Experience

DeepMirror

• United Kingdom
• Biotechnology Research
• 1 - 100 Employee

• Co-Founder and COO

  • Jul 2019 - Present

  I am the cofounder and COO of DeepMirror. Our Small Data AI Platform connects to Life Sciences datasets with as few as 100 datapoints to redefine data and machine learning workflows and to help teams cut the costs of developing health innovations with accurate predictions, optimal solutions, and breakthrough discoveries. I am the cofounder and COO of DeepMirror. Our Small Data AI Platform connects to Life Sciences datasets with as few as 100 datapoints to redefine data and machine learning workflows and to help teams cut the costs of developing health innovations with accurate predictions, optimal solutions, and breakthrough discoveries.


St John's College, Cambridge
• United Kingdom
• Higher Education
• 1 - 100 Employee
• College Research Associate

  • Oct 2018 - Present

University of Cambridge
• United Kingdom
• Research Services
• 700 & Above Employee
• Herchel Smith Postdoctoral Research Fellow

  • Oct 2016 - Mar 2022

MRC Laboratory for Molecular Cell Biology (LMCB), UCL
• United Kingdom
• Higher Education
• 1 - 100 Employee
• Postdoctoral Researcher

  • Jan 2016 - Oct 2016


University College London

• United Kingdom
• Higher Education
• 1 - 100 Employee

• PhD Student

  • Sep 2011 - Dec 2015

  CoMPLEX is UCL’s centre for interdisciplinary research in the life sciences. It brings together life and medical scientists with mathematicians, physical scientists, computer scientists and engineers to tackle the challenges arising from complexity in biology and medicine. I started a 4 year Doctoral training programme “Modelling Biological Complexity” at CoMPLEX. This is funded by major grants from the EPSRC and BHF, with additional funding from MRC, BBSRC, NERC, CRUK, SAHFOS and UCL. CoMPLEX is UCL’s centre for interdisciplinary research in the life sciences. It brings together life and medical scientists with mathematicians, physical scientists, computer scientists and engineers to tackle the challenges arising from complexity in biology and medicine. I started a 4 year Doctoral training programme “Modelling Biological Complexity” at CoMPLEX. This is funded by major grants from the EPSRC and BHF, with additional funding from MRC, BBSRC, NERC, CRUK, SAHFOS and UCL.



Scuola Superiore Sant'Anna

• Italy
• Research Services
• 700 & Above Employee

• Robot designer

  • Jan 2010 - Jul 2010

  In a prospective complete intracavitary approach in Surgical Robotics, the employment of a set of robotic units capable of dedicated tasks is supposed to overcome present drawbacks in terms of dexterity, number of DoFs and triangulation. I worked on the modular design of three robotic units, for the dedicated tasks of image acquisition, tissue retraction, and tissue manipulation. I have also worked on the manufacturing, assembly and testing of the camera unit. In a prospective complete intracavitary approach in Surgical Robotics, the employment of a set of robotic units capable of dedicated tasks is supposed to overcome present drawbacks in terms of dexterity, number of DoFs and triangulation. I worked on the modular design of three robotic units, for the dedicated tasks of image acquisition, tissue retraction, and tissue manipulation. I have also worked on the manufacturing, assembly and testing of the camera unit.



Ecole Normale Supèrieure de Cachan

• France
• Spectator Sports

• Research internship

  • Jan 2009 - Apr 2009

  Microfluidics is now a common tool for chemical or biological applications. One of the main difficulties of microfluidics is to mix several species due to the very low Reynolds number. For this reason, several research groups report active or passive micro-mixers integrated in analysis devices. In this work I took advantage of miniaturisation to achieve a concentration gradient of a chemical species over a 1D or 2D chambers array. Microfluidics is now a common tool for chemical or biological applications. One of the main difficulties of microfluidics is to mix several species due to the very low Reynolds number. For this reason, several research groups report active or passive micro-mixers integrated in analysis devices. In this work I took advantage of miniaturisation to achieve a concentration gradient of a chemical species over a 1D or 2D chambers array.


Fermilab
• United States
• Research Services
• 700 & Above Employee
• Research Internship

  • Jul 2008 - Sep 2008