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Master of Advanced Studies (MAS) in Engineering

[ courses ]

https://jacobsschool.ucsd.edu/mas

All courses, faculty listings, and curricular and degree requirements described herein are subject to change or deletion without notice.

Overview of Professional Graduate Degree Programs

The Jacobs School of Engineering offers several professional master’s degree programs designed for working professionals who are seeking to expand their professional expertise and skill sets. These interdisciplinary professional programs are offered through partnerships between engineering departments, research centers and institutes, and partner schools within UC San Diego. Currently offered master of advanced studies programs include:

  • Architecture-Based Enterprise Systems Engineering (AESE)
  • Data Science and Engineering (DSE)
  • Wireless Embedded Systems (WES)

Architecture-Based Enterprise Systems Engineering (AESE)

Program Description

The Department of Mechanical and Aerospace Engineering, in cooperation with the Rady School of Management and the office of engineering executive education, offers the master of advanced studies (MAS) degree in architecture-based enterprise systems engineering. This professional graduate degree program is intended to educate senior engineers and engineering managers on the issues and emerging solution approaches that can enable their enterprises to better respond to the challenges of globally distributed operations in complex, dynamic, event-driven environments. Degree requirements can be completed within four quarters of full-time study.

Admission

The common admission guidelines are:

  • A bachelor’s degree in engineering, science, management, or mathematics
  • Undergraduate/graduate record (a minimum overall GPA of 3.0 or equivalent)
  • Statement of interest
  • Two letters of recommendation
  • TOEFL or TSE scores (foreign applicants only with less than one year of work experience in an English-language environment)

Program of Study

The degree requires nine four-unit core courses totaling thirty-six units, three team project courses (one unit each for a total of three units), and one capstone team project course of three units for a total of forty-two units.

Required Courses

The following courses must be completed by all students:

  • MGT 291. Essentials for Business Practice
  • MGT 406. Leadership Skills, Values, and Teamwork in Technology Firms (Workshop)
  • AESE 241. Decision and Risk Analysis
  • AESE 261. Managing Stakeholder Relationships (Workshop)
  • AESE 278A. Complexity and Large-Scale Systems
  • AESE 278B. Enterprise Architecting
  • AESE 278C. Modeling, Simulation, and Analysis
  • AESE 278D. Engineering Essentials for Open, Distributed Systems (Workshop)
  • AESE 278E. Patterns for Enterprise Architecting
  • AESE 279A. AESE Quarterly Team Project (taken fall, winter, spring quarters; one unit each)
  • AESE 279B. AESE Capstone Team Project (final project; summer; three units)

Capstone (three units total)

Students are required to execute a project with an adviser while enrolled in AESE 279A-B.

Final Project Capstone Requirement, No Thesis

In the architecture-based enterprise systems engineering program, an “alternative plan” requirement is satisfied by a three-unit capstone project requirement.

Data Science and Engineering (DSE)

Program Description

The Department of Computer Science and Engineering, in cooperation with the San Diego Supercomputer Center and the office of engineering executive education, offers the master of advanced studies (MAS) degree in data science and engineering (DSE). The program brings together the skills of software programmer, database manager, and statistician to create mathematical models of the data, identify trends/deviations, and then present them in effective visual ways that can be understood by others. Degree requirements can be completed within six quarters of part-time study.

Admission

The common admission guidelines are:

  • A bachelor’s degree in engineering, science, management, or mathematics
  • Undergraduate/graduate record (a minimum overall GPA of 3.0 or equivalent)
  • Statement of interest
  • Two letters of recommendation
  • TOEFL or TSE scores (foreign applicants only with less than one year of work experience in an English-language environment)

Program of Study

The degree requires nine courses totaling thirty-four units and two capstone team project courses of two units each for a total of thirty-eight units.

Required Courses

The following courses must be completed by all students:

  • DSE 200, four units, Python for Data Analysis
  • DSE 201, four units, Database Management Systems
  • DSE 203, four units, Data Integration and ETL
  • DSE 210, four units, Statistics and Probability Using Python
  • DSE 220, four units, Machine Learning
  • DSE 230, four units, Scalable Data Analysis
  • DSE 241, four units, Data Visualization
  • DSE 250, four units, Beyond Relational Data Models
  • DSE 290, two units, Case Studies in Data Science

Capstone (four units total)

The program requires completion of a capstone project that includes a presentation and final report as documented by completion of the following capstone courses:

  • DSE 260A, two units, Data Science Design Capstone Project
  • DSE 260B, two units, Data Science Design Capstone Project, Continued

Final Project Capstone Requirement, No Thesis

In the data science and engineering program, an “alternative plan” requirement is satisfied by a four-unit capstone project requirement.

Wireless Embedded Systems (WES)

Program Description

The Department of Electrical and Computer Engineering (ECE) and the Department of Computer Science and Engineering (CSE), in partnership with the office of engineering executive education, offers the master of advanced studies (MAS) degree in wireless embedded systems (WES). The program employs a cross-disciplinary education paradigm, designed to provide high-level training for engineering and technical professionals who plan to become technical leaders in this burgeoning field. Students entering the wireless embedded systems professional degree program will undertake courses in systems, software, hardware, and communication theory.

Admission

The common admission guidelines are:

  • A bachelor’s degree in engineering, science, management, or mathematics
  • Undergraduate/graduate record (a minimum overall GPA of 3.0 or equivalent)
  • Statement of interest
  • Two letters of recommendation
  • TOEFL or TSE scores (foreign applicants only with less than one year of work experience in an English-language environment)

Program of Study

The degree requires eight courses totaling thirty-two units of work and one capstone course of four units for a total of thirty-six. All requirements can be completed within seven quarters of part-time study.

Required Courses

The following courses must be completed by all students:

  • WES 237A, four units, Introduction to Embedded Systems Design
  • WES 237B, four units, Software for Embedded Systems
  • WES 237C, four units, Hardware for Embedded Systems
  • WES 265, four units, Wireless Communications Circuits and Systems
  • WES 267, four units, Digital Signal Processing for Wireless Embedded Systems
  • WES 268A, four units, Digital Communications Systems I
  • WES 268B, four units, Digital Communications Systems II
  • WES 269, four units, Codesign of Hardware and Software

Capstone (four units total)

The program requires completion of a capstone project that includes a presentation and final report as documented by completion of the following capstone course:

  • WES 207, four units, Capstone Project: Wireless Embedded Systems

Final Project Capstone Requirement, No Thesis

In the wireless embedded systems program, an “alternative plan” requirement is satisfied by a four-unit capstone project requirement.

Distance Learning

There is an opportunity for taking some courses in the program via distance learning. Distance learning courses are taught in a conventional manner with some students participating from a location outside of UC San Diego, connected to the instructor and classmates via a synchronous, two-way video and audio link. Participation in this modality is limited. Consideration for enrollment in distance learning courses must be discussed with the program directors at the time of application. It must support synchronous video and audio transmission with the ability for students to engage in conversations and answer questions as any student located on-site for the program.

Student with Disabilities

For the program to respond, a student requiring accommodation for disability must make a request for accommodation upon submission of the student’s intent to apply to MAS programs. Declaration of any disability information is not part of the admissions review and will not factor into admission decisions.

Information concerning accommodation requests is available at: http://osd.ucsd.edu/students/registering.html.

For more information on the MAS programs, please visit the program website at: https://jacobsschool.ucsd.edu/mas.