandic museums and Escape Room companies. Joseph’s latest IoT consulting project was a collaboration with the artist Sigrún Harðardóttir to develop an interactive art piece that instrumented a room, instrument, and furniture into an immersive experience.
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## Further development
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Dr. Joseph T. Foley (MIT B.Sc, M.Eng, Ph.D) has worked on analyzing how to make manufacturing processes use less energy. At iRobot, he developed shape-changing robots to fit through small holes. As a professor at Reykjavík University, Joseph is continuing to expand his interests into engineer and artist collaborative works, Shape Memory Alloy research, and the Axiomatic Design method. He is a member of the scientific committee for the International Conference on Axiomatic Design 2017 and has published an article on how Axiomatic Design can be applied to artistic endeavors. His personal projects with Icelandic museums resulted in development of low-cost synchronizers for video installations and a wireless tablet-based interface for playing video works on screens.
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Joseph Timothy Foley (MIT BSc ‘99, MEng, ‘99, PhD ‘07) previously worked at iRobot's Government and Industrial division designing and building shape-changing robots. At Reykjavik University, he focuses on Mechatronics and Mechanical Design for teaching. His research interests include Axiomatic Design, aircraft maintenance, product design, embedded smart devices, wireless communication, physical security, and engineering-artist collaborations.
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Dr. Joseph Timothy Foley (MIT BSc ‘99, MEng, ‘99, PhD ‘07) has worked as a researcher and designer in a large variety of fields with a heavy emphasis on infrastructure and mechatronics.
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His graduate research at MIT focused on integrating RFID into smart devices in a scalable and secure way.
|
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He worked as a postgraduate researcher in the Environmentally Benign Manufacturing group at MIT in partnership with SKF, investigating methods of reducing the impact and energy usage of manufacturing processes.
|
||||
At iRobot's Government and Industrial division, he developed shape-changing robots as the technical lead for the Harvard-MIT-iRobot DARPA ChemBots team.
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This research resulted in a US patent on the manufacture of enhanced Shape Memory Alloy springs, a topic he still is researching.
|
||||
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He is now an assistant professor at Reykjavik University teaching topics in mechatronics and mechanical design.
|
||||
He has integrated Axiomatic Design into the courses he currently teaches to provide students with a common framework for the heavily multi-disciplinary nature of modern computer-controlled manufacturing and smart devices.
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His research interests include aircraft maintenance automation, product design, embedded smart devices, wireless communication, physical security, and engineering-artist collaborations.
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His most recent developments in Axiomatic Design research include Creative Axiomatic Design (CIRP DC 2016), Desirable Complexity (ICAD 2017), and Axiomatic Design as an Ontology (CIRP DC 2017).
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In addition, he was the head organizer for the 12th International Conference on Axiomatic Design 2018 at Reykjavík University.
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@@ -1,98 +0,0 @@
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\documentclass{moderncv}
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% moderncv styles
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%\moderncvstyle{casual}
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%\moderncvstyle[nocolor]{casual}
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%\moderncvstyle{classic}
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%\moderncvstyle[roman]{classic}
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\moderncvtheme[blue]{classic}
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% character encoding
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\usepackage[icelandic]{babel}
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\usepackage[utf8]{inputenc}
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\usepackage[T1]{fontenc}
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% resize margins if needed, mostly for A4
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%\usepackage[a4paper, scale=0.8]{geometry}
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%\usepackage[scale=0.8]{geometry}
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\hyphenpenalty=5000
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\tolerance=1000
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%\raggedright
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% personal data
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\firstname{Mark\'eta}
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\familyname{Foley}
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\title{Biochemical Engineer and Consultant\hfil}
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%\address{12 somestreet}{3456 somecity} % for classic style
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%\address{11 Ticklefancy Lane}{Salem, NH 03079 USA} % for casual style
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\address{\'Alakv\'isl 39}{110 Reykav\'ik, Iceland} % for casual style
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\mobile{+354-661-2086}
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\email{marketa@alum.mit.edu}
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%\extrainfo{{\small married with childrens}}
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%\quote{}
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%\renewcommand{\listsymbol}{{\fontencoding{U}\fontfamily{ding}\selectfont\tiny\symbol{'102}}}
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%\definecolor{see}{rgb}{0.5,0.5,0.5}
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% command for text subscripts
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%\newcommand{\up}[1]{\ensuremath{^\textrm{\scriptsize#1}}}
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% slanted small caps (only with roman family; the sans serif font doesn't exists :-()
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%\usepackage{slantsc}
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%\DeclareFontFamily{T1}{myfont}{}
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%\DeclareFontShape{T1}{myfont}{m}{scsl}{ <-> cork-lmssqbo8}{}
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%\usefont{T1}{myfont}{m}{scsl}Testing the font
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%----------------------------------------------------------------------------------
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% content
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%----------------------------------------------------------------------------------
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\begin{document}
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\maketitle
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%\makequote
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\section{Education}
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\cventry{1996-2000}{Bachelor of Science in Chemical Engineering}{Massachusetts Institute of Technology (Cambridge MA)}{}{}{}
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\cventry{1996-2000}{Bachelor of Science in Biology}{Massachusetts Institute of Technology (Cambridge, MA)}{Minors: Biomedical engineering, Theatre Arts}{}{}
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\section{Continuing Education}
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\cventry{2012}{``Circuits and Electronics (6.002x)''}{Massachusetts Institute of Technology}{semester-long distance-learning course}{}{}
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\cventry{2007}{``Electronics Project Laboratory''}{Massachusetts Institute of Technology}{semester-long project class}{}{}
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\cventry{2007}{``Basic Life Support for the Healthcare Provider''}{Massachusetts Institute of Technology}{1-day CPR class}{}{}
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\cventry{2003}{``Regulatory Compliance Solutions Including 21CFR Section 11''}{IBM Life Sciences}{1-day course}{}{}
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\cventry{2003}{``Decision Points in Drug Development''}{Pharmaceutical Education and Research Institute}{distance-learning course}{}{}
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\section{Teaching}
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\cventry{2011-2012}{Reykjav\'ik University (Reykjav\'ik, Iceland)}{Developed and taught the laboratory portion of an introductory molecular biology course (T-106-LIFV) as part of an effort to incorporate more hands-on exercises into the curriculum}{}{}{}
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\cventry{2004-2007}{Massachusetts Institute of Technology (Cambridge, MA)}{Designed and taught hands-on summer courses in fermentation and cell culture technology to industry professionals}{}{}{}
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\cventry{2004-2006}{Massachusetts Institute of Technology (Cambridge, MA)}{Redesigned a non-biological facility to accommodate an undergraduate course in experimental biological techniques. Equipped the laboratory with necessary equipment, tested all experiments, wrote protocols and documentation, and successfully taught the course}{}{}{}
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\cventry{2003-2007}{Massachusetts Institute of Technology (Cambridge, MA)}{Designed and taught new senior-level undergraduate laboratory courses in biochemical engineering focusing on molecular biology techniques, fermentation, and cell culture. Developed and tested experiments, wrote protocols and documentation, designed problem sets, managed other teaching staff, and successfully taught the course}{}{}{}
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\section{Experience}
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\cventry{2011-2013}{University of Iceland (Reykjav\'ik, Iceland)}{Project Manager}{Developed methods for assessing red blood cell and platelet quality during storage. Developed and implemented SOP procedures (ERC-funded project between the Center for Systems Biology at the University of Iceland and the Icelandic Bloodbank)}{}{}
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\cventry{2011-2012}{Reykjav\'ik University (Reykjav\'ik, Iceland)}{Researcher}{Developed an electrophoretic deposition method for attaching chitosan to titanium implants (collaborative project between Reykjav\'ik University, Icelandic Bloodbank, Innovation Center Iceland - Nýsköpunarmiðstöð Íslands, and Genís ehf.)}{}{}
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\cventry{2010-2011}{Foley Consulting (Reykjav\'ik, Iceland)}{Translator}{Translated a university-level textbook for the Institute of Chemical Technology in Prague (Czech Republic) from Czech to English. The subject matter was the science and engineering of beer manufacturing}{}{}
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\cventry{2007-2010}{Percivia (Cambridge, MA)}{Associate Scientist (Upstream Processing)}{Developed and optimized media and bioreactor processes for the PER.C6 human cell line. Worked with customers to demonstrate PER.C6 technology and troubleshoot processes}{}{}
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\cventry{2002-2003}{Scion Pharmaceuticals (Medford, MA)}{Associate Scientist (Electrophysiology)}{Led an ion channel drug screening project using Scion's high-throughput electrophysiology platform. Introduced an automated liquid handler into the workflow. Developed and implemented SOP procedures}{}{}
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\cventry{2000-2002}{Alkermes (Cambridge, MA)}{Research Engineer (Aerosol Engineering)}{Lead engineer on the Alkermes - Eli Lilly hGH development project team. Optimized spray drying processes to produce large porous particles for delivery through the lungs. Assistant to the team Project Manager (assisted with a project development plan, compiled control matrices to track milestones in support of FDA requirements through product launch). Ran feasibility studies as proof of concept to assess potential drug candidates}{}{}
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\cventry{1999-2000}{Massachusetts Institute of Technology (Cambridge, MA)}{Student Researcher (Biotechnology Process Engineering Center)}{Designed a continuous culture fermentation process for the production of tailspike protein by E. coli. Analyzed an expanded-bed chromatography step for tailspike purification}{}{}
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\cventry{1994-1996}{Academy of Sciences of the Czech Republic (Prague, Czech Republic)}{}{Member of the Institute of Macromolecular Chemistry organizing committee for annual IUPAC symposia}{}{}
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\section{Publications}
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\cventry{2012}{``In vitro bioactivity of chitosan attached to titanium constructs using a novel electrophoretic deposition method''}{Foley M., Lieder R., Foley J. T., Örlygsson G., Sigurj\'onsson O. E.}{Journal of Tissue Engineering and Regenerative Medicine (Special Issue: 3rd TERMIS World Congress 2012, 5-8 September 2012, Vienna, Austria) 6:Supplement s1, 187}{}{}
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\cventry{2012}{``Notkun á electrophoretic deposition aðferðum til húðunar á títanígræðum með kítósani''}{Foley M., Lieder R., Foley J. T., Örlygsson G., Sigurj\'onsson O. E.}{Læknablaðið: Vísandi á vordögum (25 Apríl til 4 Maí, 2012, LSH)}{}{}
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\cventry{2011 (in press)}{``Beer Brewing - The Theory and Practice of Beer Manufacturing''}{Basa\v{r}ov\'a, G., \v{S}avel, J., Basa\v{r}, P., Lejsek, T. (English translation by M. Foley)}{Vydavatelstv\'i V\v{S}CHT Praha}{}{}
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\cventry{2009}{``High level expression of functional human IgMs in human PER.C6® cells''}{Tchoudakova, A., Hensel, F., Murillo, A., Eng, B., Foley, M., Smith, L., Schoenen, F., Hildebrand, A., Kelter, A.-R., Ilag, L. L., Vollmers, H. P., Brandlein, S., McInich, J., Chon, J., Lee, G., Cacciuttolo, M.}{mAbs 1:2, 163-171}{}{}
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\cventry{2009}{``Development of a Platform Fed Batch Process for Production of Antibodies in the PER.C6® Human Cell Line''}{Kral, K. M., Erskine, B., Foley, M., Powers, D. E., Hoff, R. F., Chon, J. H.}{Proceedings of the 21st Annual Meeting of the European Society for Animal Cell Technology (ESACT), Dublin, Ireland, June 7-10, 2009. ESACT Proceedings Vol. 5, Springer}{}{}
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\section{Awards}
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\cventry{2000}{The Joseph D. Everingham Award}{Awarded to a graduating MIT student in recognition of a single creative outstanding performance or notable creative accomplishments in theater arts}{}{}{}
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\end{document}
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Joseph T. Foley has a varied career stretching across multiple startups and consulting jobs. His first startup position was with the founding of Brute Force Games in Cambridge who’s intent was to build a modular immersive gaming system that could be deployed in gaming parlors across the country. Due to Disney’s entry into the market, he moved on to another startup: Emode. This company promised better understanding of employees for HR divisions of companies through carefully constructed surveys developed by a Harvard Doctor of Psychology. His position there was as a “Magic Mechanic”, in short IT manager, software developer, and designer. Joseph returned back to his graduate career focus and instead did small consulting jobs on the side. A former colleague hired him to develop a web interface for a startup called “Uffinity” which was to be a social network aggregation site for businesses to connect to newly graduate young professionals. Upon graduation, Joseph worked at iRobot’s Government and Industrial division overseeing the DARPA Chembots project. Once that project was completed, Joseph moved to Iceland but acted as a consultant for Professor Sanbae Kim at the MIT Biomimetic Robotics Lab at MIT performing FEA analysis on the Cheeta-bot’s major leg elements.
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He was also a consultant for the small machining and design firm Brass Drift on the west coast. Owner Peter Luka hired Joseph to apply design methodologies to redesigning machine elements he was manufacturing. Joseph was soon hired as a lecturer at Reykjavík University which he progressed to the position of Assistant Professor. He has continued to do consulting while maintaining his position at the University: designing an automated zebrafish embryo dispensing robot for the startup 3Z, developing a Distributed Quality Control concept with Professor Sanjay Sarma, developing microcontroller based IoT systems for Icelandic museums and Escape Room companies. Joseph’s latest IoT consulting project was a collaboration with the artist Sigrún Harðardóttir to develop an interactive art piece that instrumented a room, instrument, and furniture into an immersive experience.
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