Staff Profiles

 

Dennis Burianek

SB, SM, and PhD, Aeronautics and Astronautics, Massachusetts Institute of Technology

Photo of Dennis Burianek"Lincoln Laboratory provides an atmosphere where you are encouraged to explore new areas and have the opportunity to work in cutting-edge technologies. You get to see a project through from initial inception to final delivery."

Since joining the Optical Systems Engineering Group in 2001, Dr. Burianek has focused on two different areas of directed energy. Through his exploration of the effects of different materials when subjected to laser energy, he has gained an understanding of various materials' behaviors and materials effects. This experimentation required an understanding of material- and system-level responses. Dr. Burianek's second area of study is the optomechanical engineering and packaging of a cryogenic laser for deployment on a flight platform. This Lincoln Laboratory–developed laser improves the efficiency and beam quality of solid state lasers.

top of page

Juliette Seeley

BS, Chemistry, University of California, Davis
PhD, Physical Chemistry, University of California, Berkeley

Photo of Juliette Seeley"I love the career flexibility that we are granted at Lincoln Laboratory. As we develop as scientists and our interests evolve, the Laboratory allows, and even encourages, us to take our research in new directions. Long-term Laboratory employees are often experts in many different fields."

Dr. Seeley's work focuses on remote chemical sensing using infrared spectroscopy. Remote chemical sensing has applications in chemical threat detection, environmental monitoring, and weather sensing. Dr. Seeley has contributed to the development of a linear variable filter-based passive imaging spectrometer and a bistatic single-pixel infrared sensor with cooperative source for monitoring the environment of large facilities. She has also participated in the development of a Fourier transform infrared–based hyperspectral imager using digital focal-plane array technology. Currently, she supports NASA in the development of the Advanced Baseline Imager, a passive multispectral imager that is part of the instrument suite planned for the future weather sensing satellite, GOES-R (for Geostationary Operational Environmental Satellite).

top of page

Raquel "Rocky" Velez

BS, Mechanical Engineering, California Institute of Technology

Photo of Raquel Velez"Lincoln Laboratory's outreach programs have allowed me to give back to the community at large, introducing students from all backgrounds to the secret wonders behind science and engineering."

As a member of the Advanced System Concepts Group, Ms. Velez does analysis for a variety of systems, many of which are constructed or formulated in other parts of the Laboratory. From creating models to defining system parameters, she has had the unique opportunity to work on myriad projects in such diverse areas as biodefense, improvement of detect-to-protect response times from a biochemical attack, optics, signal processing, and unmanned aerial vehicles.

In her outreach efforts, Ms. Velez is spearheading robotics workshops, geared to middle- and high-school students, that foster learning in a competition-style setting.

top of page

Christina Rudzinski

BS, Chemistry, Grand Valley State University in Michigan
PhD, Inorganic Chemistry, Massachusetts Institute of Technology

Photo of Christina Rudzinski"My primary goal is to enable young students to make informed decisions regarding careers and their future. Lincoln Laboratory helps me reach more young students while pursuing my scientific interests."

Growing up, I was unaware of how many different types of careers existed, or what it would take to achieve them. I take pride in showing students that education is invaluable and can be a steppingstone to new places, reminding them that the information they learn has many fun and interesting applications in a variety of careers. As we get wrapped up in our daily lives, we forget that many others are much less fortunate. Lincoln Laboratory offers many ways to give back to the community and encourages involvement in outreach efforts. My participation in Lincoln’s community outreach helps me remember that we are all part of a bigger picture.

top of page

Emily Anesta

BS, Electrical and Computer Engineering with minors in Physics and International Studies, Worcester Polytechnic Institute

photo of Emily Anesta

"At Lincoln Laboratory
I have the unique opportunity to work on the design of hardware systems at every stage from inception to simulation to working prototype to field test."

Ms. Anesta applies her electrical engineering education to developing advanced air-defense prototypes, such as surveillance radars and electronic warfare systems. She has worked on various components of each project, including antennas and electromagnetics, radio frequency circuits, software, and controls, as well as performing overall system engineering. She also coordinates an undergraduate research program for Worcester Polytechnic Institute students who are completing their major qualifying projects at Lincoln Laboratory. Ms. Anesta maintains a strong involvement in the Institute for Electrical and Electronics Engineers (IEEE) and the Society of Women Engineers (SWE), and has hosted IEEE and SWE meetings at the Laboratory.

top of page

Alison Silva

BA, Administration of Justice, Salve Regina University

Photo of Alison Silva"It is very rewarding to know that our efforts contribute to national security directly through the Laboratory's research and development."

Since joining Lincoln Laboratory's Security Services Department in 2005, Ms. Silva has been providing supervision and management for both personnel and special programs. She acts as the security liaison between government sponsors and Laboratory program managers and technical staff. Working with the technical community and information technology staff, she ensures programs' compliance with government regulations. She performs inventories, investigations, classified material control, reviews, and audits. Ms. Silva has also been instrumental in writing and maintaining plans for physical security, emergency action, and operations security, as well as developing standard operating procedures and security briefings. In addition, she provides support to large sponsored conferences and program-related meetings, and implements a security-education program.

top of page

Christine Wang

SB, Materials Science and Engineering, Massachusetts Institute of Technology
MS, Metallurgy, Massachusetts Institute of Technology
PhD, Electronic Materials, Massachusetts Institute of Technology

Dr. Christine Wang

"Being able to present and publish one’s research reinforces the value of the work we do here. There’s a lot of personal satisfaction
in knowing that one’s peers in the scientific community highly respect our work."

Dr. Wang has been developing new materials processes to produce advanced semiconductor crystals used for short-wave infrared diode lasers, mid-wave infrared quantum cascade lasers, detectors, and photovoltaics. Her goal is to understand the physics of these devices and to tailor the materials properties so she can produce state-of-the-art devices based on arsenides, phosphides, and antimonides. These devices have applications in power generation, mid-infrared countermeasures, molecular gas sensing, laser radar systems, optical communications, and biological and chemical sensing.

"The nature of the projects we work on," says Chris, "requires an interdisciplinary group of scientists and engineers. It’s a great opportunity to work with staff that are highly regarded because of their intelligence, motivation, and dedication. When you’re a part of this kind of team, some great accomplishments are inevitable."

top of page

Justin Brooke

BA, Physics, Cornell University
MA, Physics, University of Chicago
PhD, Experimental Physics, University of Chicago

Justin Brooke"Lincoln Laboratory provides access to urgent and compelling problems,
and the license to pursue cutting-edge solutions — from the drawing board to operational systems."

Since joining Lincoln Laboratory in 2003, Dr. Brooke has been involved in the analysis and development of tactical sensor systems, including global positioning systems, long-wave infrared imagers, and RF detection systems. As part of this work, he helps manage force protection and counterterrorism efforts in the Advanced Capabilities and Systems Group, which seeks to counter asymmetric threats with technical solutions. This process begins with the deconstruction of threats to the point where the viability of potential countermeasures can be assessed through modeling, analysis, and measurement. Promising countermeasure system concepts are then quickly architected, prototyped, integrated onto relevant platforms, and tested in real-world conditions. This "rapid prototyping" feeds a spiral development process that shortens development time and increases final system relevancy.

top of page

George Nowak

BS, Mathematics and Electrical Engineering, U.S. Military Academy, West Point
MEA, Construction Management, George Washington University
MS, Electrical Engineering, Rensselaer Polytechnic Institute
PhD, Electrical Engineering, University of Michigan, Ann Arbor

Dr. George Nowak

"There are great opportunities to help solve interesting problems—not only conceptually, but also by building the hardware and fielding systems that contribute to our nation’s security."

Since joining the Advanced Lasercom Systems and Operations Group at Lincoln Laboratory, Dr. Nowak has helped manage the group's work on designing and testing laser terminals to support high-bandwidth networking among aircraft and satellites. Specific initiatives in the group involve the design and construction of multi-Gb/s optical transceivers; a subsystem for conducting pointing, acquisition, and tracking among terminals; and optical assemblies to emulate free-space laser propagation over geosynchronous orbit distances. The group also develops high-speed electronic interfaces to provide forward-error correction and bit interleaving to mitigate the impairments of laser communication through the lower atmosphere. The group's efforts have contributed to accelerating the progress of national laser communication programs.

top of page

Christ Richmond

BS, Mathematics, Bowie State University
BS, Electrical Engineering, University of Maryland, College Park
EE, SM, and PhD, Electrical Engineering, Massachusetts Institute of Technology

Dr. Christ Richmond

"We, in essence, develop the 'smarts' behind several of the nation’s technologically advanced sensor systems."

Dr. Richmond's work consists of theoretical and algorithm development in the general area of detection and parameter estimation theory applied to diverse types of adaptive sensor array systems often deployed in complex (high multipath) environments dominated by limiting interference.

His work has been applied to airborne radar, sonar underwater acoustic systems, and multiple-input multiple-output (MIMO) communication systems, and includes signal processing development in space-time adaptive processing (STAP), adaptive beamforming, spectral analysis, performance bounds (Bayesian, non-Bayesian, and non-asymptotic) on parameter estimation (e.g., maximum-likelihood estimation of signal range, Doppler, and/or angle) and receiver operation characteristics (probability of detection vs. false-alarm rate).

top of page

Vyshi Suntharalingam

BS, Electrical Engineering, Yale University
PhD, Engineering Science and Mechanics, Penn State University

Dr. Vyshi Suntharalingam

"I love working in this multidisciplinary, hands-on environment, where you can work with a team to transform a paper design into a testable real-world system."


Dr. Suntharalingam leads projects to design and develop scientific image sensors for ground- and space-based telescopes. These next-generation technologies are built in Lincoln Laboratory's Microelectronics Laboratory (a class-10 semiconductor fabrication facility) and other on-site labs. Devices, circuits, and image sensors developed at the Laboratory are used as innovative prototypes for future satellites, telescopes, and communications systems.

"In the Solid State Division," says Vyshi, "we have projects that address fundamental research topics as well as larger-scale programs to innovate designs to meet specific system requirements. A key reason I came to Lincoln was the ability to publish at peer-reviewed technical conferences while working on much broader programs than could be tackled in an academic environment."

top of page

Luke Skelly

BS, Computer Engineering, Rose-Hulman Institute of Technology
MA, Computer Science, Boston University via Lincoln Scholars Program

Luke Skelly

"The Lincoln Scholars Program gave me a chance to fulfill my educational goals and focus my attention on problems of interest to both myself and the Laboratory in research areas such as laser radar sensors."

Mr. Skelly has been developing novel data processing and computer vision algorithms with a concentration on state-of-the-art 3D imaging laser radar sensors developed at Lincoln Laboratory. With the support of the Lincoln Scholars Program, he has earned a master's degree from Boston University; his thesis focused on finding correspondence between 3D surface maps. This work can be applied to merging datasets from different sensors or sensors with unknown location and orientation; recognizing landscapes, cities, or objects; and tracking multiple targets of unknown shape.

top of page

William S. Song

BS, MS, and PhD, Electrical Engineering, Massachusetts Institute of Technology

Dr. William S. Song

"Lincoln Laboratory offers ample opportunities to pursue new and interesting research ideas. I also appreciate the chance to collaborate with great expert colleagues in many fields."

Since his arrival at Lincoln Laboratory in 1990, Dr. Song has been working on high-performance sensor and VLSI signal processor technologies for adaptive sensor array applications. He has developed numerous advanced signal processing algorithms, architectures, real-time embedded processors, and sensor array systems. Recently, he has been working on a nonlinear equalization processor, mixed-signal system on chip, high-throughput low-power VLSI signal processors, and highly digitized wideband sensor arrays. His research has been applied to programs developing a miniaturized digital receiver and a space-based radar onboard processor.

top of page

Jonquil Swann

BS, Computer Engineering, Rensselaer Polytechnic Institute
MS, Electrical Engineering with a concentration in Software Engineering, Rensselaer Polytechnic Institute

Jonquil Swann

"My career at the Laboratory has mainly been about opportunities—opportunities to work in the Pacific, to take classes at Harvard, to attend conferences, and to use a cutting-edge architecture like Eclipse Rich Client Platform. Such opportunities are a constant here—and available to everyone."

Ms. Swann's background in software engineering has led to her involvement in many projects at the Laboratory. These projects have focused on ballistic missile defense but have afforded her diverse software opportunities, from creating mission-planning tools using MATLAB to developing a visualization application using the Eclipse Rich Client Platform (RCP). This RCP application is used to visualize mission activities at the Reagan Test Site and is built using the Eclipse framework, which provides a common graphical user interface infrastructure in addition to system features. The latest challenge is to expand this tool to cover mission activities across multiple locations.

top of page

Pedro Torres-Carrasquillo

BS, Electrical Engineering, University of Puerto Rico, Mayaguez
MS, Electrical Engineering, Ohio State University
PhD, Electrical Engineering, Michigan State University

Dr. Pedro Torres-Carrasquillo

"Satisfaction at Lincoln Laboratory comes from working on problems on the edge of technology with resources available to pursue innovative ideas."

Dr. Torres-Carrasquillo's work is in speech processing. His research is focused in two areas: speech analysis for downstream processing and information extraction from speech. In speech analysis for downstream processing, he has worked on speaker diarization, which is the marking of speech into areas of similar speaker content. In information extraction from speech, he has worked in both speaker and language identification: speaker identification involves determining the identity of a speaker based on previously known voice examples, and language identification involves identifying the language spoken on a given voice message.

top of page

James Krieger

BS, Physics, University of California at Santa Barbara
MS, Electrical Engineering, The Ohio State University via Lincoln Scholars Program

James Krieger

"I get to work with amazing people on projects that are always on the cutting edge. It’s great to know that everything you work on is somehow pushing the envelope and making an impact. Best of all, I get to see my contributions come to life in real-world applications."

 

Mr. Krieger has been working primarily on the electromagnetic design and analysis of rapid-prototype ultrawideband antenna arrays for sensor system applications. Part of this work has required electromagnetic analyses to characterize the phenomenology associated with the often complex environments in which these systems are utilized. These projects have involved antennas deployed on unmanned air vehicles and ground-based platforms. The challenge in many of these antenna development projects involves designing high-gain, high-efficiency antenna apertures meeting system performance over very wide frequency ranges.

Kathy Ryan

BS, Business Administration, Bryant University
MS, Business Administration, Northeastern University

Photo of Kathy Ryan

"Lincoln Laboratory offers a wide variety of opportunities in nontechnical disciplines. Individuals are encouraged to seek out positions in areas of interest and to grow within the Laboratory."

Since joining Lincoln Laboratory in 2004, Ms. Ryan has been a commodities buyer in the Procurement Department, with responsibilities for the purchase of computer components and peripherals. As a member of the SAP team responsible for the successful implementation of Supplier Relationship Management (SRM), she performed system testing, wrote procedures for specific purchasing transactions, and trained coworkers. Recently, she worked with the Financial Services Department as a financial analyst with primary focus on allocated budget planning, tracking, and reporting. This budgetary management included the operational costs of maintaining the Laboratory and costs for technical projects that benefit the overall Lincoln Laboratory community.

Irene Korisianos

BS, Business Administration, Salem State College

Photo of Irene Korisianos

"I really enjoy and appreciate being able to interact with personnel at all levels within the Laboratory and from MIT campus and the Haystack facility, as well as with people at various levels of the federal government."

Ms. Korisianos is primarily responsible for the monthly closing of the Laboratory's financial books, including the generation of the monthly balance sheet; the generation of the monthly Air Force prime contract billing invoices; and the preparation of the Laboratory's auditable financial statements. She also assists in the completion of various government audit requests and serves as a backup to the Lincoln Fiscal Office cash manager.

 

top of page