Justin (Max) Pugliese
- New York, NY, United States
Software Professional with 2 years of experience creating outstanding software applications in a variety of roles including Software Developer, Team Lead, and Architect.
Experience show all
Software Developer | IBM
September 2012 – Current
- Architected a Java Service to aggregate REST services and return JSON feeds unique to the logged in user to the front end.
Systems Analyst | Burwood Group
September 2011 – September 2012
Split time between architecting custom software solutions for clients and developing the company's iOS applications.
- Developed a custom C# Windows Service to connect a client’s MS Exchange server with a partner’s product using the partner’s REST service.
- Constructed a custom solution to link a Purchase Quote Application with a Sales Tax API using a COM facing C# Dynamically Linked Library (.dll) to interface with the Application’s VB6 SDK.
- Contributed code to a native iPad application that streamlined the communication of an organization’s initiatives between departments and management levels over long periods of time.
- Prototyped an iOS 5 application that worked as a sales tool for displaying the company’s ability to impact a prospective client positively through consulting services based on their organizational goals.
Software Development Co-op | IBM
January 2010 – August 2010
Architected a web-based dashboard that allowed users to create, save, and share custom web applications. The applications accessed different web API's allowing the user to create unique relationships between normally unrelated web services. The relationships were established by combining pre-built Java Servlets that included run-time switches to support the different capabilities of each API. The dashboard itself was a custom Java server that used XMPP for passing messaging to the database.
Wireless-Communications Intern | Penn State Applied Research Laboratory
June 2009 – December 2009
Worked as an application developer on a native Android application that aided in the automatic switching of Wi-Fi access points based on wireless signal strength. Access Point's were periodically polled for signal strength, distance from current location, and availability. A comparison was then made to the current connection status and a switch was automatically made if a more efficient connection existed. The access point data was then stored on internal and external databases along with the user's current location to expedite future polling.
B.S. Computer Engineering | Penn State University
2006 – 2011
Open Source show all