Josh Goldstein
Josh Goldstein Carnegie Mellon University, SMC 3901, Pittsburgh, PA 15289 | 703-853-5035 | [email protected]
EXECUTIVE SUMMARY · Third-year computer engineering student with a wide range of hands-on design and verification experiences in academic,
personal and work environments. · Successfully developed part of the core classification algorithm and built a diagnostic application for the final phase of a
product’s development before delivery to the marketplace.
EDUCATION CARNEGIE MELLON UNIVERSITY | BACHELOR OF SCIENCE | EXPECTED GRADUATION DATE: MAY 2018
· Major: Electrical and Computer Engineering (GPA: 3.5) · Related Coursework: Principles of Imperative Computation, Structure and Design of Digital Systems, Signals and Systems, Computer Vision, Introduction to Computer Systems, Embedded Real-Time Systems (Fall 2016)
WORK EXPERIENCE BATTELLE MEMORIAL INSTITUTE | CYBER EMBEDDED SYSTEMS INTERN | SUMMER 2016
· Barricade Anti-Counterfeiting Technology Project – worked on reverse engineering, non-destructive process to discriminate between authentic, counterfeit and cloned electronic devices for commercial and defense clients · Principal contributions – developed input signal configurations to generate clean impulse responses for feature extraction and classification, implemented side-channel analysis to deliver user recommendations based on DUT power consumption signals and wrote C# application to automate hardware testing and diagnostics through internal oscilloscope and FPGA · Team structure – thirteen-member team utilizing Agile processes with JIRA, Confluence and Stash collaborative software packages, daily standup meetings and three-week sprint periods
TECHNICAL ACTIVITIES HACKATHONS
· PennApps Winter 2015 – created Android-based app, on team of three, for fitness and health tracking using a Myo Gesture Control Armband · Build18 – designed and built thermoregulating jacket for CMU engineering competition on a four-person team · Red Robot Hackathon – designed and constructed 3D-hologram LED spinner with four other students PERSONAL PROJECT
· Built a wireless power transfer system using resonant inductive coupling to power a mobile device
SKILLS HARDWARE EQUIPMENT
· FPGAs, oscilloscopes, 3D printers, laser cutters, Arduino microcontrollers, motors, machining tools SOFTWARE APPLICATIONS · MATLAB, Visual Studio, OpenCV, AutoCAD, Autodesk Inventor, SolidWorks, Arduino, Mathematica PROGRAMMING LANGUAGES
· Python, C, Java, C#, SystemVerilog, x86-64 Assembly, Visual Basic
EXECUTIVE SUMMARY · Third-year computer engineering student with a wide range of hands-on design and verification experiences in academic,
personal and work environments. · Successfully developed part of the core classification algorithm and built a diagnostic application for the final phase of a
product’s development before delivery to the marketplace.
EDUCATION CARNEGIE MELLON UNIVERSITY | BACHELOR OF SCIENCE | EXPECTED GRADUATION DATE: MAY 2018
· Major: Electrical and Computer Engineering (GPA: 3.5) · Related Coursework: Principles of Imperative Computation, Structure and Design of Digital Systems, Signals and Systems, Computer Vision, Introduction to Computer Systems, Embedded Real-Time Systems (Fall 2016)
WORK EXPERIENCE BATTELLE MEMORIAL INSTITUTE | CYBER EMBEDDED SYSTEMS INTERN | SUMMER 2016
· Barricade Anti-Counterfeiting Technology Project – worked on reverse engineering, non-destructive process to discriminate between authentic, counterfeit and cloned electronic devices for commercial and defense clients · Principal contributions – developed input signal configurations to generate clean impulse responses for feature extraction and classification, implemented side-channel analysis to deliver user recommendations based on DUT power consumption signals and wrote C# application to automate hardware testing and diagnostics through internal oscilloscope and FPGA · Team structure – thirteen-member team utilizing Agile processes with JIRA, Confluence and Stash collaborative software packages, daily standup meetings and three-week sprint periods
TECHNICAL ACTIVITIES HACKATHONS
· PennApps Winter 2015 – created Android-based app, on team of three, for fitness and health tracking using a Myo Gesture Control Armband · Build18 – designed and built thermoregulating jacket for CMU engineering competition on a four-person team · Red Robot Hackathon – designed and constructed 3D-hologram LED spinner with four other students PERSONAL PROJECT
· Built a wireless power transfer system using resonant inductive coupling to power a mobile device
SKILLS HARDWARE EQUIPMENT
· FPGAs, oscilloscopes, 3D printers, laser cutters, Arduino microcontrollers, motors, machining tools SOFTWARE APPLICATIONS · MATLAB, Visual Studio, OpenCV, AutoCAD, Autodesk Inventor, SolidWorks, Arduino, Mathematica PROGRAMMING LANGUAGES
· Python, C, Java, C#, SystemVerilog, x86-64 Assembly, Visual Basic
