Kaprica Security since Oct 2011
Co-Founder and Developer
Carnegie Mellon University - Greater Pittsburgh Area May 2011 - May 2012
Graduate Student / Researcher
Carnegie Mellon University May 2009 - May 2011
Undergraduate Researcher
Lockheed Martin May 2010 - Aug 2010
Intern
Education:
Carnegie Mellon University 2011 - 2012
Masters of Science, Computer Science
Carnegie Mellon University 2007 - 2011
Bachelor of Science, Computer Science / Mathematical Science
Skills:
Hacking Reverse Engineering Python C++ C Malware Analysis Java x86 Assembly Computer Science Distributed Systems Penetration Testing Perl Algorithms Computer Security Cryptography Linux Ruby Machine Learning Programming Computer Forensics Git OCaml
Interests:
Security, Hacking, Reverse Engineering
Honor & Awards:
[Plaid Parliament of Pwning]
Positive Hack Days CTF 2011 -- 1st Place
Codegate CTF 2011 -- 1st Place
1st SecByDefault CTF (2011) -- 3rd Place
iCTF 2010 -- 1st Place
CSAW CTF 2010 -- 1st Place
H.U.S.T. 9th Absolute CTF (2010) -- 1st Place
RootedCon Online CTF 2010 -- 1st Place
smpCTF 2010 -- 2nd Place
Codegate CTF 2010 -- 2nd Place
iCTF 2009 -- 4th Place
CSAW CTF 2009 -- 1st Place
H.U.S.T. Creative & Fun CTF (2009) -- 1st Place
HackJam CTF 2009 - 3rd Place
[University]
University Honors
Douglas Britton - Washington DC, US Andrew M. Wesie - Arlington VA, US Brian S. Pak - Pittsburgh PA, US
International Classification:
G06F 21/00
US Classification:
726 24
Abstract:
A system and method are described that will enable mobile smart devices, such as a cellular phones, PDAs, or iPads, smartphones, mobile payment systems, mobile healthcare systems, handheld law enforcement systems, and other types of tablet devices, to trust download applications and for the download applications to trust the mobile smart devices onto which they are downloaded. The system and method enables charging a mobile smart device and while charging the mobile smart device scans for malware and other viruses in the applications and the operating system on the mobile smart device.
System And Method For Bidirectional Trust Between Downloaded Applications And Mobile Devices Including A Secure Charger And Malware Scanner
Douglas BRITTON - Washington DC, US Andrew Michael WESIE - Arlington VA, US Brian Sejoon PAK - Pittsburgh PA, US
International Classification:
G06F 21/56
US Classification:
726 24, 726 23
Abstract:
A system and method are described that will enable mobile smart devices, such as a cellular phones, PDAs, or iPads, smartphones, mobile payment systems, mobile healthcare systems, handheld law enforcement systems, and other types of tablet devices, to trust download applications and for the download applications to trust the mobile smart devices onto which they are downloaded. The system and method enables charging a mobile smart device and while charging the mobile smart device scans for malware and other viruses in the applications and the operating system on the mobile smart device.