Representatives: Carol Anway, Wes Will, Michael Gamble
Over the last century, Boeing has grown from building planes in an old, red boathouse to become the largest aerospace company in the world. Today, our company encompasses many distinct business units, each with a special focus.
Boeing World Headquarters is opening new frontiers by developing global growth opportunities and increasing shareholder value.
Boeing Capital Corporation provides innovative financing and leasing solutions for commercial aircraft and equipment, and executive aircraft.
Commercial Airplanes is the world's largest producer of commercial jetliners.
Connexion by BoeingSM is bringing high-speed Internet and e-mail to the sky and seas.
Integrated Defense Systems is a recognized leader in providing and supporting large-scale systems that combine sophisticated communications networks with air-, land-, sea- and space-based platforms for military, government and commercial customers around the world.
Phantom Works is our advanced research and development unit.
Shared Services Group provides infrastructure services for the Boeing enterprise, including computing resources, e-commerce, telecommunications, employee benefits and training, travel services and non-production procurement.
Together, these groups form the core of The Boeing Company, and together they've made Boeing a dominant force in the marketplace.
Representatives: Kim Williams, Nerreda Hewitt, Kathe Watanabe
Fred Hutchinson Cancer Research Center is an independent, nonprofit biomedical-research institution and is one of 39 National Cancer Institute-designated comprehensive cancer centers nationwide. At the Hutchinson Center, our interdisciplinary team of world-renowned scientists and humanitarians work together to prevent, diagnose and treat cancer. Our researchers, including three Nobel laureates, bring a relentless pursuit and passion for health, knowledge and hope to their work and to the world.
Products/services: Avionics systems, including flight safety systems; communication, navigation and surveillance systems; integrated systems; flight management systems, cockpit display systems, data management and aircraft performance monitoring systems; vehicle management systems, and inertial sensor systems for guidance, stabilization, navigation and control; aircraft interior and exterior lighting; automatic test systems including computer-controlled, functional testers, portable test and diagnostic systems, and advanced battery analyzer chargers; inertial sensor products including gyroscopes; radar systems including aircraft precision landing, ground surveillance and target detection devices; and technical services including satellite operations and ground systems support; depot maintenance and engineering support; supply chain logistics and inventory management; applied information services and information security, and spacecraft engineering.
Representatives: Alan Diercks, David Reiss, Stephen Ramsey
The Institute for Systems Biology (ISB) is an internationally renowned non-profit research institute in Seattle, WA dedicated to the study and application of systems biology. The goal of systems biology is to fundamentally transform the practice of medicine, and ISB researchers have taken the leadership role in catalyzing this transformation. We are developing tools and techniques, and pursuing research that will usher in a new era of predictive, preventive, and personalized medicine. ISB emerged as a result of the new research model called systems biology - a revolutionary approach to analyzing biological complexity and understanding how biological systems function. ISB has brought together a multidisciplinary group of scholars and scientists, from biologists, mathematicians and engineers, to computer scientists and physicists, in an interactive and collaborative environment. There are very few places with such a diverse representation of backgrounds and experience under one roof. ISB has already published pioneering papers in genomics, proteomics, systems biology and its applications.
We do research in Ubiquitous Computing. We are situated next to the University to facilitate collaboration. Mostly we collaborate with the CS&E department.
Lawrence Livermore National Laboratory (LLNL) is a premier research and development institution for science and technology applied to national security. We are responsible for ensuring that the nation's nuclear weapons remain safe, secure, and reliable. LLNL also applies its expertise to prevent the spread and use of weapons of mass destruction and strengthen homeland security. Our national security mission requires special multidisciplinary capabilities that are also used to pursue programs in advanced defense technologies, energy, environment, biosciences, and basic science to meet important national needs. These activities enhance the competencies needed for our defining national security mission.
Los Alamos National Laboratory is a national scientific research and development laboratory. The laboratory works in all topical areas of science, including bio, geo, astophysics, materials science, weapons, stockpile stewardship, etc.
Lincoln Laboratory was established in 1951 by the Massachusetts Institute of Technology as a Federally Funded Research and Development Center, with primary emphasis on application of advanced electronics to national defense. It offers an exceptional environment for conducting research, since it has academic roots in a great institution, yet is closely involved with practical problems of national significance. The primary focus of the Laboratory’s activities is advanced technology for surveillance, detection and identification, and communications. These activities are supported by a strong program in advanced electronics technology. Radar, communication, electro-optical systems analysis and engineering, RF circuits and antenna technology, digital design, information network architecture and design, digital design processing, software engineering, and mechanical engineering are areas of major interest. In addition to its work for the Department of Defense, the Laboratory has a significant program in air traffic control for the FAA, as well as work for NOAA and NASA. The Laboratory also participates in technology transfer programs, working with industry under precompetitive cooperative research and development agreements. Although the Laboratory does not build production equipment, it does develop and test experimental and prototype systems as well as carry out theoretical studies and laboratory investigations. Work at the Laboratory extends from basic research, through the development of devices and components, to the design, construction, and operation of complex systems. Lincoln Laboratory is proud of its accomplishments and contributions to the missions of the Department of Defense and other federal agencies, strengthening the science and technology of the nation. Duties & Responsibilities: Lincoln staff work at the cutting edge of technology. While the scope of each staff member's activities will vary depending on the field of application, the multi-disciplinary nature of MIT Lincoln Laboratory positions distinguish these employment opportunities and provide staff with outstanding developmental experiences and career foundations. Visit http://lljobs.ll.mit.edu/pljb/MIT_Lincoln_Laboratory/College_Events/applicant/index.jsp to view examples of typical career opportunities for new graduates in the following categories: Analysis, Biology, Chemistry, Communication Systems, Computer Systems, Electrical Engineering, Electro-Optical Systems, Hardware Engineering, Lasers and Laser Systems, Meteorology, Physics, RF Systems, Software, Solid State Materials. STUDENTS APPLYING FOR AN ON-CAMPUS INTERVIEW PLEASE SEE IMPORTANT APPLICATION REQUIREMENTS UNDER QUALIFICATIONS SECTION BELOW. MIT Lincoln Laboratory, an equal opportunity employer, seeks new employees from a broad range of disciplines. The Laboratory staff is comprised of individuals from a variety of academic fields (i.e. Electrical Engineering, Physics, Mathematics, Computer Science, Mechanical Engineering, Aeronautical/Astronautical Engineering, Molecular Biology/Biochemistry, and Materials Science) of which approximately 70% of the staff hold advanced degrees. Individuals who are interested in becoming part of the challenging work being done at MIT Lincoln Laboratory, but do not see their fields listed above, should still apply. The Laboratory has positions that suit the qualifications and goals of candidates from diverse backgrounds. Qualifications: BS/MS/PhD in Electrical Engineering, Computer Science, Physics, Mathematics, and, to a limited degree, Mechanical Engineering, Aeronautics/Astronautics, Molecular Biology/Biochemistry, Materials Science. Strong Analytical/Problem-Solving Skills, Innovative/Creative, Independent Thinkers, Team Players, Ability and Interest in Working on a Broad Range of Problems, Excellent Communication Skills. Minimum GPA requirement: 3.5/4.00. As an Equal Opportunity Employer we are committed to realizing our vision of diversity and inclusion in every aspect of our enterprise. Due to the unique nature of our work, we require U.S. Citizenship. IMPORTANT: To be considered for an on-campus interview students MUST ALSO submit their resumes and answer the questions at MIT Lincoln Laboratory’s website http://www.ll.mit.edu/careers/careers.html (Click on College Recruitment). Contact: Human Resources, MIT Lincoln Laboratory, Lexington, Massachusetts, 781-981-5500.
Representatives: Phillip A. Gauglitz, Jana Strasburg
Battelle operates the Pacific Northwest National Laboratory for the U.S. Department of Energy. PNNL's core mission is to deliver environmental science and technology in the service of the nation and humanity. Through basic research we create fundamental knowledge of natural, engineered, and social systems that is the basis for both effective environmental technology and sound public policy. We solve legacy environmental problems by delivering technologies that remedy existing environmental hazards, we address today's environmental needs with technologies that prevent pollution and minimize waste, and we are laying the technical foundation for tomorrow's inherently clean energy and industrial processes. We also apply our capabilities to meet selected national security, energy, and human health needs; strengthen the U.S. economy; and support the education of future scientists and engineers. This mission is in line with the U.S. Department of Energy's Strategic Plan and Strategic Laboratory Mission Plan, where Pacific Northwest is designated as a principal laboratory in the environmental quality mission, a major contributing laboratory in both science and technology and energy, and a participating laboratory in national security. The mission is also consistent with the technical work carried out at our Laboratory. Fully two-thirds of the Laboratory's work is in environmental science, environmental technology, or both. Further, our projects in support of DOE's national security and energy missions often draw heavily on capabilities we have developed in support of our environmental mission.
The Radiological and Chemical Sciences group at Pacific Northwest National Laboratory is now the Radiation Detection and Nuclear Sciences Group (RDNS). RDNS draws on its extensive expertise in radiological science and engineering to develop and deploy innovative yet practical solutions for our country's most pressing challenges. We provide science-based solutions to the Department of Homeland Security, National Nuclear Security Administration, other government agencies and industry. The group conducts fundamental and applied research projects leading to new capabilities in trace radionuclide detection, environmental assessment and remediation, treaty verification, and proliferation detection and prevention. Our instruments and facilities have been applied in environments ranging from water wells and nuclear reactor cores to aircraft and spacecraft. Field sampling and measurement research have included urban characterization, border control, soil characterization, waste characterization, facility decontamination and decommissioning, aqueous measurements, and atmospheric measurements.
Paroscientific, Inc. is a manufacturer of high-precision pressure instrumentation based on quartz crystal (watch) technology. The instruments are primarily used in metrology labs, meteorology, and oceanography (depth sensors and tsunami detection). My work revolves around improvements to the sensor mechanism and customer-specific sensor integrations. Currently, I am spending most of my efforts on a newly patented triaxial accelerometer that I am developing with an industry partner for use in directional drilling.
Philips Medical Systems, a global leader in the growing medical device and diagnostic industry, is committed to providing innovative technology and services that enable health care providers to achieve clinical excellence. Its extensive portfolio includes patient monitoring and ultrasound systems, diagnostic cardiology devices, resuscitation products, X-ray, magnetic resonance, and computed tomography products, nuclear medicine and PET, information management, and Medical IT.
Quinton Cardiology develops, manufactures, markets and services a family of diagnostic cardiology systems used in the diagnosis, treatment and rehabilitation of patients with cardiovascular disease. Physicians, clinics and hospitals worldwide have relied on our products and services for nearly half a century. We market our products under the Quinton and Burdick brand names.
ScienceOps designes, develops, and optimizes algorithms across industries. Our team of Ph.D. scientists quickly engage clients across industries and develop algorithms to enhance their competive advantage.
The Applied Physics Laboratory is an independent unit within the College of Ocean and Fisheries Science at the University of Washington. There are approximately 250 staff of which about 150 are scientists and engineers. We carry out basic and applied research in the areas of ocean acoustics, oceanography, medical acoustics, physical acoustics, remote sensing, and Polar sciences.
Boeing
