Doctor of Civil Engineering Study Program
Quality Research for Our Country’s Achievements

Fields of Expertise
∎ Structures
∎ Construction Management
∎ Contractor Management
∎ Transportation
Career Path
1. Academician
2. Researcher
3. Practitioner
4. Entrepreneur
Doctor of Civil Engineering Study Program is B-accredited and can be completed within 6 semesters.
The design of learning curriculum is to produce reliable and professional graduates, characterized by the ability to carry out in-depth research and publication of research results in reputation-intensive journals.
Learning process is supported with complete infrastructures, business experts and professionals, Focus Group Discussions (FGD), sharing sessions, and field studies in industry and business. Recognition of Prior Learnings, by course, and by research application programs are also available.

Featured Courses
Course | Description | |
---|---|---|
Numerical Analysis | Students will explore iterative techniques that generate successive approximations converging towards exact solutions. Emphasis is placed on utilizing convergence tests to determine solution accuracy and employing precision arithmetic to control convergence. Examples include Newton's method, bisection method, and Jacobi iteration. In computational matrix algebra, iterative approaches are essential for large-scale problems. Notable methods like GMRES and the companion gradient method are covered, addressing challenges of extensive computation steps for exact solutions. Through this course, students will master essential iterative algorithms vital for tackling complex numerical problems efficiently. | |
Collaps Analysis in Construction | Through this course, students will explore the intricate factors influencing design decisions, including product features and material properties. Dive into the nuances of plastic product design and variations, alongside an in-depth understanding of material formation and its implications on design. Learn techniques for cost estimation and utilize Finite Element Method (FEM) for plasticity analysis. Delve into advanced topics such as pushover analysis, bending of plastic, and damage models for concrete structures. Additionally, gain insights into the design of structural cladding systems and conduct plastic analysis of beams and frames. By the end of this course, students will be equipped with the knowledge and skills to tackle complex design challenges and conduct comprehensive structural analyses in various engineering contexts. | |
Dissertation Preparation Techniques | Dissertation Writing Techniques hone students' skills in writing scientific dissertations in the field of civil engineering. This course covers various aspects of the dissertation writing process, including structuring the dissertation, establishing a clear research question, conducting a comprehensive literature review, analyzing data (if any), and synthesizing findings to produce original insights. Students also learn effective techniques for organizing and presenting their arguments cohesively, adhering to academic conventions, and engaging with relevant civil engineering science. Additionally, emphasis is placed on critical thinking, clarity of expression, and adherence to academic integrity standards. Through guided instruction and hands-on practice, scholars develop the skills to produce well-researched, logistically structured, and intellectually rigorous dissertations that contribute to the advancement of civil engineering scholarship. |
Facilities
News & Achievements
Utilizes Waste as a Filter, Sugito Obtained Doctor of Civil Engineering Untar
Sugito obtained Doctor of Civil Engineering Untar, after succeeded in defending his dissertation relating to the usage of shell and glass waste as fillers in normal concrete and polymer concrete with hot water curing, Wednesday (20/7). "Normal and polymer concrete...