Cyber Physical Researcher

Date: Feb 29, 2024

Location: Lexington, MA, US

Company: MIT Lincoln Laboratory

Internet of Things devices, critical infrastructure, and sensor and communication systems all have one thing in common: they interface the digital and physical domains. The Cyber-Physical Systems Group conducts research to understand the cybersecurity implications of these physical interfaces and use the results of our research to develop prototypes that serve as pathfinders for future technological solutions.

 

The Cyber Physical Systems Group tackles key problems in the convergence of cybersecurity and the physical world in an interdisciplinary research and development environment. We focus on developing new capabilities in the areas of hardware security and cyber-EW for the DoD, intelligence community, and federal agencies.  Key technology development thrusts include novel sensors, testbed development and introspection, and unconventional methods of system exploitation.

 

Successful candidates will work with a multidisciplinary team in one of the following areas: Hardware Security Researcher, RF Analyst/Engineer, or Reverse Engineering and Vulnerability Researcher.  Candidates should have interest in the inter-disciplinary nature of the cyber-physical problem space and be willing to develop new expertise in the pursuit of solving unconventional problems.

 

The roles and capabilities are described below for each of the focus areas:  

 

Hardware Security Researcher (HWSR) will focus on analyzing and prototyping capabilities to defend national security electronics from the insertion of malicious logic via compromised design and fabrication processes by prototyping novel sensors and technologies that interact across the cyber and electromagnetic domains.  The scope of hardware security research and development activities includes developing and assessing novel hardware design analysis and sensing techniques, advanced circuit obfuscation techniques, and hardware evaluation techniques. 

 

Demonstrated capabilities in the following areas are highly desired in this area:

  • Thorough understanding of computing architecture design, instruction-set architectures, and operating-system internals
  • Familiarity with digital logic workflows for both field-programmable gate arrays (FGPAs) and application-specific integrated circuits (ASICs)
  • Familiarity with cybersecurity problems and the role of hardware in enforcing security properties of cyber systems
  • Proficiency in VERILOG or VHDL

 

RF Analyst Engineer (RFAE) will develop novel capabilities analyzing and exploiting cyber-physical systems.  You will leverage your expertise in RF systems toward demonstrating and assessing unexpected attack vectors, emulating potential attacker behaviors and capabilities, analyzing RF spectra, and developing novel defensive techniques for DoD and other government systems. The operational convergence of cyber warfare and electronic warfare, known as Cyber-EW, offers exciting opportunities to innovate and create new cyber-physical technologies at the seam between computer security and electromagnetics. 

 

Demonstrated capabilities in the following areas are highly desired in this area:

  • Low-level embedded system programming such as C
  • Thorough understanding of cybersecurity technical challenges especially as they relate to sensors, emitters, controllers, and embedded systems
  • Proficiency with software defined radios (SDRs), field-programmable gate arrays (FPGAs), and Linux development environments
  • Proficiency in machine learning techniques/AI
  • Proficiency in VERILOG or VHDL

 

Reverse Engineering and Vulnerability Researcher (REVR) will develop novel capabilities against cyber-physical systems.  The scope of your work in cyber-physical research and development will include demonstrating and assessing unexpected attack vectors, emulating potential attacker behaviors and capabilities, and developing novel defensive techniques for DoD and other government systems. The operational convergence of cyber warfare and electronic warfare, known as Cyber-EW, offers exciting opportunities to innovate and create new cyber-physical technologies at the seam between computer security and electromagnetics. 

 

Demonstrated capabilities in the following areas are highly desired in this area:

  • Low-level embedded system programming such as C
  • OS kernel and/or driver development
  • Experience with uncommon architectures and embedded systems
  • Thorough understanding of cybersecurity technical challenges especially as they relate to sensors, emitters, controllers, and embedded systems
  • Proficiency with software defined radios (SDRs), field-programmable gate arrays (FPGAs), and Linux development environments
  • Familiarity with radio-frequency (RF) phenomenology, electronics, and unintended RF emissions
  • Proficiency in Machine learning techniques/AI

 

Degree and experience requirements:

  • Master's degree in Computer Science, Computer/Electrical Engineering, Math, Physics, or related field, or a Bachelor's degree and 3+ years of directly related experience and demonstrated domain expertise will be considered
  • HWSR - Proficiency in hardware-description languages for digital logic, such as Verilog OR  RFAE - Familiarity with radio-frequency (RF) phenomenology, electronics, and unintended RF emissions OR  REVR - Proficiency in hardware and software reverse-engineering and exploitation techniques, including common tools such as IDA Pro or Ghidra

 

Demonstrated capabilities desired for all areas:

  • Proficiency in high-level scripting languages such as Python
  • Effective oral and written communication skills
  • Ability to travel on an as-needed basis to US Government and cleared defense contractor sites (post-Covid)

 

 

 

 

 

 

At MIT Lincoln Laboratory, our exceptional career opportunities include many outstanding benefits to help you stay healthy, feel supported, and enjoy a fulfilling work-life balance. Benefits offered to employees include: 

 

  • Comprehensive health, dental, and vision plans
  • MIT-funded pension
  • Matching 401K
  • Paid leave (including vacation, sick, parental, military, etc.)
  • Tuition reimbursement and continuing education programs
  • Mentorship programs
  • A range of work-life balance options
  • ... and much more!  

 

Please visit our Benefits page for more information. As an employee of MIT, you can also take advantage of other voluntary benefits, discounts and perks.

 

Selected candidate will be subject to a pre-employment background investigation and must be able to obtain and maintain a Secret level DoD security clearance.

 

MIT Lincoln Laboratory is an Equal Employment Opportunity (EEO) employer. All qualified applicants will receive consideration for employment and will not be discriminated against on the basis of race, color, religion, sex, sexual orientation, gender identity, national origin, age, veteran status, disability status, or genetic information; U.S. citizenship is required.

 

Requisition ID: 37102  

 


Nearest Major Market: Boston

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