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In addition, an MS in structural engineering with specialization in structural health monitoring and nondestructive evaluation (MS SHM&NDE) is offered. The specific deliverables associated with the capstone project experience will be proposed by the student together with the SE 296 mentor and will be approved by the director of the MS program by the end of the quarter preceding the one in which the student intends to register in SE 296.
For the MS thesis plan, thirty-six units (nine courses) from regular courses are required, in addition to twelve units of graduate research for the master’s thesis. The following course sequences are included to provide guidance in selecting technical electives based on common themes among the technical electives.
For both MS plans, students are required to complete a minimum of two sequences from the following focus areas: A sequence is composed of three regular courses from the same focus area. Computational Techniques in Finite Elements SE 151B. Although a maximum of eight technical electives (3–4 geotechnical technical electives and 4–5 other technical electives) are required beyond the four required core courses, more classes may be listed for each of the suggested focus sequences based on the common themes.
The department offers a bachelor’s/master’s program to enable students to complete both the BS and MS in an accelerated timeframe. Solid Mechanics for Structural and Aerospace Engineering SE 272. Additionally, the MS SHM&NDE thesis plan involves regular course work (twenty units) and graduate research (eight units) leading to the completion and defense of a master’s thesis. Although there are no foreign language requirements with the MS program in geotechnical engineering, CCGA recognizes that foreign language competence may be an important element of graduate education of doctoral programs.
Undergraduate students in the Department of Structural Engineering who have at least 148 quarter units with a cumulative GPA of 3.5 or higher are eligible to apply. Correspondingly, the MS comprehensive examination plan involves regular course work (twenty-four units) and a mentored independent study (SE 296) capstone course. Two MS plans are offered—the MS comprehensive examination plan and the MS thesis plan.
Professor Andrawes has a clear vision about modernizing Newmark Structural Engineering Laboratory (NSEL).
He is committed to providing strong leadership so our faculty and students may continue to lead in advancing knowledge and developing solutions in structural engineering and civil infrastructure sustainability.The MS program is intended to provide the student with additional fundamental knowledge as well as specialized advanced knowledge in selected structural engineering aspects over and above the undergraduate degree course work. In addition to the forty-eight units, students must take SE 290 every quarter in the first year for the MS comprehensive examination plan and are strongly recommended to take it for at least one quarter in the subsequent year.Two plans, the MS thesis plan and the MS comprehensive examination plan, are offered. The MS thesis plan is designed for students with an interest in research prior to entering a professional career or a doctoral degree program.The courses are SE 200, SE 201A, SE 202, SE 203, SE 241, SE 271, SE 233, or SE 276A. Finite Element Methods in Solid Mechanics II SE 276C. Guidance on selection of the technical electives is provided later.They can be counted toward a focus sequence or a technical elective. Finite Element Methods in Solid Mechanics III SE 277. Finite Element Methods for Computational Fluid Dynamics SE 278B. Meshfree Methods for Linear and Nonlinear Mechanics SE 280. Students may select with approval from the Graduate Affairs Committee any from the following list of other technical electives to meet the twelve required courses beyond the required core courses, geotechnical technical electives, and research graduate credits (if applicable).The examination must be completed no later than the end of the eighth week of the quarter the student intends to graduate. Computational Techniques in Finite Elements SE 276A. In addition to the forty-eight units, students must take SE 290 every quarter in the first year for the MS thesis plan and are strongly recommended to take it for at least one quarter in the subsequent year.MS students will be required to complete two out of seven core course electives. Finite Element Methods in Solid Mechanics I SE 276B. MS students in geotechnical engineering must complete the following four core courses: Students must select with approval from the Graduate Affairs Committee at least four courses (MS comprehensive examination plan) or three courses (MS thesis plan) from the following list of geotechnical technical electives.Acceptance into this program is an honor that carries with it practical benefits—the graduate application process is simplified (no GREs required) and advanced students are given access to graduate level courses. Stability of Earth Slopes and Retaining Walls SE 251A. Mechanical Behaviors of Polymers and Composites SE 252. Mechanics of Laminated Composite Structures I SE 253B. Students must choose between the MS comprehensive examination plan and the MS thesis plan by the end of the second quarter of study.Upon acceptance as an undergraduate into the program, a faculty member will be assigned who will serve as the student’s adviser. Mechanics of Laminated Composite Structures II SE 253C. The MS comprehensive examination plan requires forty-eight units (twelve courses) of regular course work and completion of a written comprehensive examination covering the course work.Admission to the UC San Diego graduate program in structural engineering requires at least a BS in engineering, physical sciences, or mathematics with an overall upper-division GPA of 3.0. The master of science in structural engineering with specialization in structural health monitoring and nondestructive evaluation (SHM&NDE) provides highly interdisciplinary knowledge incorporating three broad technology areas: (1) sensing technology, (2) data interrogation, and (3) modeling and analysis. Structural System Testing and Model Correlation MAE 283A. Principles of Artificial Intelligence: Probabilistic Reasoning and Learning CSE 250B. Signal Processing for Structural Engineering SE 207. Mechanics of Laminated Composite Structures II MAE 273A. Students seeking to pursue the MS program in geotechnical engineering should have an undergraduate degree in structural or civil engineering.Applicants must provide three letters of recommendation and recent GRE general test scores. The intersections and integration of these technology areas are fundamental to supporting structural health monitoring and nondestructive evaluation, which may be defined as the process of making an uncertainty-quantified assessment, based on appropriate analyses of in-situ measured data, about the current ability of a structural component or system to perform its intended design function(s) successfully. Parametric Identification: Theory and Methods CSE 254. Principles of Artificial Intelligence: Learning Algorithms ECE 271A. Fracture Mechanics and Failure Mechanisms [1–2] SE 207. Further, students are required to take SE 181 and SE 182, or their equivalents at another university, as a prerequisite to pursuing the MS degree in geotechnical engineering.