phd in telecommunication engineering

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Doctor of Philosophy in Telecommunications Engineering

Program description.

The PhD in telecommunications engineering program offers intensive preparation in design, programming, theory and applications. Training is provided for both academically oriented students and students with professional goals in the business, industrial and governmental occupations requiring advanced knowledge of telecommunications, network theory and technology.

Courses and research are offered in a variety of subfields of telecommunications engineering, including: fault-tolerant computing, parallel processing, digital signal processing, digital communications, modulation and coding, electromagnetic- wave propagation, fiber and integrated optics, lasers, wireless communications, mobile IP, wireless multimedia, DWDM networks, QoS assurance protocols, network design and optimization, telecommunications software, performance of systems, ad-hoc and PCS wireless networks, network security and high speed networks.

The University maintains a large network of computer facilities, including PCs, Unix work stations and specialized computers for research within the program and faculty laboratories. The Jonsson School has developed a state-of-the-art information infrastructure consisting of a wireless network in all buildings and an extensive fiber-optic Ethernet.

Career Opportunities

Graduates of the program seek positions such as: professor; researcher and consulting engineer in the public and private sectors. TE graduates find employment in local, national and international enterprises.

Marketable Skills

Review the marketable skills for this academic program.

Application Requirements

Degree requirements: A master’s degree in telecommunications engineering, electrical engineering, computer science or a closely associated discipline from an institution of higher education in the U.S. or from an acceptable foreign university. Consideration will be given to highly qualified students wishing to pursue the doctorate without satisfying all of the requirements for a master’s degree.

GPA: A grade point average (GPA) in graduate coursework of 3.5 or better on a 4.0 point scale.

Test score required: Yes

GRE revised scores of 154, 156, and 4 for the verbal, quantitative and analytical writing components, respectively, are advisable based on our experience with student success in the program.

Letters of recommendation: Applicants must submit three letters of recommendation on official school or business letterhead or the UT Dallas Letter of Recommendation form from individuals who are familiar with the student record and able to judge the candidate’s probability of success in purchasing doctoral study in Telecommunications Engineering.

Admissions essay required: Yes

Applicants must also submit a narrative describing their motivation for doctoral study and how it relates to their professional goals.

Deadlines: University deadlines apply.

Contact Information

Jeong Bong (JB) Lee ECE Graduate Program Head Email: [email protected] Phone: 972-883-2386 Office: ECSN 2.716B

Graduate Program Information Email: [email protected] Phone: 972-883-2139 Office: ECSN 2.7 Suite

ece.utdallas.edu

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Doctoral Degrees

Information Science with a focus in Telecommunications, PhD

The Doctor of Philosophy (PhD) degree in Information Science with a focus in Telecommunications prepares students for independently engaging in advanced work in high-quality research and teaching. It provides research-oriented graduate study and professional specialization in telecommunications and emphasizes both scholarly and applied research. To earn a PhD degree, a student must demonstrate breadth of knowledge, give evidence of superior scholarship and mastery of a specialized field, and must demonstrate their ability to do significant and relevant research. In addition, the student must conceive, write, and defend a PhD dissertation representing a significant and original contribution to current academic research as demonstrated by a public dissertation defense and publication in established peer-reviewed academic conferences and/or journals. Major milestones en-route to the PhD degree are the preliminary examination, the comprehensive examination, the dissertation proposal, and the dissertation defense.

Degree Requirements

A candidate for the PhD should have broad knowledge of the field of telecommunications as well as a specialization in the area of major interest. Every candidate should have, in addition, a strong background in research methodologies.

The Telecommunications PhD program requires a minimum of 48 credits beyond a master’s degree. Exceptional students with a technical bachelor’s degree may be admitted on occasion, and in such cases, a minimum of 72 credits beyond the baccalaureate degree is required. The 72 credits must include the required courses (or their equivalent) for the MST degree at the University of Pittsburgh.

All PhD candidates must complete:

12 credits of required courses
12 credits of doctoral seminars
6 credits of minor courses
At least 18 credits of dissertation research and writing (no more than 18 credits applied toward graduation)
48 of the 72 credits must be advanced coursework beyond the MST degree (or its equivalent)

A plan of study should be designed by the advisor and student as early as possible after admission. A copy of the plan of study must be on file in the student’s folder and should be consulted during each registration period.

While these are minimum credit requirements, every PhD student may be required to take more credits of coursework to obtain the breadth and depth of knowledge required to successfully complete their dissertations. Graduation depends upon meeting the minimum credit requirements and all other requirements.

For more degree requirement details, visit the Information Science with a focus in Telecommunications course catalog .

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Telecommunications Engineering

About the telecommunications engineering graduate program.

The Electrical and Computer Engineering Graduate Program at UT Dallas offers a master of science and doctor of philosophy degrees in telecommunications engineering to engineers who wish to continue their education. As an interdisciplinary program, students are prepared for leadership roles in research, development and design positions that require the use of skillful and imaginative solutions to engineering problems.

Our master’s degree program has been carefully designed for students to gain breadth of knowledge in software and hardware of telecommunications, network theory and technology. It is flexible enough for students to specialize in the area of their choice. Meanwhile, our doctoral degree program prepares individuals to perform original, leading-edge research in a variety of subfields of telecommunication engineering such as advanced networks, optical/wireless systems, data communications and fault-tolerant computing; in preparation for academic career or research and development positions in high-technology industries..

Why join the Telecommunications Engineering Graduate Program at UT Dallas? Our graduate engineering school is ranked #3 among public schools in Texas according to the 2020 US News & World Report Rankings. Because of our strong collaborative programs with Dallas-area high-technology companies, students get an education tailored for professional practice in telecommunications engineering. Courses offered are taught by a large number of teaching Faculty who are also engaged in research; many have professional experience in industry.

The mission of the Telecommunications Engineering degrees program is to provide excellent education in modern communications networks and systems. Our graduates are highly qualified for rewarding and successful careers in a diverse range of telecommunications engineering fields.

Master of science in telecommunications engineering program.

Students seeking a Master of Science in Telecommunications Engineering must complete 30 semester hours beyond the baccalaureate; (five core courses and six electives). Each student must complete six elective courses, four of which must come from the recommended engineering and computer science electives. Two free electives can be graduate courses offered by the Erik Jonsson School.

Doctor of Philosophy in Telecommunications Engineering Program

Students seeking a Doctor of Philosophy in Telecommunications Engineering must complete minimum 75 semester hours beyond the baccalaureate. Some of our research areas includes digital signal processing, digital communications, modulation and coding, electromagnetic-wave propagation, fiber and integrated optics, lasers, wireless communications, mobile IP, wireless multimedia, DWDM networks, QoS assurance protocols, network design and optimization, telecommunications software, performance of systems, ad-hoc and PCS wireless networks, network security and high speed protocols, fault-tolerant computing and parallel processing.

Forms & Links

Mailing Address: ECE Graduate Program, The University of Texas at Dallas, 800 W. Campbell Rd. EC33, TX 75080, USA

Associate Department Head for Graduate Program Head: Dr.Kamran Kiasaleh Graduate Program Information: [email protected] Phone: 972-883-2139 Office: ECSN 2.7 Suite Book an appointment for graduate advising

The University of Texas at Dallas

Erik jonsson school of engineering and computer science.

800 W. Campbell Road Richardson, TX 75080-3021

972.883.2974

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Telecommunications Engineering Graduate Programs in America

1-15 of 15 results

Viterbi School of Engineering

Los Angeles, CA •

University of Southern California •

Graduate School

• Rating 5 out of 5 2 reviews

Master's Student: Best experience is that I have the ability to engage with other students and my professors in real time. My worst experience would have to be; moments of not being able to hear what is being talked about during a lecture due to classroom audio issues. ... Read 2 reviews

University of Southern California ,

Graduate School ,

LOS ANGELES, CA ,

2 Niche users give it an average review of 5 stars.

Featured Review: Master's Student says Best experience is that I have the ability to engage with other students and my professors in real time. My worst experience would have to be; moments of not being able to hear what is being talked about during a lecture due to classroom audio issues. .

Read 2 reviews.

Lyle School of Engineering

Dallas, TX •

Southern Methodist University •

Southern Methodist University ,

DALLAS, TX ,

A. James Clark School of Engineering

College Park, MD •

University of Maryland - College Park •

University of Maryland - College Park ,

COLLEGE PARK, MD ,

George Washington University School of Engineering and Applied Science

Washington, DC •

George Washington University •

• Rating 5 out of 5 1 review

Master's Student: The program has been very rigorous for someone without a background in engineering, but the faculty was able to work with me to craft an educational experience that worked with my knowledge and skills and outside of work hours. ... Read 1 review

Blue checkmark.

George Washington University ,

WASHINGTON, DC ,

1 Niche users give it an average review of 5 stars.

Featured Review: Master's Student says The program has been very rigorous for someone without a background in engineering, but the faculty was able to work with me to craft an educational experience that worked with my knowledge and... .

Read 1 reviews.

Gallogly College of Engineering

Norman, OK •

University of Oklahoma •

University of Oklahoma ,

NORMAN, OK ,

University of Colorado - Boulder College of Engineering & Applied Science

Boulder, CO •

University of Colorado Boulder •

Other: My experience in Aerospace Engineering at the University of Colorado Boulder has been transformative. The dedicated faculty, cutting-edge curriculum, and emphasis on collaborative learning have provided me with a comprehensive understanding of the field. Engaging in impactful research projects and benefiting from state-of-the-art facilities has prepared me for the challenges of the aerospace industry. The university's scenic location adds a unique dimension to the academic experience. As I embark on the next phase of my career, I am confident that the solid foundation from this institution will guide my journey in aerospace technology. ... Read 2 reviews

University of Colorado Boulder ,

BOULDER, CO ,

Featured Review: Other says My experience in Aerospace Engineering at the University of Colorado Boulder has been transformative. The dedicated faculty, cutting-edge curriculum, and emphasis on collaborative learning have... .

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University College - University of Denver

Denver, CO •

University of Denver •

• Rating 4.2 out of 5 10 reviews

Master's Student: University College offers great programs and courses, and all of the professors I’ve had so far are extremely knowledgeable and typically work in the field. I absolutely love my courses and have even discovered new educational interests with the help of my courses and professors. Online coursework is more tedious and difficult than in-class courses, but worth it. I’m from Ohio and so glad I discovered University College! ... Read 10 reviews

University of Denver ,

DENVER, CO ,

10 Niche users give it an average review of 4.2 stars.

Featured Review: Master's Student says University College offers great programs and courses, and all of the professors I’ve had so far are extremely knowledgeable and typically work in the field. I absolutely love my courses and have even... .

Read 10 reviews.

College of Journalism and Mass Communications - University of Nebraska - Lincoln

Lincoln, NE •

University of Nebraska - Lincoln •

University of Nebraska - Lincoln ,

LINCOLN, NE ,

College of Engineering Technology - Rochester Institute of Technology

Rochester, NY •

Rochester Institute of Technology •

Rochester Institute of Technology ,

ROCHESTER, NY ,

Erik Jonsson School of Engineering and Computer Science

Richardson, TX •

University of Texas - Dallas •

University of Texas - Dallas ,

RICHARDSON, TX ,

Seidenberg School of CSIS

New York, NY •

Pace University •

• Rating 4.67 out of 5 3 reviews

Master's Student: Nothing much to say. Wish there were more elective courses and flexibility credit-wise. Like any school, some professors are better than others. However, all are willing to work with you. A lot of virtual resources available as well. ... Read 3 reviews

Pace University ,

NEW YORK, NY ,

3 Niche users give it an average review of 4.7 stars.

Featured Review: Master's Student says Nothing much to say. Wish there were more elective courses and flexibility credit-wise. Like any school, some professors are better than others. However, all are willing to work with you. A lot of... .

Read 3 reviews.

Universidad Ana G. Mendez-Gurabo Campus

Gurabo, PR •

• Rating 4.86 out of 5 7 reviews

Alum: The academic experience has been amazing. Professors are doing very well at their job of teaching and making students understand the topics that are being taught in class. They help students understand the class better. ... Read 7 reviews

GURABO, PR ,

7 Niche users give it an average review of 4.9 stars.

Featured Review: Alum says The academic experience has been amazing. Professors are doing very well at their job of teaching and making students understand the topics that are being taught in class. They help students... .

Read 7 reviews.

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College of Engineering and Computing - Florida International University

Miami, FL •

Florida International University •

Master's Student: The graduate Data Science classes are very challenging for me. I have a 3.5 GPA in my four classes so far. ... Read 1 review

Florida International University ,

MIAMI, FL ,

Featured Review: Master's Student says The graduate Data Science classes are very challenging for me. I have a 3.5 GPA in my four classes so far. .

Golisano Institute for Sustainability - Rochester Institute of Technology

School of individualized study - rochester institute of technology.

Showing results 1 through 15 of 15

Erik Jonsson School of Engineering and Computer Science

Graduate program in telecommunications engineering.

The Graduate Program in Telecommunications Engineering (TE) provides intensive preparation for professional practice in the design, programming, theory, and applications of telecommunications networks. It is designed to serve the needs of engineers who wish to continue their education. The Telecommunications Engineering Program offers courses of study leading to the MS and a PhD degree in Telecommunications Engineering. Education and training is provided to both academically oriented students and students with professional goals in industrial or governmental occupations requiring advanced knowledge of telecommunications and related technology. A comprehensive program of evening courses is also offered, which enables part-time students to earn the MS and PhD degree or to select individual courses of interest. Courses and research are both offered in a variety of subfields of telecommunications engineering, including, fault-tolerant networks, digital communications, modulation and coding, electromagnetic-wave propagation, fiber and integrated optics, lasers, wireless communications, mobile computing, wireless multimedia, DWDM networks, QoS assurance protocols, network design and optimization, telecommunications software, performance of systems, ad-hoc and PCS wireless networks, network security and high speed transmission protocols.

The Erik Jonsson School of Engineering and Computer Science has developed a state-of-the-art computational facility consisting of a network of Sun servers and Sun Engineering Workstations. All systems are connected via an extensive fiber-optic Ethernet, and through the Texas Higher Education Network, have direct access to most major national and international networks. In addition, many personal computers are available for student use.

The Engineering and Computer Science Building provides extensive facilities for research in telecommunications, microelectronics, and computer science. The TARGET Laboratory has state-of-the-art telecommunications equipment, which includes a number of transport nodes, data packet routers, voice over IP gears, and a cluster of Linux workstations for protocols development and testing. The Wireless Information Systems (WISLAB) and Antenna Measurement Laboratories at UT Dallas have a wealth of experimental equipment with a unique reconfigurable multiple antenna testbed. Having this testbed allows wireless researchers to integrate and to demonstrate radio functions (i.e. WiFi and WiMAX) in geographically different regions under different frequency usage characteristics. With the aid of the Antenna Measurement Lab located in the Waterview Science and Technology Center (WSTC), the researchers can design, build, and test many type of antennas. The Optical Communications Laboratory includes attenuators, optical power meters, lasers, APD/p-i-n photodetectors, optical tables, and couplers and is available to support system level research in optical communications.

The Center for Systems, Communications, and Signal Processing, with the purpose of promoting research and education in general communications, signal processing, control systems, medical and biological systems, circuits and systems and related software, is located in the Erik Jonsson School. The Photonic Technology and Engineering Center (PhoTEC) has produced more than thirty PhD graduates. The PhoTEC faculty carry out research in enabling technologies for microelectronics and telecommunications.

The Digital Systems Laboratory includes a network of workstations, personal computers, FPGA development systems, and a wide spectrum of state-of-the-art commercial and academic design tools to support graduate research in VLSI design and computer architecture. In the Digital Signal Processing Laboratory several multi-CPU workstations are available in a network configuration for simulation experiments. Hardware development facilities for real time experimental systems are available and include microphone arrays, active noise controllers, speech compressors and echo cancellers. The Nonlinear Optics Laboratory has a dedicated network of Sun workstations for the development of simulation methods and software for optical transmission and communication systems, optical routers and all-optical networks. The Broadband Communication Laboratory has design and modeling tools for fiber and wireless transmission systems and networks, and all-optical packet routing and switching. The Advanced Communications Technologies (ACT) Laboratory provides a design and evaluation environment for the study of telecommunication systems and wireless and optical networks. ACT has facilities for designing network hardware, software, components, and applications.

In addition to the aforementioned facilities, a Class 1000 microelectronics clean room facility, including optical lithography, sputter deposition and evaporation, is available for student projects and research. An electron beam lithography pattern generator capable of sub-micron resolution is also available for microelectronics research. The Plasma Applications Laboratory has state-of-the-art facilities for mass spectrometry, microwave interferometry, optical spectroscopy, and optical detection. In addition, a Gaseous Electronics Conference Reference Reactor has been installed for plasma processing and particulate generation studies. The Optical Measurements Laboratory has dual wavelength (visible and near infrared) Gaertner Ellipsometer for optical inspection of material systems, a variety of interferometric configurations, high precision positioning devices, and supporting optical and electrical components. The Electronic Materials Processing Laboratory has extensive facilities for fabricating and characterizing semiconductor and optical devices. The Laser Electronics Laboratory houses graduate research projects centered on the characterization, development and application of ultrafast dye and diode lasers. Research in characterization and fabrication of nanoscale materials and devices is performed in the Nanoelectronics Laboratory.

In addition to the facilities on campus, cooperative arrangements have been established with many local industries to make their facilities available to UT Dallas graduate engineering students.

Master of Science in Telecommunications Engineering

33 semester credit hours minimum

Program Faculty

FACG> ecs-telecommunications-engineering-mste

Professors: Naofal Al-Dhahir @nxa028000 , Farokh B. Bastani @bastani , András Faragó @farago , Andrea Fumagalli @andreaf , Zygmunt Haas @zjh130030 , John H. L. Hansen @jxh052100 , Jason Jue @jjue , Latifur Khan @lkhan , Kamran Kiasaleh @kamran , Hlaing Minn @hxm025000 , Won Namgoong @wxn062000 , Aria Nosratinia @aria , Mehrdad Nourani @nourani , Balakrishnan Prabhakaran @praba , Ravi Prakash @ravip , Balaji Raghavachari @rbk , Mohammad Saquib @saquib , Kamil Sarac @kxs028100 , Lakshman Tamil @laxman , Murat Torlak @torlak , Subbarayan Venkatesan @venky , W. Eric Wong @wew021000 , I-Ling Yen @ilyen , Si Qing Zheng @sizheng

Associate Professors: Jorge A. Cobb @jcobb , Neeraj Mittal @nxm020100

Assistant Professors: Shuang Hao @sxh178730 , Cong Liu @cxl137330

Professor Emeritus: William J. Pervin @pervin

Senior Lecturers: Neeraj Gupta @nkg140130 , Miguel Razo-Razo @mrazora , Marco Tacca @mtacca

NOTE> Please be advised, the admissions section below feeds in from a separate page. Any changes made to the admissions section below will not be retained. Please contact [email protected] with any questions.

Admission Requirements

The University's general admission requirements are discussed on the Graduate Admission page.

A student lacking undergraduate prerequisites for graduate courses in electrical engineering must complete these prerequisites or receive approval from the graduate advisor and the course instructor. A diagnostic examination may be required. Specific admission requirements follow.

A student entering the MS TE program should meet the following guidelines:

An undergraduate preparation equivalent to a baccalaureate in electrical engineering from an accredited engineering program.
A grade point average (GPA) in upper-division quantitative coursework of 3.0 or better on a 4.0 point scale.
GRE revised scores of 154, 156, and 4 for the verbal, quantitative and analytical writing components, respectively, are advisable based on our experience with student success in the program.

Applicants must submit three letters of recommendation from individuals who are able to judge the candidate's probability of success in pursuing a program of study leading to the master's degree. Applicants must also submit an essay outlining the candidate's background, education, and professional goals.

Students from other engineering disciplines or from other science and math areas may be considered for admission to the program on a case-by-case basis; however, some additional coursework may be necessary before starting the master's program.

Degree Requirements

The University's general degree requirements are discussed on the Graduate Policies and Procedures page.

The MS TE degree requires a minimum of 33 semester credit hours.

All students must have an academic advisor and an approved degree plan. Courses taken without advisor approval will not count toward the 33 semester credit hour requirement. Successful completion of the approved course of studies leads to the MS TE degree.

The MS TE program has both a thesis and a non-thesis option. All part-time MS TE students will be assigned initially to the non-thesis option. Those wishing to elect the thesis option may do so by obtaining the approval of a faculty thesis supervisor. With the prior approval of an academic advisor, non-thesis students may count no more than 3 semester credit hours of research or individual instruction courses towards the 33 semester credit hour degree requirement.

All full-time, supported students are required to participate in the thesis option. The thesis option requires nine semester credit hours of research (of which three must be thesis semester credit hours), a written thesis submitted to the graduate school, and a formal public defense of the thesis. The supervising committee administers this defense and is chosen in consultation with the student's thesis advisor prior to enrolling for thesis credit. Research and thesis semester credit hours cannot be counted in an MS TE degree plan unless a thesis is written and successfully defended.

Course Requirements

Each student must complete a total of 33 hours from three categories:

I. Required Concentration Core Courses: 15 semester credit hours

Each student must complete the following five (5) Concentration Core courses making a B- or better in each course and an overall GPA of 3.0 or better in the Concentration Core courses:

TE 6385 Algorithmic Aspects of Telecommunication Networks

EESC 6349 Probability, Random Variables, and Statistics

EESC 6352 Digital Communication Systems

CS 6352 Performance of Computer Systems and Networks

CS 6390 Advanced Computer Networks

II. Recommended Elective Courses: 12 semester credit hours

Each student must complete four (4) recommended elective courses; two (2) from each of the following groups:

Recommended Electrical Engineering Electives

Choose two courses from the following:

EEGR 6316 Fields and Waves

EEOP 6310 Optical Communication Systems

EEOP 7340 Optical Network Architectures and Protocols

EERF 6311 RF and Microwave Circuits

EERF 6394 Antenna Engineering and Wave Propagation

EERF 6395 RF and Microwave Systems Engineering

EESC 6340 Introduction to Telecommunications Networks

EESC 6341 Information Theory

EESC 6343 Detection and Estimation Theory

EESC 6344 Coding Theory

EESC 6360 Digital Signal Processing I

EESC 6361 Digital Signal Processing II

EESC 6362 Introduction to Speech Processing

EESC 6365 Adaptive Signal Processing

EESC 6390 Introduction to Wireless Communication Systems

EESC 6391 Signaling and Coding for Wireless Communication Systems

EESC 6392 Propagation and Devices for Wireless Communications

Recommended Computer Science Electives

CS 6349 Network Security

CS 6360 Database Design

CS 6363 Design and Analysis of Computer Algorithms

CS 6368 Telecommunication Network Management

CS 6378 Advanced Operating Systems

CS 6381 Combinatorics and Graph Algorithms

CS 6386 Telecommunication Software Design

CS 6392 Mobile Computing Systems

CS 6396 Real-Time Systems

SE 6354 Advanced Software Engineering

One pre-approved TE independent study allowed in this group.
Must be 6000 or above level courses.
Thesis Option: Up to six (6) semester credit hours of research may be allowed in this group. Pre-approval by MS Thesis advisor is required.

III. ECS Free Electives: 6 semester credit hours

Each student must complete two (2) ECS Free Electives courses that satisfy the following:

Must be a course in ECS School.
Only one 5000 level course is allowed if: (a) is a pre-requisite to a course in the list above, and (b) it precedes the 6000 level course.

Doctor of Philosophy in Telecommunications Engineering

75 semester credit hours minimum beyond the baccalaureate degree

Each doctoral degree program is tailored to the student. The student must arrange a course program with the guidance and approval of a faculty member chosen as his/her graduate advisor. Adjustments can be made as the student's interests develop and a specific dissertation topic is chosen.

FACG> ecs-telecommunications-engineering-mste,ecs-telecommunications-engineering-phd

The admission requirements will be basically the same as the existing ones for admission to the PhD programs in Electrical Engineering and Computer Science. The entrance requirements are:

A master's degree in Telecommunications Engineering, Electrical Engineering, Computer Science or a closely associated discipline from an institution of higher education in the U.S. or from an acceptable foreign university. Consideration will be given to highly qualified students wishing to pursue the doctorate without satisfying all of the requirements for a master's degree.
A grade point average (GPA) in graduate coursework of 3.5 or better on a 4.0 point scale.

Applicants must submit three letters of recommendation on official school or business letterhead or the UT Dallas Letter of Recommendation form from individuals who are familiar with the student record and able to judge the candidate's probability of success in purchasing doctoral study in Telecommunications Engineering.

Applicants must also submit a narrative describing their motivation for doctoral study and how it relates to their professional goals.

For students who are interested in a PhD but are unable to attend school full-time, there is a part-time option. The guidelines for admission to the program and the degree requirements are the same as for full-time PhD, students. All students must have an academic advisor and an approved plan of study.

The TE program for doctoral study is individually tailored to the student's background and research objectives by the student's supervisory committee. The program will require a minimum of 75 semester credit hours beyond the baccalaureate degree. These credits must include at least 30 semester credit hours of graduate level courses beyond the baccalaureate level in the major concentration. The core requirements for the PhD degree in Telecommunications Engineering are the same as the ones for the MS in Telecommunications Engineering. All PhD students must demonstrate competence in the master's level core courses in their research area. However, a student's supervising committee may impose course requirements that are necessary and appropriate for the student's research program. It is expected that MS degree students planning to enter the proposed doctoral program will take most of the courses as part of their MS degree requirements. All students must have an academic advisor and an approved plan of study.

Also required are:

A qualifying examination (QE), as approved by the TE graduate committee, demonstrating competence in the PhD candidate's research area. A student entering the PhD program with a MS degree must pass this exam within 3 long semesters, and a student entering with a BS degree must pass this exam within 4 long semesters. A student has, at most, two attempts at this qualifying exam. The exam will be given during the fall and spring semesters. Details of the QE policy can be found on the EE department website.
At least half of the supervising committee must be comprised of core TE faculty members; it must be chaired or co- chaired by a TE faculty member.
Completion of a major research project culminating in a dissertation demonstrating an original contribution to scientific knowledge and engineering practice. The dissertation will be defended publicly. The rules for this defense are specified by the Office of the Dean of Graduate Education. Neither a foreign language nor a minor is required for the PhD. However, the student's supervising committee may impose these or other requirements that it feels are necessary and appropriate to the student's degree program.

Areas of Research

The principal concentration areas for the Telecommunications Engineering graduate program are:

Core and wireless networks
Communications and signal processing
Network design and protocols
Embedded and reconfigurable systems
Optical and photonic devices, materials and systems
Fault-tolerant data networks

Doctoral level research opportunities include: VLSI design, reconfigurable systems, system architecture, fault-tolerant computing, digital signal processing, digital communications, modulation and coding, electromagnetic-wave propagation, fiber and integrated optics, lasers and optoelectronic devices, optical transmission systems, optical networks, wireless communications, mobile IP, wireless multimedia, DWDM networks, QoS assurance protocols, network design and optimization, ad-hoc and PCS wireless networks, network security and high speed transmission protocols.

Interdisciplinary Opportunities

In keeping with the established tradition of research at UT Dallas, the Telecommunications Engineering Program encourages students to interact with researchers in the strong basic sciences and mathematics. Cross disciplinary collaborations have been established with faculty across various departments (e.g. CS, BE, ME) and schools (e.g. Management, Natural Sciences, Brain & Behavioral Science).

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PhD Information and Communication Systems

The University of Surrey’s  Institute for Communication Systems  (ICS), home of the 5G/6G Innovation Centre (5G/6GIC), is the one of the UK’s major academic research centres specialising in information and communications technology.

Key course information

October 2024 - full-time, october 2024 - part-time, january 2025 - full-time, january 2025 - part-time, april 2025 - full-time, april 2025 - part-time, july 2025 - full-time, july 2025 - part-time, why choose this programme.

You’ll be taught by leading experts in the field, become part of our thriving community of academics, researchers and PhD students, and gain excellent employment prospects.

We’re specialists in mobile and wireless technologies, including satellite communications and networks, internet of things, cyber security, and future network architectures and protocols. As home to the 5G/6GIC, we’re recognised as world leaders in end-to-end research and practical implementation for 5G/6G mobile communications and beyond.

Our strong track record in research includes high-quality publications, patents and world-class implementations. We’re heavily involved in collaborative research across the UK, Europe, Asia and the Americas, funded by governments and industry. Our PhD graduates secure good positions across industry and academia in the UK and worldwide.

Shanghai Ranking’s Academic Ranking of World Universities (ARWU) 2023 ranked our telecommunication engineering subjects as 51-75 best in the world.

Programme details Open

What you will study.

It normally takes three to four years of full-time study to complete this PhD. Your research can be based on a topic of your choice, or may be dictated by industry sponsorship or government funding.

You’ll be assigned two supervisors, who’ll guide you through your studies. Your supervisors will give you direction and experience of the cutting-edge technologies in their areas of expertise. They’ll also give you the support you need to complete your PhD, from giving you guidance and feedback on your work to helping you frame your research proposal. Though you’ll primarily be in contact with your two supervisors, you’ll also work with other staff within ICS and you may have the opportunity to become a team member on research projects.

You’ll be required to write a confirmation report on your research in your first year, and you will be examined by two examiners.

Your final assessment will be based on the presentation of your research in a written thesis, which will be discussed in a viva examination with at least two examiners. You have the option of preparing your thesis as a monograph (one large volume in chapter form) or in publication format (including chapters written for publication), subject to the approval of your supervisors.

Stag Hill is the University's main campus and where the majority of our courses are taught.

Research areas Open

Research themes.

We research areas related to information and communication technology, including end-to-end terrestrial, mobile and satellite communications and networks, and their application to verticals such as connected vehicles and health, including:

5G-Advanced and 6G
Integrated satellite and terrestrial 5G and 6G
Artificial intelligence networking and wireless communications
Reflective and transmissive intelligent surfaces
THz communications and components
Positioning and image sensing
High-quality time and frequency transmission
Teleportation
Connected transportation
Ultra-Massive MIMO
Terabits-per-second communications
Internet of senses
Network and physical layer security
Intelligent and high-performance networking and service delivery
MAC, RRM and RAN management
Theory and practice of advanced concepts in wireless communications
Antennas and signal processing.

Research centres and groups

Advanced Technology Institute
Centre for Vision, Speech and Signal Processing
Institute for Communication Systems
Nanoelectronics Centre

Academic staff Open

See a full list of all our academic staff within the Institute for Communication Systems.

Support and facilities Open

Research support.

The professional development of postgraduate researchers is supported by the Doctoral College , which provides training in essential skills through its Researcher Development Programme of workshops, mentoring and coaching. A dedicated postgraduate careers and employability team will help you prepare for a successful career after the completion of your PhD.

You’ll be allocated space in ICS, which is home to 143 researchers. ICS is one of the world’s major academic research centres dedicated to mobile and wireless communications. You’ll have access to state-of-the-art facilities such as:

Campus-wide 5G/6G testbed
Antennas and signal processing
Networks lab testbed
Link and system level simulators
Satellite networking testbed
Security testbed
Wireless network testbed
Internet of things testbed.

Hear from our students Open

Melika Emami

Student - Information and Communication Systems PhD

"Having an experienced supervisor in my research area has been invaluable to me throughout my PhD journey... their unwavering support and encouragement have significantly boosted my self-confidence, especially in times when I needed it the most."

Ryan Fernandez

"I knew Surrey would be a good place to do a PhD as the Institute for Communication Systems is a world-leading research centre with an outstanding reputation."

Entry requirements Open

Select your country, international students in the united kingdom.

Applicants are expected to hold a first or upper second-class (2:1) UK degree in a relevant discipline (or equivalent overseas qualification), or a lower-second (2:2) UK degree plus a good UK masters degree - distinction normally required (or equivalent overseas qualification).

English language requirements

IELTS Academic: 6.5 or above (or equivalent) with 6.0 in each individual category.

These are the English language qualifications and levels that we can accept.

If you do not currently meet the level required for your programme, we offer intensive pre-sessional English language courses , designed to take you to the level of English ability and skill required for your studies here.

Selection process

Selection is based on applicants:

Meeting the expected entry requirements
Being shortlisted through the application screening process
Completing a successful interview
Providing suitable references.

Fees and funding Open

Fees per year.

Explore UKCISA’s website for more information if you are unsure whether you are a UK or overseas student. View the list of fees for all postgraduate research courses.

Annual fees will increase by 4% for each year of study, rounded up to the nearest £100 (subject to legal requirements).
Any start date other than September will attract a pro-rata fee for that year of entry (75 per cent for January, 50 per cent for April and 25 per cent for July).

Additional costs

There are additional costs that you can expect to incur when studying at Surrey.

A Postgraduate Doctoral Loan can help with course fees and living costs while you study a postgraduate doctoral course.

Application process

Applicants are advised to contact potential supervisors before they submit an application via the website. Please refer to section two of our application guidance .

After registration

Students are initially registered for a PhD with probationary status and, subject to satisfactory progress, subsequently confirmed as having PhD status.

Apply online

To apply online first select the course you'd like to apply for then log in.

Select your course

Choose the course option you wish to apply for.

Create an account and sign into our application portal.

Information and Communication Systems PhD

Full-time, October 2024

Part-time, October 2024

Full-time, January 2025

Part-time, January 2025

Full-time, April 2025

Part-time, April 2025

About the University of Surrey

Accommodation

We have a range of housing to suit all requirements and budgets. There are more than 6,000 rooms available (en-suite, single-sex, studio flat, shared or single).

Student life

At Surrey we offer a friendly university campus set in beautiful countryside, with the convenience and social life of bustling Guildford on your doorstep.

Need more information?

Contact our Admissions team or talk to a current University of Surrey student online.

Next open day

Next campus tour, code of practice for research degrees.

Surrey’s postgraduate research code of practice sets out the University's policy and procedural framework relating to research degrees. The code defines a set of standard procedures and specific responsibilities covering the academic supervision, administration and assessment of research degrees for all faculties within the University.

Download the code of practice for research degrees (PDF) .

Terms and conditions

When you accept an offer to study at the University of Surrey, you are agreeing to follow our policies and procedures , student regulations , and terms and conditions .

We provide these terms and conditions in two stages:

First when we make an offer.
Second when students accept their offer and register to study with us (registration terms and conditions will vary depending on your course and academic year).

View our generic registration terms and conditions (PDF) for the 2023/24 academic year, as a guide on what to expect.

This online prospectus has been published in advance of the academic year to which it applies.

Whilst we have done everything possible to ensure this information is accurate, some changes may happen between publishing and the start of the course.

It is important to check this website for any updates before you apply for a course with us. Read our full disclaimer .

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Course type

Qualification, university name, phd degrees in telecommunications.

6 degrees at 5 universities in the UK.

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Optical Communications PhD

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Optical Communications with research interests in Advanced optical communications systems for long-haul core networks Optical networking Read more...

3 years Full time degree: £4,712 per year (UK)

Information and Communication Systems PhD

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Why choose this programme The University of Surrey’s Institute for Communication Systems (ICS), home of the 5G/6G Innovation Centre Read more...

4 years Full time degree: £4,712 per year (UK)
8 years Part time degree: £2,356 per year (UK)

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We welcome applications from well-qualified and motivated students for PhD study (three years full-time, four to six years Read more...

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Course type:

Full time PhD
Part time PhD

Qualification:

Related subjects:.

Doctor of Philosophy in Telecommunications Engineering

Upon successful completion of the PhD in Telecommunications Engineering, graduates will be able to enter the workforce with the following skills:

Advanced understanding of Telecommunication Engineering
Ability to propose and develop novel solutions to Telecommunication Engineering problems
Ability to lead original research and development in Telecommunication Engineering
Ability to teach/mentor in the Telecommunication Engineering field

University of Texas at Dallas

Telecommunication engineering.

Description

Requirement, program overview.

Career Opportunities

Documentation of the student having a bachelor’s degree or its equivalent.
Course transcripts show a grade point average (GPA) in undergraduate-level coursework of 3.0 or better on a 4.0-point scale.
Test Scores: Both GRE math and verbal scores are required for admission.
Letters of Recommendation: Applicants must submit three letters of recommendation from individuals able to judge the candidate’s potential for success in the master’s degree program.
Admissions Essay: Applicants must submit a “statement of purpose” essay outlining their academic interests and career goals.
International applicants must submit a TOEFL score of at least 80 on the internet-based test. Scores must be less than two years old. See the Graduate Catalog for additional information regarding English proficiency requirements for international applicants.

Addition Information

$19,496 per semester

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PhD positions in Engineering (257)

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(Valid from 15/01/2024 to 30/06/2024) Language: English (UK) Country: Luxembourg Organisation data: Interdisciplinary Centre of Security, Reliability and Trust Job Number: UOL06196 Contract Type: Fixed Term Contract Duration 36 Month Schedule ...

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5 PhD Degrees in Engineering Studies Electrical Engineering Telecommunication Engineering 2024

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PhD Degrees in Engineering Studies Electrical Engineering Telecommunication Engineering

Telecommunication engineering is a dynamic field that studies computer sciences and electrical engineering in order to have an understanding of how telecommunication systems work. Coursework can include networks, fiber optics, routing and circuit design as well as the political, managerial and ethical ramifications of these systems.

Requirements for the PhD program often involve the student having already obtained a Master’s degree. Additionally, a thesis or dissertation primarily consisting of original academic research must be submitted. In some countries, this work may even need to be defended in front of a panel.

Electrical Engineering PhD

The Electrical Engineering PhD program studies systems that sense, analyze, and interact with the world. You will learn how this practice is based on fundamental science and mathematics, creating opportunities for both theoretical and experimental research. Electrical engineers invent devices for sensing and actuation, designing physical substrates for computation, creating algorithms for analysis and control, and expanding the theory of information processing. You will get to choose from a wide range of research areas such as circuits and VLSI, computer engineering and architecture, robotics and control, and signal processing.

Electrical engineers at SEAS are pursuing work on integrated circuits for cellular biotechnology, millimeter-scale robots, and the optimization of smart power groups. Examples of projects current and past students have worked on include developing methods to trace methane emissions and improving models for hurricane predictions.

APPLY NOW >

PhD in Electrical Engineering Degree

Harvard School of Engineering offers a Doctor of Philosophy (Ph.D.) degree in Engineering Sciences: Electrical Engineering , conferred through the Harvard Kenneth C. Griffin Graduate School of Arts and Sciences (Harvard Griffin GSAS). Prospective students apply through the Harvard Griffin GSAS. In the online application, select “Engineering and Applied Sciences” as your program choice and select " PhD Engineering Sciences: Electrical Engineering ."

The Electrical Engineering program does not offer an independent Masters Degree.

Electrical Engineering PhD Career Paths

Graduates of the program have gone on to a range of careers in industry in companies such as Tesla, Microsoft HoloLens, and IBM. Others have positions in academia at the University of Maryland, University of Michigan, and University of Colorado.

Admissions & Academic Requirements

Prospective students apply through the Harvard Kenneth C. Griffin Graduate School of Arts and Sciences (Harvard Griffin GSAS). In the online application, select “Engineering and Applied Sciences” as your program choice and select "PhD Engineering Sciences: Electrical Engineering." Please review the admissions requirements and other information before applying. Our website also provides admissions guidance , program-specific requirements , and a PhD program academic timeline .

Academic Background

Applicants typically have bachelor’s degrees in the natural sciences, mathematics, computer science, or engineering. In the application for admission, select “Engineering and Applied Sciences” as your degree program choice and your degree and area of interest from the “Area of Study“ drop-down. PhD applicants must complete the Supplemental SEAS Application Form as part of the online application process.

Standardized Tests

GRE General: Not Accepted

Electrical Engineering Faculty & Research Areas

View a list of our electrical engineering faculty and electrical engineering affiliated research areas , Please note that faculty members listed as “Affiliates" or "Lecturers" cannot serve as the primary research advisor.

Electrical Engineering Centers & Initiatives

View a list of the research centers & initiatives at SEAS and the electrical engineering faculty engagement with these entities .

Graduate Student Clubs

Graduate student clubs and organizations bring students together to share topics of mutual interest. These clubs often serve as an important adjunct to course work by sponsoring social events and lectures. Graduate student clubs are supported by the Harvard Kenneth C. Griffin School of Arts and Sciences. Explore the list of active clubs and organizations .

Funding and Scholarship

Learn more about financial support for PhD students.

How to Apply

Learn more about how to apply or review frequently asked questions for prospective graduate students.

In Electrical Engineering

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PhD Telecommunications Engineering

Background information.

State the Aims and Objectives of the programme as fit into the mission and plans of the institution and national demand for the programme.

The programme aims to give students the skills and specialist knowledge required to significantly enhance their career prospects in research and in Academia relating to the field of Telecommunication Engineering.

In pursuit of the above aim, the following objectives will be carried out, namely, to:

provide students with deep knowledge in theoretical framework of a broad spectrum of topics relating to Telecommunication Systems and Engineering;
provide graduates with the skill to carry out far-reaching research in Telecommunication Engineering related topics; and
develop new technologies for improved Telecommunication Systems Operation.

The programme will develop the Telecommunication Engineering skills of students through expert teaching and extensive research work undertaken in collaboration with industrial partners.

Students’ admission, progression and graduation

General qualifications.

MSc/MEng/MPhil degree in Electrical & Electronic Engineering, Telecommunication Engineering and Computer Engineering disciplines from a recognised University. Applicants with degrees from closely related disciplines such as MSc/Meng/MPhil in Electronics or Physics could also be considered.

Programme Requirements

In addition to the general qualification, candidates must pass an interview.

Qualifications for retention

A student must register the required courses during each semester and attend lectures in order to continue in the programme.

Requirements For Graduation

For the award of the PhD degree, the student must have

passed all taught courses.
achieved a minimum of 90 credits hours.
obtained a minimum pass mark of 50% in any examination.
obtained a minimum cumulative weighted average (CWA) of 55.00 (for taught courses and seminars)
Passed a comprehensive examination in a maximum of two sitting and
submitted and successfully defended a Thesis.

Employment:

Employment opportunities exist for graduates of this programme in the following areas:

Electronics and Communication Research Institutes
Research in Mobile Communication Services
Research in Networking Industry
Research for Third Party Service Providers such as Huawei, Eaton, ATC and Helios
Clients such as banks and other institutions requiring telecom services
Teaching and research institutions.
Self employment

MODE OF APPLICATION

Applicants (International) must apply online. International applicants who are admitted will be required to pay an application fee of USD 200.00 before registration.
Candidates should proceed to online admissions website: KNUST Application Portal and begin the application process.
Once the process has been completed, candidates MUST PRINT OUT 2 COPIES of the completed application form from the portal and submit them (by post) to the School of Graduate Studies together with all relevant documents (Photocopies of Certificates, Recommendation Letters, and Transcript for those attending KNUST for the first time) to the following address:

The Secretary School of Graduate Studies KNUST Kumasi-Ghana

KNUST Engineering Education Project College of Engineering Private Mail Bag - University Post Office Kumasi - Ghana

[email protected]

+233 322 49 2919

Useful Links

The university.

College of Engineering

Telecommunication networks.

The Master of Science in Telecommunication Networks is designed for professionals currently in the dynamic, exciting, and thriving telecommunications industry who either wish to enhance their technical skills and credentials or who wish to make a transition to the business side of telecommunications.

You are pursuing a career in telecommunications, and now your big challenge is mapping out a professional direction. The Master of Science in Telecommunication Networks can help you meet the challenge. The program is designed to help current and future telecom and networking professionals enhance their skills and credentials, deepen their telecommunications knowledge base, and/or extend their professional expertise to business management or marketing. One of only a very few programs nationwide to take a truly multidisciplinary approach to telecommunications and networking, this program combines resources from graduate programs in the College of Engineering, the Khoury College of Computer Sciences, and the D'Amore-McKim School of Business. For students in the early stages of their telecom and networking career, Northeastern University’s renowned graduate co-op program allows students to work for six to eight months in the telecom industry as part of their program of study.

More Details

Unique features.

This program meets F-1 international student status requirements
Can be combined with a Gordon Engineering Leadership certificate
The graduate co-op program allows students to work for six to eight months in the telecom industry
Multidisciplinary program allows students to pursue elective courses in engineering, computer and information sciences, and business administration

Looking for something different?

A graduate degree or certificate from Northeastern—a top-ranked university—can accelerate your career through rigorous academic coursework and hands-on professional experience in the area of your interest. Apply now—and take your career to the next level.

Program Costs

Finance Your Education We offer a variety of resources, including scholarships and assistantships.

How to Apply Learn more about the application process and requirements.

Requirements

Completed online application form
Application fee
Two letters of recommendation
Transcripts from all institutions attended
GRE is not required for terms starting during the 2021-2022, 2022-2023, or 2023-2024 academic years
Statement of purpose
TOEFL, IELTS, or Duolingo for international applicants
Undergraduate degree in engineering, mathematics, physics, or computer science

Are You an International Student? Find out what additional documents are required to apply.

Admissions Details Learn more about the College of Engineering admissions process, policies, and required materials.

Admissions Dates

Applications received after the stated deadline dates will be accepted and processed as quickly as possible; however it may not be possible to have a decision rendered in time for the applicant to begin taking classes for the desired term if admitted.

Applications submitted by the referenced dates will receive full consideration for the referenced term. Applications received after the referenced dates will be considered on a case-by-case basis.

Industry-aligned courses for in-demand careers.

For 100+ years, we’ve designed our programs with one thing in mind—your success. Explore the current program requirements and course descriptions, all designed to meet today’s industry needs and must-have skills.

View curriculum

Northeastern combines rigorous academics with experiential learning and research to prepare students for real-world engineering challenges. The cooperative education program, also known as co-op, is one of the largest and most innovative in the world, and Northeastern is one of only a few that offers a co-op program for graduate students. Through this program, students gain up to eight months of professional experience employed in their field of interest as part of the academic curriculum, giving them a competitive edge upon graduation. The College of Engineering has over 2,000 co-op employer partners globally. Our dedicated team of co-op coordinators prepare students for the co-op experience through resume building, developing interview skills, and guiding professional development.

Our Faculty

Northeastern University faculty represents a broad cross-section of professional practices and fields, including finance, education, biomedical science, management, and the U.S. military. They serve as mentors and advisors and collaborate alongside you to solve the most pressing global challenges facing established and emerging markets.

Rolando Herrero

By enrolling in Northeastern, you’ll gain access to students at 13 campus locations, 300,000+ alumni, and 3,000 employer partners worldwide. Our global university system provides students unique opportunities to think locally and act globally while serving as a platform for scaling ideas, talent, and solutions.

Below is a look at where our Engineering alumni work, the positions they hold, and the skills they bring to their organization.

Where They Work

GE Aviation
Bose Corporation

What They Do

Engineering
Business Development
Program and Project Management
Entrepreneurship

What They're Skilled At

Project Management
Manufacturing

Learn more about Northeastern Alumni on Linkedin .

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Specific requirements

To get admission to the MASTEAM program, candidates must also fulfill the following specific admission requirements and criteria .

Telecommunications Systems
Telematics (Computer Networks)
Electronic Systems
Audiovisual Systems
Science & Technologies of Telecommunications
Alternatively, candidates may access with an official MSc Degree in Telecommunications or ICT Engineering.
Any of the aforementioned degrees must have been obtained in an educational institution from a state belonging to the European Higher Education Area (EHEA).
With complementary coursework, other engineering degrees from EHEA or Telecommunications/ICT engineering degrees from outside EHEA . An Admission Committee will review the applications and may propose complementary coursework.
Language requirements: Official English language certification – Level B2 or higher according to the CEFR.

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May 13, 2024

Multifaceted Purdue program focuses on strategic defense technologies and engineering

Online degree and certificates are designed for working professionals in national defense

WEST LAFAYETTE, Ind. — A multifaceted, interdisciplinary defense technology- and engineering-oriented program from Purdue University is designed to serve professionals in the field of national defense whether they are seeking an advanced degree or a quick skill set upgrade.

The new program and courses are available in noncredit and degree-seeking pathways. The newest program offering, the noncredit certificate in strategic defense technologies , is now available for learners to take courses individually or to earn the certificate as a whole. A related concentration option is available for professionals admitted into Purdue’s online interdisciplinary Master of Science in Engineering . A graduate certificate is set to launch in spring 2025.

All the options combine history; strategy; and social, military, and data sciences with engineering and technology in a new way. They provide learners with knowledge and competencies needed to analyze, understand, design and execute defense and civilian strategies that involve technologies supporting the strategic interests of the United States.

“Purdue is uniquely qualified to train military and civilian learners interested in strategic defense technologies,” said Sorin Adam Matei, professor and the associate dean of research and graduate education in the College of Liberal Arts. “While our program examines and explores technologies and engineering solutions, it does it from a policy and social sciences perspective, both calibrated to support and expand practical work in national defense and strategic military planning.”

The program was created by the experts grouped around the FORCES research incubator, a Purdue College of Liberal Arts initiative that brings social sciences and humanities expertise to bear on the nation’s strategic defense needs.

Core courses titled Grand Challenges in Defense Engineering; Space Strategy; Strategic Foresight; Technology, War and Strategy; and Data and AI Storytelling are embedded across the program.

To earn the Strategic Defense Technologies certificate, learners complete the Technology, War and Strategy course and two of the other four core courses, but all the courses can be taken individually outside of the certificate program. The courses are self-paced and there are no prerequisites.

“This allows you to pick up the knowledge that you need when you need it,” Matei said. “We want to provide a just-in-time type of education.”

All students in the strategy and defense engineering concentration of Purdue’s 100% online interdisciplinary engineering master’s degree must take Technology, War and Strategy and either Grand Challenges in Defense Engineering or Space Strategy, and choose two courses from among Data and AI Storytelling, Strategic Foresight, and a course titled Ethical Reasoning in Defense Technology. Master’s students can then draw on an extensive collection of electives to fill out the 30-credit hour program and to customize their educational experience to their interests and needs. Admission to the master’s program requires a bachelor’s degree in engineering or in another STEM field. Purdue’s online engineering master’s programs are ranked No. 3 nationally by U.S. News & World Report .

The noncredit certificate and courses, master’s degree, and planned graduate certificate are designed for midcareer military and civilian personnel in the Department of Defense ecosystem, including employees of DOD contractors, staff members for policymakers as well as think tanks and other nongovernmental organizations, and graduate students planning to pursue defense-oriented professions.

The anytime, anywhere online format makes it accessible for working professionals looking to boost their careers. Created by expert Purdue instructional designers, the courses are structured to move learners smoothly through the curriculum as they gain new knowledge and skills.

Faculty who teach on Purdue’s flagship campus, rated as a top 10 public university in the U.S. by QS World University Rankings, along with subject matter experts, developed and teach in the program. The instructors have worked or are working in fields as diverse as diplomacy, learning innovation, nuclear military applications and space policy.

“All our instructors are people with vast practical experience who have an ear to the ground,” Matei said. “Our courses are regularly updated and checked against reality.”

One of the country’s leading educational institutions for defense-related research and teaching, Purdue is committed to helping the United States remain a world leader in defense technologies.

For more information on the interdisciplinary Master of Science in Engineering degree with a concentration in strategy and defense engineering, visit the master’s program website . To learn more about the noncredit certificate in strategic defense technologies, visit the certificate program website .

Writer: Greg Kline, [email protected]

Media contact: Tim Doty, [email protected]

Sources: Sorin Adam Matei, [email protected]

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Order of Lenin Moscow Air Defence District

Ордена Ленина Московский округ ПВО

Military Unit: 64178

Commanders:

Marshal of the Soviet Union Kirill Semenovich Moskalenko, 1948 - 1953
Colonel-General Nikolay Nikiforovich Nagornyy, 1953 - 1954
Marshal of the Soviet Union Pavel Fedorovich Batitskiy, 1954 - 7.66
Colonel-General Vasiliy Vasilevich Okunev, 7.66 - 8.70
Marshal of Aviation Aleksandr Ivanovich Koldunov, 8.70 - 1975
Colonel-General Boris Viktorovich Bochkov, 1975 - 1980
Marshal of Aviation Anatoliy Ustinovich Konstantinov, 1980 - 1987
Colonel-General Vladimir Georgievich Tsarkov, 1987 - 1989
General of the Army Viktor Alekseevich Prudnikov, 1989 - 8.91
General of the Army Anatoliy Mikhaylovich Kornukov, 8.91 - 1998
Colonel-General G.B. Vasilev, 1998 - 2002
Colonel-General Yuriy V. Solovev, from 2002

Activated 1948 in Moscow, Moscow Oblast, as the Moscow Air Defence Region , from the North-Western Air Defence District.

1950 renamed Moscow Air Defence District .

Organisation 1955:

37th Fighter Aviation Corps PVO (Morsansk, Tambov Oblast)
56th Fighter Aviation Corps PVO (Yaroslavl, Yaroslavl Oblast)
78th Guards Fighter Aviation Corps PVO (Bryansk, Bryansk Oblast)
88th Fighter Aviation Corps PVO (Rzhev, Kalinin Oblast)
151st Guards Fighter Aviation Division PVO (Klin, Moscow Oblast)
38th independent Reconnaissance Aviation Squadron (Rzhev, Kalinin Oblast)
182nd independent Reconnaissance Aviation Squadron
90th independent Transport Aviation Squadron (Stupino, Moscow Oblast)
1st Guards Anti-Aircraft Artillery Division (Maryino-Znamenskoye, Moscow Oblast)
52nd Anti-Aircraft Artillery Division (Biryulevo, Moscow Oblast)
74th Anti-Aircraft Artillery Division (Mytishchi, Moscow Oblast)
76th Anti-Aircraft Artillery Division (Skolkovo, Moscow Oblast)
78th Anti-Aircraft Artillery Division (Gorkiy, Gorkiy Oblast)
80th Anti-Aircraft Artillery Division (Moscow (Lenin Hills), Moscow Oblast)
96th Anti-Aircraft Artillery Division (Panki, Moscow Oblast)
48th Anti-Aircraft Artillery Regiment (Yaroslavl, Yaroslavl Oblast)
80th Guards Anti-Aircraft Artillery Regiment (Tula, Tula Oblast)
108th Anti-Aircraft Artillery Regiment (Voronezh, Voronezh Oblast)
387th Anti-Aircraft Artillery Regiment (Sarov, Gorkiy Oblast)
389th Anti-Aircraft Artillery Regiment (Bezhitsa, Bryansk Oblast)
393th Guards Anti-Aircraft Artillery Regiment (Elektrostal, Moscow Oblast)
532nd Anti-Aircraft Artillery Regiment (Smolensk, Smolensk Oblast)
1225th Anti-Aircraft Artillery Regiment (Gorkiy, Gorkiy Oblast)
1287th Anti-Aircraft Artillery Regiment (Shcherbaki, Kalinin Oblast)
92nd independent Regiment for Radar Countermeasures (Moscow, Moscow Oblast)

Organisation 1962:

118th Communications Center (Moscow, Moscow Oblast)
6th independent Radio-Technical Regiment (Klin, Moscow Oblast)
436th independent Transport Aviation Regiment (Stupino, Moscow Oblast)
103rd independent Communications and Radio-Technical Support Company (Stupino, Moscow Oblast)
2367th independent Radio-Relay Battalion (Nemchinovka, Moscow Oblast)
52nd independent Airfield Engineer Battalion (Kosterevo, Moscow Oblast)
1470th independent Engineer Battalion (Elektrostal, Moscow Oblast)
193rd independent Transport Battalion (Moscow, Moscow Oblast)
1st Air Defence Army for Special Use (Balashikha, Moscow Oblast)
2nd Air Defence Corps (Rzhev, Rzhev Oblast)
3rd Air Defence Corps (Yaroslavl, Yaroslavl Oblast)
7th Air Defence Corps (Bryansk, Bryansk Oblast)
18th Air Defence Division (Gorkiy, Gorkiy Oblast)

Awarded the Order of Lenin 22.6.68.

Organisation 1970:

16th Air Defence Corps (Gorkiy, Gorkiy Oblast)

Organisation 1980:

712th Data Center (Moscow, Moscow Oblast)

Organisation 1988:

1998 renamed Moscow Air Force and Air Defence District.

2002 renamed Special Purpose Troop Command.

Moscow, Moscow Oblast, 1948 - today [55 45 59N, 37 38 22E]

Subordination:

GK PVO, 1948 - 7.98
GK VVS and PVO, 7.98 - today

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Multifaceted Purdue program focuses on strategic defense technologies
A related concentration option is available for professionals admitted into Purdue's online interdisciplinary Master of Science in Engineering. A graduate certificate is set to launch in spring 2025. All the options combine history; strategy; and social, military, and data sciences with engineering and technology in a new way.
Order of Lenin Moscow Air Defence District
Ордена Ленина Московский округ ПВО. Activated 1948 in Moscow, Moscow Oblast, as the Moscow Air Defence Region, from the North-Western Air Defence District. 1950 renamed Moscow Air Defence District. Awarded the Order of Lenin 22.6.68. 1998 renamed Moscow Air Force and Air Defence District. 2002 renamed Special ...