UT Grad Cat, 97-99


Contents

Chapter 1

Chapter 2

Chapter 3

Chapter 4

Chapter 5

Appendix


 


 


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Registrar's Web Team
19 August 1997



   Chapter Four - Fields of Study

 Architectural Engineering
 About the Program  Graduate Studies Committee  Courses


The faculty has approval to offer the following courses in the academic years 1997-1998 and 1998-1999; however, all courses are not taught each semester or summer session. Students should consult the Course Schedule to determine which courses and topics will be offered during a particular semester or summer session. The Course Schedule may also reflect changes that have been made to the courses listed here since this catalog was published.

Unless otherwise stated below, each course meets for three lecture hours a week for one semester.

Architectural Engineering: ARE

382. Independent Studies in Architectural Engineering.
Investigation of problems in building construction, selected by the student with approval of the graduate adviser. The equivalent of three lecture hours a week for one semester. May be repeated for credit when the topics vary. Offered on the credit/no credit basis only. Prerequisite: Graduate standing in architectural engineering and consent of the graduate adviser.

Topic 1: Construction and Project Management.

Topic 2: Structures.

Topic 3: Materials and Methods.

Topic 4: Environmental Engineering.

Topic 5: Design Principles and Procedures.

383. Research Studies in Architectural Engineering.
Three lecture hours a week for one semester, or the equivalent in conference hours, or as stated for the topic. May be repeated for credit when the topics vary. Some topics are offered on the credit/no credit basis only; these are identified in the Course Schedule. Prerequisite: Graduate standing and consent of instructor.

Topic 1: Construction and Project Management.

Topic 2: Structures.

Topic 3: Materials and Methods.

Topic 4: Forensic Engineering: Materials and Structures.
Same as Civil Engineering 397F. Methods of forensic analysis; role of the expert witness; methods of dispute resolution; case studies; term project. Two lecture hours a week for one semester, with three laboratory hours a week for presentation of case studies.

Topic 5: Advanced Masonry Engineering.
Properties of masonry, differential movement, construction operations, bearing wall systems, and case histories of failures.

Topic 6: Design of Wood Members and Systems.
Same as Civil Engineering 397 (Topic 14: Design of Wood Members and Systems). Design and behavior of solid wood and glued-laminated wood structural members; light-frame and heavy timber systems, including trusses and arches.

Topic 7: Evaluation, Materials, and Techniques for Concrete Repair.
Same as Civil Engineering 397 (Topic 16: Evaluation, Materials, and Techniques for Concrete Repair). Causes of distress, evaluation methods, repair materials, repair techniques, and quality control methods for repair of concrete. Three lecture hours a week for one semester, with one and one-half additional hours a week for guest speakers.

395P. Project Automation.
May be repeated for credit when the topics vary. Prerequisite: Graduate standing and consent of instructor.

Topic 1: Construction Graphical Simulation.
Same as Civil Engineering 395P (Topic 1: Construction Graphical Simulation). Application of computer graphics to three-dimensional simulation of construction activities: hardware, two-and three-dimensional primitives, and graphic algorithms. Students use simulation programs and C programming in applicationdevelopment.

Topic 2: Introduction to Construction Automation.
Same as Civil Engineering 395P (Topic 2: Introduction to Construction Automation). Construction automation activities, methods for opportunity identification and financial analysis of automated systems, and tools from several disciplines that are used in construction automation; students prepare a project that synthesizes this information.

395Q. Project Controls.
Three lecture hours a week for one semester. Some topics require two lecture hours and three laboratory hours a week; these are identified in the Course Schedule. May be repeated for credit when the topics vary. Prerequisite: Graduate standing and consent of instructor.

Topic 3: Project Quality Assurance and Control.
Same as Civil Engineering 395Q (Topic 3: Project Quality Assurance and Control). The essentials of quality assurance and quality control in project design and construction. Subjects include quality definition/objectives, the role people play in quality, quality assurance plans, quality control systems, cost of quality, specifications, inspection, tests, documentation, and corrective actions.

395R. Project Information Systems.
May be repeated for credit when the topics vary. Prerequisite: Graduate standing and consent of instructor.

Topic 1: Expert Systems for CEPM.
Same as Civil Engineering 395R (Topic 1: Expert Systems for CEPM). Introduction to logic foundations, knowledge acquisition, knowledge representation, expert system shells, applications, and development of expert systems for construction/engineering management.

Topic 5: Artificial Intelligence for CEPM.
Same as Civil Engineering 395R (Topic 5: Artificial Intelligence for CEPM). Introduction to basic concepts in artificial intelligence and LISP programming. Topics include theory and application of expert systems, neural nets, and fuzzy logic to construction engineering and project management. Two lecture hours and two laboratory hours a week for one semester. Additional prerequisite: A course in computer programming.

395S. Project Organization.
May be repeated for credit when the topics vary. Prerequisite: Graduate standing and consent of instructor.

Topic 4: Project Management.
Same as Civil Engineering 395S (Topic 4: Project Management). Overall aspects of project management from inception to successful operation: establishing product objectives, feasibility analyses, scope definition, contracting methods, project control systems, and project execution planning. Architectural Engineering 385 (Topic 1: Project Management) and 395S (Topic 4) may not both be counted.

Topic 5: Public Sector Project Management.
Same as Civil Engineering 395S (Topic 5: Public Sector Project Management). The application of innovative and state-of-the-art project management approaches to public sector construction projects. Architectural Engineering 385N (Topic: Public Sector Project Management) and 395S (Topic 5) may not both be counted.

395T. Project Technology.
May be repeated for credit when the topics vary. Prerequisite: Graduate standing and consent of instructor.

Topic 1: Advanced Construction Technologies.
Same as Civil Engineering 395T (Topic 1: Advanced Construction Technologies). Survey of historical trends and recent developments in advanced construction technologies, including materials, methods, equipment, condition assessment, and project designs.

Topic 2: Constructibility and Modularization.
Same as Civil Engineering 395T (Topic 2: Constructibility and Modularization). Principles and methods of project constructibility enhancement; principles and applications of modularization and preassembly; value engineering concepts; techniques in creativity and optimization.

395U. General Topics in Construction Engineering and Project Management.
May be repeated for credit when the topics vary. Prerequisite: Graduate standing and consent of instructor.

Topic 3: Advanced Legal Concepts.
Same as Civil Engineering 395U (Topic 3: Advanced Legal Concepts). Contracts, documentation requirements, claims avoidance, and settlement of claims by alternative dispute resolution. Students conduct and present in-depth studies of the most frequent causes of claims (delay, disruption, acceleration, soil conditions, and changes) and consider the way the court establishes causation and determines damages.

698. Thesis.
The equivalent of three lecture hours a week for two semesters. Offered on the letter-grade basis only. Prerequisite: For 698A, graduate standing in architectural engineering and consent of the graduate adviser; for 698B, Architectural Engineering 698A.

398D. Departmental Report.
Preparation of a report to fulfill the requirement for the Master of Science in Engineering degree under the departmental report option. Individual instruction. Offered on the letter-grade basis only. Prerequisite: Graduate standing in architectural engineering and consent of the supervising professor and the graduate adviser.

398R. Master's Report.
Preparation of a report to fulfill the requirement for the master's degree under the Graduate School report option. The equivalent of three lecture hours a week for one semester. Offered on the letter-grade basis only. Prerequisite: Graduate standing in architectural engineering and consent of the supervising professor and the graduate adviser.


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Graduate Catalog

Contents
Chapter 1: Graduate Study
Chapter 2: Admission and Registration
Chapter 3: Degree Requirements
Chapter 4: Fields of Study
Chapter 5: Members of Graduate Studies Committees
Appendix: Course Abbreviations


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