A PhD in engineering and technology is an advanced level degree achieved by a relatively small group of people. Because of its advanced nature, those people who have this degree tend to be considered experts in their field of study, often making them very valuable in the workplace.
What Is a PhD in Engineering and Technology?
A PhD degree in engineering and technology often focuses on research based education in this field. It may involved the development of new technology or the advancing of degree programs. It can also be a program that focuses on the student's own desired focus, such as on learning a very specific area of engineering or technology.
What Are the Benefits of Taking a PhD in Engineering and Technology?
Taking this type of course positions the student to advance in his or her field. Management roles are one option, but many students end up working in research and development within these fields or they may open their own businesses. In some cases, this leads to better pay as well.
How Much Does It Cost to Take a PhD in Engineering and Technology?
The cost of these programs can be moderate to high, depending on the school, the length of the courses, as well as the overall goals of the student.
What Are the Requirements for a PhD in Engineering and Technology?
Students will generally need to have a Masters degree in Engineering or Technology to enroll in these programs. Most require application, as well, which may include specific work-experience or hands-on learning in a specialized field.
What Kind of Career Improvement Can You Expect with a PhD in Engineering and Technology?
As an advanced individual, it is possible the student will earn more based on his higher level of education. Additionally, many move into owning their own business or managing others.
Why Take an Online PhD in Engineering and Technology?
Online courses in engineering and technology are useful to those who are busy and still want to advance their studies, especially at their own rate.
Where to Take a PhD in Engineering and Technology?
Many schools, including colleges and universities around the world, offer PhD education in the engineering and technology field. This includes specialized schools focusing on these areas.
University of Hradec Králové, Faculty of Informatics and Management
The graduate of the doctoral study in Applied Informatics is able to design and develop information, communication and knowledge technologies in different industries and
PhD in Applied Informatics
The main research topics are information systems design methodologies, advanced techniques in information and knowledge processing, ambient intelligence.
The graduate of the doctoral study in Applied Informatics is able to design and develop information, communication and knowledge technologies in different industries and businesses. Both are prepared to become research workers.
Entrance Requirements for the Candidate
The candidate has to be a Master’s degree graduate specialized in economics or informatics or another closely related field of study. In the field of informatics, the candidate is required to design simple database applications, to have good knowledge of CASE tools, principles of programming, basic tools for decision making support, general knowledge of modern information and communication technologies, systems approaches and analysis....
University of Trento The Department of Industrial Engineering
Materials Science and Engineering: Biomaterials and biomedical technologies, Coatings and surface treatments, Corrosion and wear, Experimental characterization and numeri
PhD program in Materials, Mechatronics and Systems Engineering
FIRST CALL 2018
DEADLINE FOR APPLICATIONS: 22 AUGUST 2018, hrs. 4.00 PM (+2 GMT)
During the filling out of the application, online candidates must choose which Research area(s) (max. 2, specifying the order of preference) they are interested to apply for.
The subsequent publication of the second call for applications with positions covered by research fellowships (Assegni di ricerca) is foreseen; all positions in the second call will be on specific topics. Applications for the second call will also be accepted by the participants of this first call, but those who will be winners both in the selection of the first call and in that of the second, will be automatically removed from the first since the winnings on the second call will be considered the first choice for the candidate and therefore binding...
The George Washington University - School of Engineering & Applied Science
Civil and Environmental Engineering graduate students have extraordinary opportunities to learn about the state-of-the-art in their studies. Environmental engineering stu
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....
Two Doctor of Philosophy degrees are offered in the Herff College of Engineering: Biomedical Engineering, a joint program between UofM and the University of Tennessee Hea
Since offering its first classes in 1964, Herff College has developed a reputation for excellent instruction. Over 50 dedicated faculty members with outstanding academic and professional credentials comprise the College enabling us to offer a variety of graduate degree programs. Within our five academic departments, we offer MS and PhD degree programs and many exciting activities and services that enrich or smooth the path to an engineering degree.
Two Doctor of Philosophy degrees are offered in the Herff College of Engineering: Biomedical Engineering, a joint program between UofM and the University of Tennessee Health Science Center; and Engineering, featuring an interdepartmental curriculum with concentrations across the college....
The Doctor of Philosophy in Engineering (Ph.D. in Engineering) degree is awarded to candidates who successfully complete the taught courses and research components of the
Khalifa University of Science and Technology offers Graduate Research/Teaching Assistant (GRTA) scholarships to support qualified international students enrolled in graduate programs.
The scholarship provides generous remuneration and benefits that include:
Full coverage of tuition fees.
Medical insurance coverage for students under the Khalifa University visa.
Support to attend international research conferences.
The indicative monthly stipend for GRTA Scholarship is as follows (subject to change):
We will start taking applications starting November 1st, 2018 for the next intake in September 1st, 2019.
The Doctor of Philosophy in Engineering (Ph.D. in Engineering) degree is awarded to candidates who successfully complete the taught courses and research components of the program. The students are required to complete a program of advanced courses in engineering. They are also required to carry out an independent investigation of a specialized area in engineering. Candidates for this degree are supervised by experienced researchers and are expected to demonstrate initiative in their approach and innovation in their work. The Ph.D. Candidates prepare and present a thesis on their chosen area. Research may be undertaken in a variety of topics corresponding to the areas of focus identified by the University....
The 3rd cycle in Engineering of Structural Materials aims to provide, through a scientific and practical research approach, a solid, advanced and updated training in orde
The 3rd cycle in Engineering of Structural Materials aims to provide, through a scientific and practical research approach, a solid, advanced and updated training in order to create highly qualified researchers in the field and able to solve problems related to practical applications of engineering in industry, or to pursue a research career in this scientific field.
It is intended that students gain the skills to be able to continue to develop and apply, independently, the acquired knowledge, becoming an important asset in the academic institutions, or business / industrial where they will develop their activity.
The cycle of studies also seeks to attract students from other training courses in other universities, and professionals in the area of Aeronautics, Automobile, Construction, etc. who want to specialize and progress in their careers....
Ph.D. Program in Materials Science – A collaborative, interdisciplinary program with the University of Montana-Missoula and Montana State University-Bozeman. Research spe
Materials Science Ph.D. Program
The Materials Science Ph.D. program is designed to provide students maximum flexibility with access to premier facilities and professors at three campuses.
The Montana University System announces an exciting new collaborative program offering Montana’s first Ph.D. in Materials Science. The program includes the departments, faculty, courses and research infrastructure of the campuses of the University of Montana, Montana State University, and Montana Tech.
Research specialties are focused in four areas:
Electronic, photonic and magnetic materials
Materials for energy storage, conversion, and conservation
Materials synthesis, processing, and fabrication
This multidisciplinary program builds on the fundamentals of traditional engineering and science combined with curriculum and research activities addressing the numerous
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:...
The course offerings provide the student with an opportunity to broaden as well as to intensify his or her knowledge in a number of areas of electrical engineering. The s
The course offerings provide the student with an opportunity to broaden as well as to intensify his or her knowledge in a number of areas of electrical engineering. The student, with the aid of a faculty adviser, may plan a program in any one of a number of fields of specialization within electrical engineering or from the offerings of related departments in science and engineering.
Graduate study and research are offered in the areas of:
Digital and Microprocessor/Controller Systems: Digital Signal Processors, Embedded Microcontrollers, Microprocessors, Advanced Microprocessor Systems
Solid-State Devices, Circuits and Systems: Semiconductor Theory, Microwave Devices, and Circuits, Analog Electronics.
Systems and Controls: Systems, Controls, Manufacturing, Discrete Event Control, Neural and Fuzzy Control, Nonlinear Modern Control, Biomedical Signal Processing and Instrumentation
Electromagnetic Fields and Applications: Remote Sensing, Electromagnetic Fields, Propagation, Scattering, Radiation, and Microwave Systems.
Digital Signal and Image Processing: Vision Systems, Neural Networks, Statistical Signal Processing, Nonlinear Image Processing, Virtual Prototyping, and Virtual Environments.
Telecommunications and Information Systems: Information Transmission and Communication Systems
Power Systems: Efficient Operation, Generation, Transmission, Distribution, Deregulation
Optical Devices and Systems: Optics, Electro-optics, Diffractive Optics, Nonlinear Optics, and Lasers
Nanotechnology and MEMS - Materials and Devices: Quantum Electronic Devices, Semiconductor Surfaces and Interfaces, Single Electron Devices, Sensors and Detectors, Carbon Nanotube Devices, Noise and Reliability in Nano-Electronic Devices, Microactuators, RF MEMS, Polymer Electronics, and Nanophotonics
Renewable Energy Systems and Vehicular Technology: Power Electronics Engineering, Motor Drives, Renewable Energy Systems, Grid-Integration, and Vehicular Power Structure
The doctorate degree in Computing/Computer Science provides the future Ph.D. holders with the necessary skills and abilities to become successful academics demonstrating
The doctorate degree in Computing/Computer Science provides the future Ph.D. holders with the necessary skills and abilities to become successful academics demonstrating an excellence in research and making a significant contribution to the local and international research community in the field of Computing/Computer Science. Through a minimum of a 3 years period, candidates develop critical thinking, formulate their own opinions, acquire research culture, and become autonomous researchers able to plan, develop, implement and coordinate research studies as well as to the reason and present their findings to the international scientific community.
Candidates pursuing the Ph.D. in Engineering must develop an independent thinking approach and a unique expertise in their own research interest. Independent research req
Candidates pursuing the Ph.D. in Engineering must develop an independent thinking approach and a unique expertise in their own research interest. Independent research requires diligent and thorough investigation into a topic with the aim of formulating new and original ideas, findings and theories.
All Doctor of Philosophy students are required to attend the Scientific Research Practices and Entrepreneurship modules in their first year of candidature.
Taylor's School of Engineering specializes in Chemical Engineering, Electrical & Electronic Engineering, and Mechanical Engineering. We offer a well-established curriculum, backed by a highly qualified team of academics, who possess multidisciplinary research strengths in the following fields:...
Doctoral students will gain exposure to and contribute to, groundbreaking research, giving them invaluable experience that will translate into an exciting, challenging, a
Doctoral students will gain exposure to and contribute to, groundbreaking research, giving them invaluable experience that will translate into an exciting, challenging, and well-compensated job in the high-demand field of computer science and engineering.
The HBKU Computer Science and Engineering Ph.D. program provides students with a solid, fundamental, and advanced education, as well as strong research experience and a broad understanding of aspects related to computer science and engineering.The program aims to equip students with advanced, up-to-date knowledge of computer science and engineering, plus the methods, tools, and technologies needed to explore this fast-evolving field. The program provides a broad, multidisciplinary, research-intensive education at the boundary of computer science and engineering while providing specialization streams in contemporary fields that are globally important and also relevant to Qatar, such as systems and computer security, software engineering, computational sciences, computer architecture and VLSI, robotics machine perception, sensing technologies, human-computer interface (HCI), Big Data and data analytics, machine learning and artificial intelligence, computer vision and graphics, and wireless and mobile computing and networking.Students have the opportunity to perform research alongside world-class faculty who are leaders in their respective fields. Students gain access to state-of-the-art laboratories and facilities within HBKU including the HBKU Research Complex. Students develop skills that position them to take leading roles in an exceptionally active and highly competitive area of the job market....
By choosing courses with the guidance of his or her supervisor, each student can adjust the programme to his or her research interests.
C A L L
for admission of students to postgraduate university (doctoral) study programmes for acquiring the academic degree of Doctor of Philosophy in the field of Engineering Sciences in the academic year 2018/19:
In the subjects of Mechanical Engineering, Naval Architecture, Basic Engineering Sciences and Interdisciplinary Engineering Sciences for the modules
Thermal Power Engineering
Design and Building of Ships
Mechanical Engineering Design
Quality Assurance and Engineering System Control
The number of students accepted: 30.
By choosing courses with the guidance of his or her supervisor, each student can adjust the programme to his or her research interests....
At the graduate level, the Electrical and Computer Engineering department offers programs of study leading to the doctor of philosophy (Ph.D.) in electrical and computer
At the graduate level, the Electrical and Computer Engineering department offers programs of study leading to the doctor of philosophy (Ph.D.) in electrical and computer engineering. Clarkson University also offers an off-campus Ph.D. option designed to assist qualified non-resident candidates to matriculate at Clarkson University as doctoral degree candidates.
A minimum of 90 credit hours (beyond B.S.) corresponding to a minimum of three academic years of full-time study, two of which must be in residence at Clarkson. A master’s degree may be accepted in lieu of a maximum of 30 credit hours.
A minimum of 6 credit hours of seminar work.
Minimum coursework: 39 credit hours total, 9 credit hours in a minor field, 6 credit hours outside the department, and 9 credit hours taken in residence at Clarkson. At least 21 hours of the coursework should be done with the Electrical and Computer Engineering Department.
A dissertation must be submitted and defended orally before a committee of five faculty members with at least one committee member being from outside the department of the thesis advisor.