Part time PhD Degree in Engineering and Technology in USA

View all Part time PhD Programs in Engineering and Technology in USA 2017

Engineering and Technology

One must accomplish two things when earning a PhD. First one must understand a particular subject thoroughly. Secondly, one must extensively in knowledge about that subject.

The field of engineering and technology involves the study of how the conceptual design focus of engineering can be utilized in technological applications. Engineering and technology students learn how to take the plans made by engineers and make them work in the real world.

Education in the United States is mainly provided by the public sector, with control and funding coming from three levels: state, local, and federal, in that order. The common requirements to study at a higher education level in United States will include your admissions essay (also known as the statement of purpose or personal statement), transcript of records, recommendation/reference letters, language tests

Contact Schools Best Part time Doctorate Degrees in Engineering and Technology in USA 2017

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PhD in Microsystems Engineering

Rochester Institute of Technology (RIT)
Campus 3 years September 2017 USA Rochester

This multidisciplinary program builds on the fundamentals of traditional engineering and science combined with curriculum and research activities addressing the numerous technical challenges of micro- and nano-systems. [+]

Ph. D. in Microsystems Engineering

 

RIT offers a unique program leading to a doctorate degree in microsystems engineering. This multidisciplinary program builds on the fundamentals of traditional engineering and science combined with curriculum and research activities addressing the numerous technical challenges of micro- and nano-systems. These include the manipulation of electrical, photonic, optical, mechanical, chemical, and biological functionality to process, sense, and interface with the world at a nanometer scale. The goal of the program is to provide a foundation to explore future technology through research in nano-engineering, design methods, and technologies and their integration into micro- and nano-scaled systems. Some of the program’s areas of exploration include the following:... [-]


PhD in Engineering

Rochester Institute of Technology (RIT)
Campus 4 years September 2017 USA Rochester

The doctorate program in engineering prepares the next generation of engineering leaders to tackle some of the most daunting and complex problems facing our society. [+]

Engineering Ph.D. Program overview The doctorate program in engineering prepares the next generation of engineering leaders to tackle some of the most daunting and complex problems facing our society. The program's goal is to produce engineering graduates who are subject matter experts in a knowledge domain within an engineering discipline and who can compete successfully with those who have earned discipline-specific doctorates in engineering. Instead of restricting graduates to individual engineering fields (e.g., chemical, computer, electrical, industrial, mechanical, etc.) the program provides students with the flexibility to become subject matter experts and engineering innovators in an open-architecture environment, fostering intellectual growth along both interdisciplinary pathways and within the bounds of conventional engineering disciplines. With this approach, the program develops world-class researchers who can capitalize on the most promising discoveries and innovations, regardless of their origin within the engineering field, to develop interdisciplinary solutions for real-world challenges. The Ph.D. in engineering requires each student to address fundamental technical problems of national and global importance for the 21st Century. Four key industries–health care, communications, energy, and transportation–are addressed specifically. These industries impact every individual on the planet and are the focus areas doctoral candidates and faculty will contribute to through study and research. Curriculum The curriculum for the doctorate in engineering provides disciplinary and interdisciplinary courses, research mentorship, and engineering focus area seminars. Students are expected to have a disciplinary-rooted technical strength to conduct and complete independent, original, and novel collaborative interdisciplinary research contributing to one of the four industrial and/or societal focus areas. The program is comprised of 66 credit hours: 30 course credits, 6 engineering focus area credits, and 30 research credits. Core courses Students will complete the following core courses: Interdisciplinary Research Methods, Engineering Analytics Foundation, and Engineering Analytics Elective. Discipline foundation courses Foundation courses build depth within a disciplinary field of engineering, such as mechanical engineering, electrical and microelectronics engineering, computer engineering, industrial and systems engineering, chemical engineering, or biomedical engineering. Industry focus area courses Beginning with the course Translating Discovery into Practice, this rigorous set of four engineering courses provides students with comprehensive coverage of engineering challenges and solution approaches in the four key industry areas associated with the program: health care, energy, communications, and transportation. Students choose a focus area and complete the corresponding set of courses. Students can also take additional courses from their selected industry as electives. Focus area electives Students complete at least three focus area electives. These courses, selected from courses within current RIT degree programs and associated with the focus area of study chosen by the student, provide specialized knowledge and skill-sets relevant to the student’s dissertation research. Comprehensive exam Students complete a comprehensive exam at the end of their first year of study. The exam evaluates the student’s aptitude, potential, and competency in conducting Ph.D. level research. Dissertation proposal Students must present a dissertation proposal to their dissertation committee no sooner than six months after the comprehensive exam and at least six months prior to the candidacy exam. The proposal provides the opportunity for the student to elaborate on their research plans and to obtain feedback on the direction and approach to their research from his/her dissertation committee. Candidacy exam The candidacy exam provides comprehensive feedback to the student regarding their dissertation research progress and expected outcomes prior to defense of their full dissertation. Dissertation presentation and defense Each doctoral candidate will prepare an original, technically sound, and well-written dissertation. They will present and defend their dissertation and its accompanying research to their dissertation committee. Admission requirements To be considered for admission to the Ph.D. program in engineering, candidates must fulfill the following requirements: Hold a baccalaureate degree in an engineering discipline from an accredited university, Submit a resume highlighting educational background and experiences, Submit a Statement of Purpose for Research, Submit scores from the Graduate Record Examination (GRE), Submit official transcripts (in English) for all previously completed undergraduate and graduate course work, Have a GPA of 3.0 or higher (or a minimum GPA of 3.0 in foundation course work), Submit at least two letters of academic and/or professional recommendation. Referees should send recommendation letters by email to gradinfo@rit.edu or via postal service directly to Graduate Enrollment Services. Participate in an on-campus or teleconference interview (when applicable), and Complete a graduate application. For international applicants whose native language is not English must submit scores from the Test of English as a Foreign Language. Minimum scores of 587 (paper-based) or 94 (Internet-based) are required. International English Language Testing System (IELTS) scores will be accepted in place of the TOEFL exam. Minimum scores will vary; however, the absolute minimum score required for unconditional acceptance is 6.5. Additional information Residency All students in the program must spend at least three years as resident full-time student before completing the degree. [-]

PhD in Imaging Science

Rochester Institute of Technology (RIT)
Campus 3 years September 2017 USA Rochester

The doctor of philosophy degree in imaging science signifies high achievement in scholarship and independent investigation in the diverse aspects of imaging science. [+]

The doctor of philosophy degree in imaging science signifies high achievement in scholarship and independent investigation in the diverse aspects of imaging science. Candidates for the doctoral degree must demonstrate proficiency by:

Successfully completing course work, including a core curriculum, as defined by the student’s plan of study; Passing a series of examinations; and Completing an acceptable dissertation under supervision of the student’s research adviser and dissertation committee.

Admission requirements

To be considered for admission to the Ph.D. program in imaging science, candidates must:

Hold a bachelor of science degree in engineering, computer science, applied mathematics, or one of the natural sciences. (Because imaging science encompasses a wide variety of scientific disciplines, students with diverse backgrounds are accepted into the program. Exceptional students from other fields may be accepted.) Have completed courses in calculus, university physics (one year), modern physics, and a computer language. Submit scores from the Graduate Record Exam (GRE). Submit official transcripts from all previous course work. Submit two letters of recommendation from individuals well-qualified to judge their abilities for graduate study. Submit an application for graduate study. ... [-]

PhD in Color Science

Rochester Institute of Technology (RIT)
Campus 3 years September 2017 USA Rochester

Color science research at RIT encompasses such diverse fields as medical data visualization, computer graphics and animation, art conservation, spectral and spatial measurements of materials, color printing, digital photography, motion picture and television, and modeling of our perceptions for use in defining color quality. [+]

Doctor of Philosophy in Color Science

 

Color has been a topic of intense interest and inquiry for hundreds if not thousands of years. As a generalization, color science can be defined as the quantification of our perception of color. Its mastery requires an interdisciplinary educational approach encompassing physics, chemistry, physiology, statistics, computer science, and psychology. Color science is used in the design and control of most man-made colored materials including textiles, coatings, and polymers and to specify such diverse materials as soil and wine. It is used extensively in color reproduction including digital photography, desktop and projection display, and printing. As we begin the 21st century, color science is ubiquitous.Color science research at RIT encompasses such diverse fields as medical data visualization, computer graphics and animation, art conservation, spectral and spatial measurements of materials, color printing, digital photography, motion picture and television, and modeling of our perceptions for use in defining color quality. RIT has a long history of scholarship in color science.The program is designed for students whose undergraduate majors are in physics, chemistry, mathematics, computer science, engineering, experimental psychology, imaging, or any applied discipline pertaining to the quantitative description of color, for example, textiles, graphic arts, animation, material science, and polymer science. All students must earn 99 credits as a graduate student. For full-time students, the program requires three or more years of study at the graduate level for students entering the program with a baccalaureate degree. The curriculum is a combination of required courses in color science, elective courses appropriate for the candidate’s background and interests, a three quarter research project during the second year of study, and a research dissertation. Students must pass a qualifying examination during their second year of study and a candidacy examination at least one year before completing their dissertation. Candidates who wish to enter the program but lack adequate preparation might have to take as many as 36 credits of undergraduate foundation courses in mathematics, statistics, computer science, and general science before matriculating with graduate status.... [-]


PhD in Astrophysical Sciences and Technology

Rochester Institute of Technology (RIT)
Campus 3 years September 2017 USA Rochester

RIT’s doctorate program in astrophysical sciences and technology focuses on the underlying physics of phenomena beyond the earth, and in the development of the technologies, instruments, data analysis, and modeling techniques that will enable the next major strides in the field. [+]

PhD in Astrophysical Sciences and Technology

 

There has never been a more exciting time to study the universe beyond the confines of the earth. A new generation of advanced ground-based and space-borne telescopes and enormous increases in computing power are enabling a golden age of astrophysics. RIT’s doctorate program in astrophysical sciences and technology focuses on the underlying physics of phenomena beyond the earth, and in the development of the technologies, instruments, data analysis, and modeling techniques that will enable the next major strides in the field. The multidisciplinary emphasis of this program sets it apart from conventional astrophysics graduate programs at traditional research universities.... [-]


PhD in Computing and Information Sciences

Rochester Institute of Technology (RIT)
Campus 3 years September 2017 USA Rochester

The doctoral program in computing and information sciences is designed to produce independent scholars, well-prepared educators, and cutting-edge researchers poised to excel in their work in computing and interdisciplinary academic or industrial environments. [+]

The doctoral program in computing and information sciences is designed to produce independent scholars, well-prepared educators, and cutting-edge researchers poised to excel in their work in computing and interdisciplinary academic or industrial environments. The degree highlights two of the most unique characteristics of the Golisano College: its breadth of program offerings and its scholarly focus on discovering solutions to real-world problems by balancing theory and practice.The program focuses on the theoretical and practical aspects of cyberinfrastructure as applied to specific problems across multiple domains. It is a blend of intra-disciplinary computing knowledge areas and inter-disciplinary domain areas. Cyberinfrastructure Cyberinfrastructure (CI) is a comprehensive infrastructure integrating hardware, data, networks, and digitally-enabled sensors to provide secure, efficient, reliable, accessible, usable, and interoperable suites of software and middleware services and tools. Our doctorate program plays a leadership role in CI research by providing human-centered tools for the science and engineering communities. These tools and services focus on such areas as high performance computing, data analysis and visualization, cyber-services and virtual environments, and learning and knowledge management. ... [-]

Doctor of Philosophy in Systems Engineering (Ph.D.)

The George Washington University - School of Engineering & Applied Science
Campus 4 - 6 years September 2017 USA District of Columbia

Offered through the Department of Engineering Management and Systems Engineering, the Ph.D. program in Systems Engineering provides broad knowledge of the "systems approach" for designing and managing large-scale engineering systems throughout the lifecycle. Faculty research in systems engineering include: applied enterprise systems engineering and analysis; [+]

Best Part time PhD Programs in Engineering and Technology in USA. Program Overview Offered through the Department of Engineering Management and Systems Engineering, the Ph.D. program in Systems Engineering provides broad knowledge of the "systems approach" for designing and managing large-scale engineering systems throughout the lifecycle. Faculty research in systems engineering include: applied enterprise systems engineering and analysis; business and program development; critical infrastructure systems; risk assessment and management; and more. Students choose from the following areas of focus: Operations research and management science Systems engineering and integration Enterprise information assurance Doctor of Philosophy in Systems Engineering (Ph.D.) Credit hours (for those with a master's degree): 30 Credit hours (for those without a master's degree): 54 Duration: 4-6 years Prerequisite courses: Math 1231 Single Variable Calculus I Math 1232 Single Variable Calculus II APSC 3115 Engineering Analysis III Qualifying exams Proposal defense Final exam Post-graduate survey Program Requirements The program is divided into two stages. The first comprises a study of related fields of learning that support the general area of research focus and culminates in the qualifying examination. The second, composed of original research and the presentation of findings in a written dissertation, culminates in the final examination. Upon admission to the first stage of the program, the student will meet with their assigned advisor to structure their programs of study. Students who already have a master’s degree must complete a minimum of 30 credit hours at the graduate level, all of which must be completed by the end of the semester in which they take their doctoral qualifying exams (DQE). For students without master's degrees, a minimum of 54 credit hours in a formal program at the graduate level is required. In addition, all doctoral students take a minimum of 24 hours of dissertation research once they have been admitted to candidacy (post DQE). Program Prerequisites The following courses or their equivalent are prerequisites for the D.Sc. program and are required in addition to the credit hours discussed above: Math 31 Single-Variable Calculus I Math 32 S Single-Variable Calculus II APSC 3115 Engineering Analysis III If not met at admission, these courses must be completed within the first year of study. The Doctoral Program Coordinator will evaluate doctoral students after one year of study and any student who has not completed his/her prerequisites by that time will be in violation of their admissions contract and barred from further study. Core Courses All doctoral students are required to take the following three courses: EMSE 6765 Data Analysis for Engineers and Scientists (Offered in Spring and Fall) EMSE 8000 Research Formulation in EMSE (Offered in the Spring) EMSE 8001 Survey of Research Methods in EMSE (Offered in the Fall) It is recommended that students select an additional advanced methods course relevant to their doctoral work. Ph.D. Admissions Requirements Applicants must submit the following materials in order to be considered for admission into a master's program at SEAS. All materials except test scores must be uploaded to the online application form: Online Application Transcripts Scanned copies of unofficial transcripts are required from all colleges and universities attended, whether or not credit was earned; the program was not completed; or the credit appears as transfer credit on another transcript. Please ensure that all transcripts are properly scanned and attached to the online application form. Otherwise, applicants will receive notifications requesting legible transcripts, which may delay review of their application. Please do not mail official transcripts unless you are instructed to do so by a SEAS admissions officer. Admissions decisions are based on unofficial transcripts. For international applicants, please see additional requirements for attaching foreign transcripts to the online application. GRE scores The Graduate Records Examination (GRE) is required of all applicants, except for those applying for a Combined Five-Year Program. GRE scores must be sent to institution code 5246 through the Educational Testing Service (ETS). There is no minimum score required on the GRE for admission. However, applicants are encouraged to score within the 90th percentile of the Quantitative section of the exam in order to be considered competitive. To see average GRE scores from the most recent incoming class, visit the Graduate Student Profile. English proficiency exam scores (international applicants) International applicants who did not receive a degree from an institution situated in the United States or English-speaking country must also submit scores from the TOEFL, IELTS, or PTE Academic exams. Please view the International Admissions section for information on English language exam score requirements and sending scores to GW. Letters of Recommendation A minimum of three (3) letters of recommendation is required to be submitted with the online application form. At least one recommendation should be from an advisor and/or faculty member(s) at the institution from which you earned your highest degree. Statement of Purpose Applicants must include an essay of 400-600 words that clearly states their purpose in undertaking graduate study at the George Washington University; explains their academic objectives, research interests, and career plans; and discusses related qualifications including collegiate, professional, and community activities, as well as any other substantial accomplishments not already mentioned. It is strongly encouraged that essays stay within the 600 word limit. While applicants are not penalized for submitting longer essays, concise essays are more effective in demonstrating an applicant's motivation. The Statement of Purpose must be written by the applicant. Any essay found to have been written by anyone other than the applicant, or plagiarized from other published materials, will be withdrawn from consideration. Résumé/CV A current résumé or curriculum vitae (CV) should be uploaded with the online application form. If you have published articles in peer-reviewed publications, please include them as a hyperlink. Ph.D. applicants applicants must also demonstrate the following requirements in order to be considered for admission: A bachelor’s or master’s degree in an appropriate area from an accredited institution. If applicant has obtained a master’s degree, a minimum grade point average of 3.5 (on a scale of 4.0) is required. If applicant has only obtained a bachelor’s degree, the minimum grade point average must be a 3.3 (on a scale of 4.0). [-]

Doctor of Philosophy in Computer Science (Ph.D.)

The George Washington University - School of Engineering & Applied Science
Campus 4 - 6 years September 2017 USA District of Columbia

Offered through the Department of Computer Science, the Ph.D. program in Computer Science is designed to equip students with excellent skills at the forefront of computing. Through research and teaching, the Department contributes to computing breakthroughs that are fueling advances in medicine, communications, transportation, security, and other areas vital to society and the world. [+]

Program Overview Offered through the Department of Computer Science, the Ph.D. program in Computer Science is designed to equip students with excellent skills at the forefront of computing. Through research and teaching, the Department contributes to computing breakthroughs that are fueling advances in medicine, communications, transportation, security, and other areas vital to society and the world. The doctoral degree is based on coursework as well as research that leads to a dissertation. It is recommended that students interested in the doctoral degree contact the faculty whose interests best fit his/her interest. Areas of research focus center around these topics: computer security and information assurance, software engineering and systems, bioinformatics and biomedical computing, networking and mobile computing, pervasive computing and embedded systems, machine intelligence, robotics, and algorithms and theory. Courses focus in the following areas: Algorithms and theory Computer architecture, networks, parallel and distributed computing Computer security and information assurance Database and information retrieval systems Machine intelligence and cognition Multimedia, animation, graphics, and user interface Software engineering and systems The program is designed to prepare students for exciting and rewarding careers in information technology, medicine, film, business, government, and engineering. With the unique location of Washington, D.C., students have access one of the highest concentrations of high-tech companies in the country and federal institutes, including the National Institutes of Health (NIH), NASA, National Institute of Standards and Technology, and the Naval Research Laboratory. Doctor of Philosophy in Computer Science (Ph.D.) Credit hours (for those with a master's degree): 30 Credit hours (for those without a master's degree): 54 Other requirements: Course requirements: Students must take one course from each of the three areas: theory, systems, and applications. Students must also take one advanced topics course. For students without a prior master's degree, 15 credit hours may be taken outside of the department; for those with a prior master's degree, nine credit hours may be taken. Preliminary exam: Students must pass the exam within four semesters of starting the program Dissertation committee: Students are responsible for forming a dissertation committee comprised of three members in addition to the advisor and co-advisor(s). Dissertation proposal exam: Students must first pass the preliminary exam prior to the dissertation proposal exam. The student must then submit a written proposal for evaluation and undergo an oral exam. Peer-reviewed papers: Students are expected to have at least two or three conference or journal papers accepted for publication prior to the dissertation defense. Colloquium requirement: Students must attend a minimum of two seminars, workshops, or symposia sponsored by the department in order to fulfill this zero-credit requirement. Doctoral Degree Program Requirements Number of credit hours: For direct Ph.D. degree students: 54 credit hours (minimum of 18 credit hours of course work available for graduate credit and minimum of 12 credit hours of dissertation research credits (CSCI 8999)) For post-Master’s Ph.D. students: 18 credit hours of course work available for graduate credit and 12 credit hours of dissertation research credits (CSCI 8999) Specific course requirements: At least one course from each of the following three areas: 1) theory, 2) systems; and 3) applications. The purpose is to introduce students to the major methods of computer science research at the graduate level. Theory research involves constructing formal models of computation; validation is primarily by mathematical proof. Systems research involves improving computing infrastructure to make it faster, more reliable, more secure, etc.; validation is primarily empirical or analytical. Applied research involves using computers to solve problems of interest. Validation is primarily through demonstration that a method is effective in solving a problem. Theory: CSci 4314, 6212, 6213, 6311, 6312, 6331, 6341, 6362 Systems: CSci 6431, 6441, 6461, 6541 Applications: CSci 6351, 6364, 6365, 6443, 6448, 6511, 6521, 6525, 6527, 6554, 6555 At least one advanced topics course. CSci courses at the 8000 level with “Advanced” in the title satisfy this requirement. With approval of the student’s advisor, a CSci 6907 course may also satisfy this requirement. A maximum of 15 credits outside of the department for direct Ph.D. students; a maximum of 9 credits outside of the department for post-Master’s Ph.D. students. Ph.D. Admissions Requirements Applicants must submit the following materials in order to be considered for admission into a master's program at SEAS. All materials except test scores must be uploaded to the online application form: Online Application Transcripts Scanned copies of unofficial transcripts are required from all colleges and universities attended, whether or not credit was earned; the program was not completed; or the credit appears as transfer credit on another transcript. Please ensure that all transcripts are properly scanned and attached to the online application form. Otherwise, applicants will receive notifications requesting legible transcripts, which may delay review of their application. Please do not mail official transcripts unless you are instructed to do so by a SEAS admissions officer. Admissions decisions are based on unofficial transcripts. For international applicants, please see additional requirements for attaching foreign transcripts to the online application. GRE scores The Graduate Records Examination (GRE) is required of all applicants, except for those applying for a Combined Five-Year Program. GRE scores must be sent to institution code 5246 through the Educational Testing Service (ETS). There is no minimum score required on the GRE for admission. However, applicants are encouraged to score within the 90th percentile of the Quantitative section of the exam in order to be considered competitive. To see average GRE scores from the most recent incoming class, visit the Graduate Student Profile. English proficiency exam scores (international applicants) International applicants who did not receive a degree from an institution situated in the United States or English-speaking country must also submit scores from the TOEFL, IELTS, or PTE Academic exams. Please view the International Admissions section for information on English language exam score requirements and sending scores to GW. Letters of Recommendation A minimum of three (3) letters of recommendation is required to be submitted with the online application form. At least one recommendation should be from an advisor and/or faculty member(s) at the institution from which you earned your highest degree. Statement of Purpose Applicants must include an essay of 400-600 words that clearly states their purpose in undertaking graduate study at the George Washington University; explains their academic objectives, research interests, and career plans; and discusses related qualifications including collegiate, professional, and community activities, as well as any other substantial accomplishments not already mentioned. It is strongly encouraged that essays stay within the 600 word limit. While applicants are not penalized for submitting longer essays, concise essays are more effective in demonstrating an applicant's motivation. The Statement of Purpose must be written by the applicant. Any essay found to have been written by anyone other than the applicant, or plagiarized from other published materials, will be withdrawn from consideration. Résumé/CV A current résumé or curriculum vitae (CV) should be uploaded with the online application form. If you have published articles in peer-reviewed publications, please include them as a hyperlink. Ph.D. applicants applicants must also demonstrate the following requirements in order to be considered for admission: A bachelor’s or master’s degree in a relevant area from an accredited institution If applicant has obtained a master’s degree, a minimum grade point average of 3.5 (on a scale of 4.0) is required, as well as coursework in advanced software paradigms, computer architectures, design and analysis of algorithms. If applicant has only obtained a bachelor’s degree, the minimum grade point average must be a 3.3 (on a scale of 4.0). Completion of two math courses beyond pre-calculus Strong academic background that includes courses in structured programming language, discrete structures, and data structures [-]

Doctor of Philosophy in Mechanical and Aerospace Engineering (Ph.D.)

The George Washington University - School of Engineering & Applied Science
Campus 4 - 6 years September 2017 USA District of Columbia

The Department's doctoral program is a research-focused degree program with the objective of preparing students for a life of scholarship in their field of interest. Central to the program is original thesis research, which substantially advances the state-of-the-art in the field. Coursework to strengthen the command of the chosen discipline and enhance mathematical skills is also required. [+]

Best Part time PhD Programs in Engineering and Technology in USA. Program Overview The Department's doctoral program is a research-focused degree program with the objective of preparing students for a life of scholarship in their field of interest. Central to the program is original thesis research, which substantially advances the state-of-the-art in the field. Coursework to strengthen the command of the chosen discipline and enhance mathematical skills is also required. Thesis research is directed by the thesis advisor, with input from a small committee of faculty, which is selected for their expertise in the chosen field of study. Students will have the opportunity to work on cutting-edge research and contribute to our effort to advance basic and applied sciences. We welcome students with outstanding records who will also have the motivation and drive to become leaders in their chosen field of study. Students choose from the following areas of focus: Aerospace engineering Design of mechanical engineering systems Fluid mechanics, thermal sciences, and energy Industrial engineering Solid mechanics and materials science Structures and dynamics Robotics, mechatronics, and controls Doctor of Philosophy in Mechanical and Aerospace Engineering (Ph.D.) Credit hours (for those without a master's degree): 36 credit hours of coursework + 18 credit hours of research Credit hours (for those with a master's degree): 12 credit hours of coursework + 18 credit hours of research Duration: 4-6 years Requirements: Qualifying examinations Dissertation Doctoral Degree Program Requirements There are three distinct phases in the program of doctoral study in MAE. These are: the period of preparation for the qualifying examination; the qualifying examination; and the period after admission to candidacy for the Ph.D. degree during which the student performs research leading to the doctoral dissertation. Overall, direct-to-Ph.D. students should complete a minimum of 36 credit hours of coursework and 18 credit hours of research. Students who enter the program with an M.S. degree should complete a minimum of 12 credit hours of coursework and 18 credit hours of research. Areas of Focus Aerospace Engineering Core courses: MAE6221, MAE6229 Electives: MAE6223*, MAE6224, MAE6225*, MAE6226, MAE6227, MAE6228, MAE6230*, MAE6247*, MAE6249*, MAE6253, MAE6255, MAE6274, MAE6275, MAE6276, MAE6277, MAE6280, MAE6292, MAE8352 Design & Manufacturing of Mechanical and Aerospace Systems Core courses: MAE6243, MAE6287 Electives: MAE6251, MAE6210 Fluid Mechanics, Thermal Sciences, and Energy Core courses: MAE6221, MAE6280 Electives: MAE6226, MAE6282, MAE6225, MAE6286, MAE6228, MAE6263, MAE6284 Solid Mechanics, Materials Science, and Tissue Engineering Core courses: MAE6210, MAE6238, MAE6239 Electives: MAE6204, MAE6207, MAE6232, MAE6255, MAE6260, MAE6286, MAE6287, MAE6288 Robotics, Mechatronics & Controls Core courses: MAE6245, MAE6246, MAE6194 Electives: MAE6240, MAE6242, MAE6244, MAE6254, MAE6257, MAE6248, MAE6277 *These courses will be offered based on student demand. Ph.D. Admissions Requirements Applicants must submit the following materials in order to be considered for admission into a master's program at SEAS. All materials except test scores must be uploaded to the online application form: Online Application Transcripts Scanned copies of unofficial transcripts are required from all colleges and universities attended, whether or not credit was earned; the program was not completed; or the credit appears as transfer credit on another transcript. Please ensure that all transcripts are properly scanned and attached to the online application form. Otherwise, applicants will receive notifications requesting legible transcripts, which may delay review of their application. Please do not mail official transcripts unless you are instructed to do so by a SEAS admissions officer. Admissions decisions are based on unofficial transcripts. For international applicants, please see additional requirements for attaching foreign transcripts to the online application. GRE scores The Graduate Records Examination (GRE) is required of all applicants, except for those applying for a Combined Five-Year Program. GRE scores must be sent to institution code 5246 through the Educational Testing Service (ETS). There is no minimum score required on the GRE for admission. However, applicants are encouraged to score within the 90th percentile of the Quantitative section of the exam in order to be considered competitive. To see average GRE scores from the most recent incoming class, visit the Graduate Student Profile. English proficiency exam scores (international applicants) International applicants who did not receive a degree from an institution situated in the United States or English-speaking country must also submit scores from the TOEFL, IELTS, or PTE Academic exams. Please view the International Admissions section for information on English language exam score requirements and sending scores to GW. Letters of Recommendation A minimum of three (3) letters of recommendation is required to be submitted with the online application form. At least one recommendation should be from an advisor and/or faculty member(s) at the institution from which you earned your highest degree. Statement of Purpose Applicants must include an essay of 400-600 words that clearly states their purpose in undertaking graduate study at the George Washington University; explains their academic objectives, research interests, and career plans; and discusses related qualifications including collegiate, professional, and community activities, as well as any other substantial accomplishments not already mentioned. It is strongly encouraged that essays stay within the 600 word limit. While applicants are not penalized for submitting longer essays, concise essays are more effective in demonstrating an applicant's motivation. The Statement of Purpose must be written by the applicant. Any essay found to have been written by anyone other than the applicant, or plagiarized from other published materials, will be withdrawn from consideration. Résumé/CV A current résumé or curriculum vitae (CV) should be uploaded with the online application form. If you have published articles in peer-reviewed publications, please include them as a hyperlink. Ph.D. applicants applicants must also demonstrate the following requirements in order to be considered for admission: A bachelor’s or master’s degree in an appropriate area from an accredited institution If applicant has obtained a master’s degree, a minimum grade point average of 3.4 (on a scale of 4.0) is required. If applicant has only obtained a bachelor’s degree, the minimum grade point average must be a 3.3 (on a scale of 4.0). Demonstrated proficiency in a programming language [-]

Doctor of Philosophy in Engineering Management (Ph.D.)

The George Washington University - School of Engineering & Applied Science
Campus 4 - 6 years September 2017 USA District of Columbia

Offered through the Department of Engineering Management and Systems Engineering (EMSE), the M.S., Ph.D., and certificate programs in Engineering Management are designed to prepare technical managers who need a broad education in order to keep an organization operating efficiently and working ahead of its competitors. [+]

Program Overview Offered through the Department of Engineering Management and Systems Engineering (EMSE), the M.S., Ph.D., and certificate programs in Engineering Management are designed to prepare technical managers who need a broad education in order to keep an organization operating efficiently and working ahead of its competitors. The Engineering Management program provides a graduate education in the latest management techniques for technical and scientific organizations. Doctor of Philosophy in Engineering Management (Ph.D.) Credit hours (for those with a master's degree): 30 Credit hours (for those without a master's degree): 54 Duration: 4-6 years Prerequisite courses: Math 1231 Single Variable Calculus I Math 1232 Single Variable Calculus II APSC 3115 Engineering Analysis III Qualifying exams Proposal defense Final exam Post-graduate survey Course work The program is divided into two stages. The first comprises a study of related fields of learning that support the general area of research focus and culminates in the qualifying examination. The second, composed of original research and the presentation of findings in a written dissertation, culminates in the final examination. Upon admission to the first stage of the program, the student will meet with their assigned advisor to structure their programs of study. Programs of study will include a focus area selected from the following: Engineering Management Crisis, Emergency and Risk Management Economics, Finance and Cost Engineering Engineering and Technology Management Environmental and Energy Management Knowledge and Information Management Students who already have a master’s degree must complete a minimum of 30 credit hours at the graduate level, all of which must be completed by the end of the semester in which they take their doctoral qualifying exams (DQE) . For students without master's degrees, a minimum of 54 credit hours in a formal program at the graduate level is required. In addition, all doctoral students take a minimum of 24 hours of dissertation research once they have been admitted to candidacy (post DQE). Program Prerequisites The following courses or their equivalent are prerequisites for the D.Sc. program and are required in addition to the credit hours discussed above: Math 31 Single-Variable Calculus I Math 32 S Single-Variable Calculus II APSC 3115 Engineering Analysis III If not met at admission, these courses must be completed within the first year of study. The Doctoral Program Coordinator will evaluate doctoral students after one year of study and any student who has not completed his/her prerequisites by that time will be in violation of their admissions contract and barred from further study. Core Courses All doctoral students are required to take the following three courses: EMSE 6765 Data Analysis for Engineers and Scientists (Offered in Spring and Fall) EMSE 8000 Research Formulation in EMSE (Offered in the Spring) EMSE 8001 Survey of Research Methods in EMSE (Offered in the Fall) It is recommended that students select an additional advanced methods course relevant to their doctoral work. Ph.D. Admissions Requirements Applicants must submit the following materials in order to be considered for admission into a master's program at SEAS. All materials except test scores must be uploaded to the online application form: Online Application Transcripts Scanned copies of unofficial transcripts are required from all colleges and universities attended, whether or not credit was earned; the program was not completed; or the credit appears as transfer credit on another transcript. Please ensure that all transcripts are properly scanned and attached to the online application form. Otherwise, applicants will receive notifications requesting legible transcripts, which may delay review of their application. Please do not mail official transcripts unless you are instructed to do so by a SEAS admissions officer. Admissions decisions are based on unofficial transcripts. For international applicants, please see additional requirements for attaching foreign transcripts to the online application. GRE scores The Graduate Records Examination (GRE) is required of all applicants, except for those applying for a Combined Five-Year Program. GRE scores must be sent to institution code 5246 through the Educational Testing Service (ETS). There is no minimum score required on the GRE for admission. However, applicants are encouraged to score within the 90th percentile of the Quantitative section of the exam in order to be considered competitive. To see average GRE scores from the most recent incoming class, visit the Graduate Student Profile. English proficiency exam scores (international applicants) International applicants who did not receive a degree from an institution situated in the United States or English-speaking country must also submit scores from the TOEFL, IELTS, or PTE Academic exams. Please view the International Admissions section for information on English language exam score requirements and sending scores to GW. Letters of Recommendation A minimum of three (3) letters of recommendation is required to be submitted with the online application form. At least one recommendation should be from an advisor and/or faculty member(s) at the institution from which you earned your highest degree. Statement of Purpose Applicants must include an essay of 400-600 words that clearly states their purpose in undertaking graduate study at the George Washington University; explains their academic objectives, research interests, and career plans; and discusses related qualifications including collegiate, professional, and community activities, as well as any other substantial accomplishments not already mentioned. It is strongly encouraged that essays stay within the 600 word limit. While applicants are not penalized for submitting longer essays, concise essays are more effective in demonstrating an applicant's motivation. The Statement of Purpose must be written by the applicant. Any essay found to have been written by anyone other than the applicant, or plagiarized from other published materials, will be withdrawn from consideration. Résumé/CV A current résumé or curriculum vitae (CV) should be uploaded with the online application form. If you have published articles in peer-reviewed publications, please include them as a hyperlink. Ph.D. applicants applicants must also demonstrate the following requirements in order to be considered for admission: A bachelor’s or master’s degree in an appropriate area from an accredited institution If applicant has obtained a master’s degree, a minimum grade point average of 3.5 (on a scale of 4.0) is required. If applicant has only obtained a bachelor’s degree, the minimum grade point average must be a 3.3 (on a scale of 4.0). [-]

Doctor of Philosophy in Electrical Engineering (Ph.D.)

The George Washington University - School of Engineering & Applied Science
Campus 4 - 6 years September 2017 USA District of Columbia

Students in the doctoral program in electrical engineering conduct research in a variety of areas with the department's world-class faculty. Students can choose from the following six areas of focus: communications and networks; electrical power and energy; electromagnetics, [+]

Best Part time PhD Programs in Engineering and Technology in USA. Program Overview Students in the doctoral program in electrical engineering conduct research in a variety of areas with the department's world-class faculty. Students can choose from the following six areas of focus: communications and networks; electrical power and energy; electromagnetics, radiation systems, and microwave engineering; microelectronics and VLSI systems; and signal and image processing, systems and controls. Offered through the Department of Electrical and Computer Engineering (ECE), the M.S. and Ph.D. programs in Electrical Engineering are designed to help students understand and apply the principles of electrical engineering to communications, power and energy, and micro- and nano-electronics. Faculty and students research in areas such as wireless/mobile communications, micro-electro-mechanical systems, magnetics, and remote sensing. Students choose from five areas of focus: Applied electromagnetics Communications and networks Electrical power and energy Electronics, photonics, and MEMS (VLSI systems and microelectronics) Signal and image processing, systems and controls Doctor of Philosophy in Electrical Engineering (Ph.D.) Credit hours (for those with a master's degree): 30 Credit hours (for those without a master's degree): 54 Duration: 4-6 years Other requirements: Seminar requirement: Students must present one departmental seminar, excluding the dissertation defense, prior to graduation. Colloquium requirement: ​Students must register for the zero-credit colloquium course and satisfy the requirement by attending five department-sponsored seminars, workshops, or symposia. Areas of focus Communications and Networks Faculty in this area are involved in research on topics such as wireless communications and networking, data-center networks, network optimization, and optical networking. Please click on a faculty member' s name to learn more about their specific research interests. Electrical Power and Energy Faculty in this area are involved in research on topics such as reliability of renewable energy sources for power generation, stability of micro-grids integrated into large utility power systems and cyber security of the electrical power grid with internet interconnections. Electromagnetics, Radiation Systems, and Microwave Engineering Faculty in this area are involved in antenna arrays, microwave remote sensing , wave propagation and channel modeling, computational electromagnetics, magnetics and nano-optics. Electronics, Photonics, and MEMS Faculty in this area are involved in research on topics such as the design and modeling of electronic and nanoelectronic devices and systems, microfluidic devices integrated with electronic devices, the design of MicroElectroMechanical Systems (MEMS) for sensors and for RF-MEMS devices, micro and nanoelectronic circuits with applications to sensors and biosensors, and techniques to develop CMOS Integrated sensors and their interface circuits using analog and digital circuits. Signal and Image Processing, Systems, and Controls Faculty in this area are involved in research on topics such as signal processing for communications and acoustics, computer vision and multimedia processing, medical image processing and pattern recognition, complex system analysis and design, and system identification and control. Ph.D. Admissions Requirements Applicants must submit the following materials in order to be considered for admission into a master's program at SEAS. All materials except test scores must be uploaded to the online application form: Online Application Transcripts Scanned copies of unofficial transcripts are required from all colleges and universities attended, whether or not credit was earned; the program was not completed; or the credit appears as transfer credit on another transcript. Please ensure that all transcripts are properly scanned and attached to the online application form. Otherwise, applicants will receive notifications requesting legible transcripts, which may delay review of their application. Please do not mail official transcripts unless you are instructed to do so by a SEAS admissions officer. Admissions decisions are based on unofficial transcripts. For international applicants, please see additional requirements for attaching foreign transcripts to the online application. GRE scores The Graduate Records Examination (GRE) is required of all applicants, except for those applying for a Combined Five-Year Program. GRE scores must be sent to institution code 5246 through the Educational Testing Service (ETS). There is no minimum score required on the GRE for admission. However, applicants are encouraged to score within the 90th percentile of the Quantitative section of the exam in order to be considered competitive. To see average GRE scores from the most recent incoming class, visit the Graduate Student Profile. English proficiency exam scores (international applicants) International applicants who did not receive a degree from an institution situated in the United States or English-speaking country must also submit scores from the TOEFL, IELTS, or PTE Academic exams. Please view the International Admissions section for information on English language exam score requirements and sending scores to GW. Letters of Recommendation A minimum of three (3) letters of recommendation is required to be submitted with the online application form. At least one recommendation should be from an advisor and/or faculty member(s) at the institution from which you earned your highest degree. Statement of Purpose Applicants must include an essay of 400-600 words that clearly states their purpose in undertaking graduate study at the George Washington University; explains their academic objectives, research interests, and career plans; and discusses related qualifications including collegiate, professional, and community activities, as well as any other substantial accomplishments not already mentioned. It is strongly encouraged that essays stay within the 600 word limit. While applicants are not penalized for submitting longer essays, concise essays are more effective in demonstrating an applicant's motivation. The Statement of Purpose must be written by the applicant. Any essay found to have been written by anyone other than the applicant, or plagiarized from other published materials, will be withdrawn from consideration. Résumé/CV A current résumé or curriculum vitae (CV) should be uploaded with the online application form. If you have published articles in peer-reviewed publications, please include them as a hyperlink. Ph.D. applicants applicants must also demonstrate the following requirements in order to be considered for admission: A bachelor’s or master’s degree in an appropriate area from an accredited institution If applicant has obtained a master’s, a minimum grade point average of 3.4 (on a scale of 4.0) is required. If applicant has only obtained a bachelor’s, the minimum grade point average must be a 3.3 (on a scale of 4.0). Identified one to three SEAS faculty members whose research interests most closely match their own and note this on the application form. [-]

Doctor of Philosophy in Computer Engineering (Ph.D.)

The George Washington University - School of Engineering & Applied Science
Campus 4 - 6 years September 2017 USA District of Columbia

The doctoral program in computer engineering is designed to involve students in cutting-edge research in the areas of computer architecture and high-performance computing, or microelectronics and VLSI systems. The research interests of the faculty in the computer architecture and high-performance computing area span computer architecture, parallel processing, cloud computing, and high-performance and grid computing. [+]

Program Overview The doctoral program in computer engineering is designed to involve students in cutting-edge research in the areas of computer architecture and high-performance computing, or microelectronics and VLSI systems. The research interests of the faculty in the computer architecture and high-performance computing area span computer architecture, parallel processing, cloud computing, and high-performance and grid computing. In the microelectronics and VLSI design area, the faculty's interests include the design and modeling of electronic and nanoelectronic devices and systems, microfluidic devices integrated with electronic devices, the design of MicroElectroMechanical Systems (MEMS) for sensors and for RF-MEMS devices, micro and nanoelectronic circuits with applications to sensors and biosensors, and techniques to develop CMOS Integrated sensors and their interface circuits using analog and digital circuits. Offered through the Department of Electrical and Computer Engineering, the Ph.D. in Computer Engineering prepares students to learn and apply sophisticated computer architecture and integrated circuit design techniques using industry-standard computer-aided design tools. Faculty and students work together to explore solutions for photonic computing; create state-of-the-art advances in high-performance computing; and improve the reliability of cloud computing. The program offers up-to-date knowledge and skills in the advances of computer systems architecture and networking, as well as the rapidly-growing use of superscalar microprocessors, real-time embedded systems, VLSI and ASIC design modules, digital signal processors, and networked computing platforms. The program offers a flexible schedule that includes courses in the late afternoon and evening, as well as the ability to choose a thesis or non-thesis degree option. Students choose from two areas of focus: Computer architecture and high-performance computing MEMS, electronics, and photonics (microelectronics and VLSI systems) Doctor of Philosophy in Computer Engineering (Ph.D.) Credit hours (for those with a master's degree): 30 Credit hours (for those without a master's degree): 54 Duration: 4-6 years Other requirements: ​Scholarship requirement: Doctoral students in the Computer Engineering program must have a minimum GPA of 3.4 at the time of graduation. Students must have a B or higher in all courses to count toward the degree. Seminar requirement: All doctoral students must present one departmental seminar, excluding the dissertation defense, prior to graduation. Colloquium requirement: All doctoral students must attend five seminars, workshops, or symposia sponsored by the department in order to fulfill this zero-credit requirement. Areas of focus Computer Architecture and High-Performance Computing Faculty in this area are involved in research on topics such as computer architecture, parallel processing, cloud computing, and high-performance and grid computing. MEMS, Electronics, and Photonics Faculty in this area are involved in research on topics such as the design and modeling of electronic and nanoelectronic devices and systems, microfluidic devices integrated with electronic devices, the design of MicroElectroMechanical Systems (MEMS) for sensors and for RF-MEMS devices, micro and nanoelectronic circuits with applications to sensors and biosensors, and techniques to develop CMOS Integrated sensors and their interface circuits using analog and digital circuits. Ph.D. Admissions Requirements Applicants must submit the following materials in order to be considered for admission into a master's program at SEAS. All materials except test scores must be uploaded to the online application form: Online Application Transcripts Scanned copies of unofficial transcripts are required from all colleges and universities attended, whether or not credit was earned; the program was not completed; or the credit appears as transfer credit on another transcript. Please ensure that all transcripts are properly scanned and attached to the online application form. Otherwise, applicants will receive notifications requesting legible transcripts, which may delay review of their application. Please do not mail official transcripts unless you are instructed to do so by a SEAS admissions officer. Admissions decisions are based on unofficial transcripts. For international applicants, please see additional requirements for attaching foreign transcripts to the online application. GRE scores The Graduate Records Examination (GRE) is required of all applicants, except for those applying for a Combined Five-Year Program. GRE scores must be sent to institution code 5246 through the Educational Testing Service (ETS). There is no minimum score required on the GRE for admission. However, applicants are encouraged to score within the 90th percentile of the Quantitative section of the exam in order to be considered competitive. To see average GRE scores from the most recent incoming class, visit the Graduate Student Profile. English proficiency exam scores (international applicants) International applicants who did not receive a degree from an institution situated in the United States or English-speaking country must also submit scores from the TOEFL, IELTS, or PTE Academic exams. Please view the International Admissions section for information on English language exam score requirements and sending scores to GW. Letters of Recommendation A minimum of three (3) letters of recommendation is required to be submitted with the online application form. At least one recommendation should be from an advisor and/or faculty member(s) at the institution from which you earned your highest degree. Statement of Purpose Applicants must include an essay of 400-600 words that clearly states their purpose in undertaking graduate study at the George Washington University; explains their academic objectives, research interests, and career plans; and discusses related qualifications including collegiate, professional, and community activities, as well as any other substantial accomplishments not already mentioned. It is strongly encouraged that essays stay within the 600 word limit. While applicants are not penalized for submitting longer essays, concise essays are more effective in demonstrating an applicant's motivation. The Statement of Purpose must be written by the applicant. Any essay found to have been written by anyone other than the applicant, or plagiarized from other published materials, will be withdrawn from consideration. Résumé/CV A current résumé or curriculum vitae (CV) should be uploaded with the online application form. If you have published articles in peer-reviewed publications, please include them as a hyperlink. Ph.D. applicants applicants must also demonstrate the following requirements in order to be considered for admission: A bachelor’s or master’s degree in a relevant area from an accredited institution If the applicant has obtained a master’s, a minimum grade point average of 3.4 (on a scale of 4.0) is required. If the applicant has only obtained a bachelor’s degree, the minimum grade point average must be a 3.3 (on a scale of 4.0). Identified one to three SEAS faculty members whose research interests most closely match their own and note this on the application form. A strong academic or relevant professional background pertinent to the field of study Demonstrated capacity for original research [-]

Doctor of Philosophy in Civil & Environmental Engineering (Ph.D.)

The George Washington University - School of Engineering & Applied Science
Campus 4 - 6 years September 2017 USA District of Columbia

Civil and Environmental Engineering graduate students have extraordinary opportunities to learn about the state-of-the-art in their studies. Environmental engineering students use one of the world’s largest wastewater treatment plants as a real-world laboratory to improve the water quality of the Potomac River and the Chesapeake Bay watershed. [+]

Best Part time PhD Programs in Engineering and Technology in USA. Program Overview Civil and Environmental Engineering graduate students have extraordinary opportunities to learn about the state-of-the-art in their studies. Environmental engineering students use one of the world’s largest wastewater treatment plants as a real-world laboratory to improve the water quality of the Potomac River and the Chesapeake Bay watershed. Structural engineering students study earthquake engineering, extreme event design of structures and bridge design on a state-of-the-art, six-degrees-of-freedom earthquake simulator. And transportation-engineering students learn from faculty and experts at GW’s National Crash Analysis Center and the Federal Outdoor Impact Laboratory. The doctoral program aims to educate highly qualified researchers who will enhance fundamental knowledge and produce technological innovations through original research and development. Our location and relationships with companies and government agencies in the Washington, D.C., area allow for collaborative research opportunities that greatly increase our graduates’ job prospects. The Department collaborates with several entities throughout the greater D.C. metropolitan area for research, including: the Center for Intelligence Systems Research (CISR) for developing intelligent transportation systems; the Potomac River and Chesapeake Bay Watershed on improving water quality; the National Crash Analysis Center for research in transportation engineering In addition, the Science and Engineering Hall on GW's main campus features a new high bay, in which students in civil and environmental engineering may apply their knowledge in testing the strength of heavy objects against a strong wall and strong floor. Doctor of Philosophy in Civil & Environmental Engineering (Ph.D.) Credit hours (for those with a master's degree): 30 Credit hours (for those without a master's degree): 54 Duration: 4-6 years Other requirements: Qualifying examination: Administered twice a year, the exam covers subject matters at both the master's and doctoral levels. Students should prepare for comprehensive questioning on all subject matters regardless of any particular course included in the actual doctoral coursework load. Doctoral Areas of Focus Environmental Engineering This program is designed to provide students with the fundamentals and knowledge about the various specializations within environmental engineering. These include among others, water, wastewater, hazardous wastes, industrial wastes and pertinent regulatory requirements. The students are given a broad overview of each area, which enables them to select specific areas for advanced study, if they should choose to do so. In this program, the students have to take a number of required courses, along with courses selected from the following subject areas: Environmental chemistry Water and wastewater treatment processes Advanced sanitary engineering design Industrial waste treatment Hazardous waste management Environmental impact assessment Environmental microbiology Advanced treatment processes Required Courses: CE 6503, 6601, 6609 Geo-environmental Engineering The main goal in this area of concentration is to provide essential tools for civil engineers who want to specialize in foundation engineering, rock mechanics, and soil mechanics. A variety of courses in the theoretical and practical aspects of geomechanics are available. Students are trained to undertake the analysis and design of such geotechnical structures as earth dams, embankments, and abutments. The program also provides the knowledge necessary to design geo-environmental structures such as landfills and general infrastructure systems constructed on or in geomaterials. Some of the main topics covered in this area are: Theoretical soil mechanics Groundwater and seepage Physicochemical aspects of soil behavior Foundation engineering Geotechnical earthquake engineering Finite element methods in solid mechanics Rock mechanics Environmental geotechnology Soil dynamics Required Courses: CE 6210, 6402, 6605 Mechanics and Materials Engineering Courses in this concentration teach you to develop and apply means of describing and predicting the mechanical behavior of materials (crystalline and polycrystalline metals, insulators, semiconductors, amorphous materials, and composites) and structures (individual elements or the whole of machine, spacecraft, bridge, or other structures) in their interaction with physical environments. The study of engineering mechanics allows you to draw on the resources of GW's Departments of Physics and Chemistry, and provides for the concentrated study of: Mechanics of continua with emphasis on solids Science of materials and materials behavior Applied mathematical analysis Numerical and finite element analysis Required Courses: ApSc 6213; CE 6206, 6210 Structural Engineering This area enables you to specialize in computer-aided structural design or structural dynamics. You develop specialized methods to analyze the effects of the environment, large-scale human occupancy, heavy traffic, and various types of dynamic excitation on the infra-and super-structures of complex building and bridge systems. You'll focus on topics such as: Reinforced concrete and prestressed concrete design Metal structure design with emphasis on steel structures Soil mechanics and geotechnical engineering Advanced mechanics and materials science Composite materials Analysis of plates and shells Vibration and stability analysis Structural analysis Probabilistic methods and random vibrations Numerical and finite element methods Computer applications Required Courses: CE 6201, 6202, 6210 Transportation Engineering This program offers a focused and comprehensive study of vehicle crashworthiness, intelligent transportation systems and traffic flow dynamics. Courses on finite element modeling, occupant safety, government regulations, injury/crash analysis, vehicle dynamics, traffic flow theory and demand modeling are provided. Students will utilize all the facilities at the National Crash Analysis Center - NCAC (including the Crash Film Library and the Vehicle Modeling Laboratory) and the Center of Intelligent Systems Research –CISR (including a driving simulator and an instrumented vehicle). Numerical Methods in Engineering (CE 6101) Application of Probability Methods in Civil Engineering (CE 6102) Introduction to Finite Element Analysis (CE 6210) Introduction to Biomechanics (CE 6350) Analytical Mechanics (CE 6701) Vehicle Dynamics (CE 6702) Vehicle Standards and Crash Test Analysis (CE 6703) Crash Investigation and Analysis (CE 6704) Non-Linear Finite Element Modeling and Simulation (CE 6705) Systems Dynamics and Control (CE 6707) Traffic Engineering and Highway Safety (CE 6721) Intelligent Transportation Systems (CE 6722) Advanced Theory in Traffic Flow (CE 6800-a) Advanced Demand Modeling (CE 6800-b) Advanced Biomechanics (CE 8280) Advanced Finite Element Analysis (CE 8330) Required Courses: CE 6210, 6701, and 6721 or 6722 Water Resources Engineering In this area, you deal with the increasingly complex problem of planning and designing sustainable physical systems for water storage, delivery, and utilization. You develop special skills needed to design water supplies for domestic, industrial, and agricultural use; flood hazard mitigation; control of rivers for navigation, water conveyance, flood control, and recreation; and manage soil loss from watersheds and its impact on waterways and storage dams. You follow a program of required courses specific to this area and a carefully selected list of courses covering topics such as: Open channel flow Groundwater and seepage Advanced hydrology Water resources planning and control Hydraulic engineering Design of dams Ocean and coastal engineering Pollution transport systems Sedimentation engineering Mechanics of alluvial channels Hydraulic modeling Numerical methods in water resources engineering Required Courses: CE 6503, 6601, 6609 Ph.D. Admissions Requirements Applicants must submit the following materials in order to be considered for admission into a master's program at SEAS. All materials except test scores must be uploaded to the online application form: Online Application Transcripts Scanned copies of unofficial transcripts are required from all colleges and universities attended, whether or not credit was earned; the program was not completed; or the credit appears as transfer credit on another transcript. Please ensure that all transcripts are properly scanned and attached to the online application form. Otherwise, applicants will receive notifications requesting legible transcripts, which may delay review of their application. Please do not mail official transcripts unless you are instructed to do so by a SEAS admissions officer. Admissions decisions are based on unofficial transcripts. For international applicants, please see additional requirements for attaching foreign transcripts to the online application. GRE scores The Graduate Records Examination (GRE) is required of all applicants, except for those applying for a Combined Five-Year Program. GRE scores must be sent to institution code 5246 through the Educational Testing Service (ETS). There is no minimum score required on the GRE for admission. However, applicants are encouraged to score within the 90th percentile of the Quantitative section of the exam in order to be considered competitive. To see average GRE scores from the most recent incoming class, visit the Graduate Student Profile. English proficiency exam scores (international applicants) International applicants who did not receive a degree from an institution situated in the United States or English-speaking country must also submit scores from the TOEFL, IELTS, or PTE Academic exams. Please view the International Admissions section for information on English language exam score requirements and sending scores to GW. Letters of Recommendation A minimum of three (3) letters of recommendation is required to be submitted with the online application form. At least one recommendation should be from an advisor and/or faculty member(s) at the institution from which you earned your highest degree. Statement of Purpose Applicants must include an essay of 400-600 words that clearly states their purpose in undertaking graduate study at the George Washington University; explains their academic objectives, research interests, and career plans; and discusses related qualifications including collegiate, professional, and community activities, as well as any other substantial accomplishments not already mentioned. It is strongly encouraged that essays stay within the 600 word limit. While applicants are not penalized for submitting longer essays, concise essays are more effective in demonstrating an applicant's motivation. The Statement of Purpose must be written by the applicant. Any essay found to have been written by anyone other than the applicant, or plagiarized from other published materials, will be withdrawn from consideration. Résumé/CV A current résumé or curriculum vitae (CV) should be uploaded with the online application form. If you have published articles in peer-reviewed publications, please include them as a hyperlink. Ph.D. applicants applicants must also demonstrate the following requirements in order to be considered for admission: A bachelor’s or master’s degree in a relevant area from an accredited institution If the applicant has obtained a master’s, a minimum grade point average of 3.4 (on a scale of 4.0) is required. If the applicant has only obtained a bachelor’s degree, the minimum grade point average must be a 3.3 (on a scale of 4.0). Identified one to three SEAS faculty members whose research interests most closely match their own and note this on the application form. A strong academic or relevant professional background pertinent to the field of study Demonstrated capacity for original research [-]

PhD in Informatics and Computing

Northern Arizona University
Campus 5 years August 2017 USA Flagstaff

The PhD INF program prepares graduate students to work in the transformative "fourth paradigm" of science and engineering, an interdisciplinary field relying on Big Data and advanced software, hardware, and statistics skills. [+]

The PhD INF program prepares graduate students to work in the transformative "fourth paradigm" of science and engineering, an interdisciplinary field relying on Big Data and advanced software, hardware, and statistics skills. After a streamlined five-year plan of study, graduates will be ready to be leaders in industry and government research labs, faculty and research scientists in academia, and entrepreneurs in cutting-edge informatics application areas. Graduates will make contributions to exciting projects that address critical areas of national need in bioinformatics, population health, environmental sustainability, ecology, software engineering, wearable computing, cyber-physical systems, and cybersecurity. Students' research and education are strengthened through broad collaborations with a variety of academic, government, and private entities. We accept students from broad formal educational backgrounds such as biology, ecology, computer science, electrical engineering, and statistics, however all students must possess sufficient mastery of key foundational areas in order to meaningfully engage in and contribute to original research. These areas include programming, data structures, software development methods, and statistics. Program faculty may require that students admitted into the program correct any deficiencies in these areas by enrolling in additional undergraduate or graduate courses. Available Emphasis Areas: Bioengineering Informatics - Emphasis Cyber and Software Systems - Emphasis Ecological and Environmental Informatics - Emphasis Health and Bioinformatics - Emphasis The doctoral degree in Informatics and Computing enables students to engage in a research-intensive course of study within a broad range of informatics and computing areas, including population health, bioinformatics, remote sensing, ecological modeling wireless sensor and communication systems, cyber-physical systems, software architecture and visualization, computer graphics, model-driven design, machine learning, wearable computing, and cybersecurity. Our five-year degree program is strengthened by committed mentorship and professional development training, with students benefiting from a broad range of collaborations and partnerships, including but not limited to: Center for Bioengineering Innovation, Center for Microbial Genetics and Genomics, Center for Ecosystem Science and Society, Merriam-Powell Center for Environmental Research, Department of Biological Sciences, Department of Physics and Astronomy, School of Earth Sciences and Environmental Sustainability, and School of Forestry. Regional research collaborators include but are not limited to: Translational Genomics Research Institute, Northern Arizona Healthcare and Flagstaff Medical Center, North Country HealthCare, U.S. Geological Survey, and Northern Arizona Planetary Science Alliance. What Can I Do with a Doctor of Philosophy in Informatics and Computing? The Ph.D. program in Informatics and Computing prepares graduates for meaningful and fulfilling careers in the application of informatics and computing to critical areas of national need. We aim to prepare students to be leaders in industry and government research labs, faculty and research scientists in academia, or entrepreneurs in cutting-edge informatics application areas. University Requirements To receive a Doctor of Philosophy Degree (Ph.D.) at Northern Arizona University, you must complete a planned group of courses, from one or more disciplines, ranging from at least 60-109 units of graduate-level courses. Most plans require research, a dissertation, and comprehensive exams. All plans have residency requirements regarding time spent on the Flagstaff campus engaged in full-time study. In addition to University Requirements: Complete individual plan requirements. ADDITIONAL ADMISSION REQUIREMENTS Admission requirements over and above admission to NAU are required. NAU Graduate Online application is required for all programs. Details on admission requirements are included in the online application. Undergraduate degree from a regionally accredited institution Grade Point Average (GPA) of 3.00 (scale is 4.00 = "A"), or the equivalent. Admission to many graduate programs is on a competitive basis, and programs may have higher standards than those established by the Graduate College. Transcripts For details on graduate admission policies, please visit the Graduate Admissions Policy International applicants have additional admission requirements. Please see the International Graduate Admissions Policy Individual program admission requirements include: GRE® revised General Test 3 letters of recommendation Personal statement or essay Resume or Curriculum Vitae Expertise in key foundational areas in informatics, including core topics such as programming, data structures, software development methods, and statistics, as well as areas that support specific emphases, such as biology, ecology, and cyber systems. Student Learning Outcomes Graduates of this training program will demonstrate the following advanced competencies and program learning outcomes (PLOs): PLO1: Identify, explain, and assess the major theories, research methods, and technical approaches driving informatics- driven science and engineering and the impact of these elements on society. PLO2: Identify, explain, synthesize, and apply the fundamental concepts of informatics, including large-scale data representation and organization, various types of programming languages, software development methods, data processing, information extraction and machine learning, and statistical analysis. PLO3: Identify, explain, synthesize, and apply the interdisciplinary combination of core informatics and in-depth disciplinary expertise defining one of the following emphasis areas: Health and Bioinformatics, focusing genetic and genomic analysis, population health, and disease transmission; Ecological and Environmental Informatics, focusing on ecological and environmental analyses and remote sensing; Cyber and Software Systems, focusing on the design and implementation of cyber-physical and large-scale software systems. Bioengineering Informatics, focusing on data analysis and control in bioengineering applications. PLO4: Identify, survey, analyze, organize, and critically distill information from the scientific literature within an informatics emphasis area and creatively identify open research questions. PLO5: Independently apply appropriate expertise, methods, and tools to the creative design, execution, and assessment of an investigation that addresses original informatics research questions. PLO6: Compose and engage in highly effective written and oral communication in informatics areas; demonstrate clear argumentation and logical cohesion in a variety of written and oral communications, including scholarly dissemination, funding requests, industry, and lay-communication. [-]

PhD in Bioengineering

Northern Arizona University
Campus August 2017 USA Flagstaff

Our PhD in Bioengineering focuses on the areas of biomaterials and biomechanics. This interdisciplinary program provides a broad-based research perspective that draws upon the expertise of our faculty from unique disciplines. [+]

Best Part time PhD Programs in Engineering and Technology in USA. Our PhD in Bioengineering focuses on the areas of biomaterials and biomechanics. This interdisciplinary program provides a broad-based research perspective that draws upon the expertise of our faculty from unique disciplines. Emphasis Areas Include: Biophysics Energy efficient remote sensing Engineering of artificial plants Environmental endocrinology Informatics and Computing Muscle-like actuation and Wearable Robotics Novel biomaterials Wound healing What Will You Gain From Our Program The goal of this program is to educate future industry and research leaders in bioengineering through an integrative and interdisciplinary approach. Students will receive advanced training in research through focused coursework and will develop expertise in collecting, analyzing, interpreting, and presenting data at a level appropriate for positions in industrial research and development or academia. After completing the degree, students are prepared to undertake careers in industry, government organizations, nonprofits, and universities. Learning Outcomes Students will build skills and knowledge through formal course work and an original dissertation project. The goal is to foster students’ abilities to identify and synthesize fundamental principles of bioengineering and apply them to complex problems. NAU graduates with a Ph.D. in Bioengineering will have achieved the following learning outcomes: Critical Thinking: Demonstrate the ability to apply graduate level critical thinking skills to formulate and solve advanced bioengineering problems in the emphasis area (Biomaterials, Biomechanics, Biophysics, Informatics & Computing). Interdisciplinary: Demonstrate the ability to integrate information, data, techniques, tools, perspectives, concepts, and/or theories from two or more disciplines to advance fundamental understanding or to solve problems whose solutions are beyond the scope of a single discipline or area of research practice. Research Design and Execution: Demonstrate the ability to independently and creatively design and conduct research studies, including synthesis of the scientific literature in the field of study, design of dissertation research, and interpretation of complex quantitative analyses. Oral Communication: Demonstrate the ability to communicate effectively the results of a comprehensive research project through oral presentations. Written Communication: Compose and engage in highly effective written communication in bioengineering; demonstrate clear argumentation and logic in a variety of written communications, including published papers and grant proposals. Admissions Requirements Excellent candidates for this doctorate have an earned thesis-based Master of Science degree in a bioengineering, biology, mechanical engineering, or appropriately related science. Direct entry into the PhD program from a Bachelor of Science degree will be considered on a case-by-case basis for exemplary applicants. Important: All applicants are expected to make contact (i.e. email communication or lab visit) with potential faculty members in the department BEFORE APPLYING. Applicants should only apply if a mentor agrees to support the applicant. Funding Your Graduate Education A variety of funding possibilities exist to support your education at NAU: Graduate Assistantships Teaching Assistantships Research Assistantships Service Assistantships (outside of your department) Speak with faculty in your research discipline BEFORE APPLYING to discuss available teaching and research assistantships. Presidential Fellowship Program Financial Aid [-]