Program Information:Master of Science Degree

Revision as of 23:31, 17 December 2012

Guidelines for Preparing the MS Program Proposal

The Program Proposal form can be found here.

The Program Proposal form must be approved by the student's faculty academic adviser and be submitted to the EE Degree Progress office (Packard 177) prior to the end of the first quarter of enrollment in the program (second quarter for HCP students). The faculty does not prescribe specific courses to be taken. Each student, with the help of their faculty adviser, prepares a program of study to meet his or her particular research interests and submits it to the faculty for approval. Guidelines for course programs that will normally be approved are listed below.

If your plans for meeting the degree requirements change, you must submit a revised program proposal to the department’s student services office for approval early in your final quarter in the program. The University’s minimum requirement for each master's degree is 45 unduplicated units of work done at Stanford. Students must also maintain a minimum cumulative GPA of 3.0 in order to maintain good academic standing.

There is a three year limit from the first quarter of enrollment in the Master’s Program to conferral of the degree--the MS program is usually completed in five academic year quarters. For coterminal students, the three year period begins in the first quarter of graduate standing. Students in the Honors Cooperative Program have a five year limit for completing the degree. During your final quarter in the program, you must submit an Application to Graduate for Advanced Degrees through Axess.

In order to meet the requirements of the EE-MS degree, you must meet the following guidelines:

DEPTH: A sequence of at least 3 letter graded EE courses, to provide depth in one area. At least one must be at the 300 level or above and the other courses must be at the 200 level or above (minimum of 9 units). The list of approved depth sequences is available below. Depth sequences not specifically listed require special approval from the student’s academic advisor and the EE Student Services Office.

BREADTH: 3 letter graded EE courses from 3 different areas outside of the depth area (minimum of 9 units). The list of approved courses is available below. Two courses are not in different areas if they are both listed under the same depth area or in more than one depth area (a couple of courses appear in multiple depth areas).

SEMINAR: The seminar requirement can be fulfilled by either (i) enrolling in at least one seminar course in any math, science or engineering department for credit or (ii) attending a minimum of 8 informal research seminars (one-time events). Students who attend 8 informal research seminars must submit, with their final MS program proposal, a list of the seminars with a paragraph describing the content, signed by their faculty advisor.

Of the 45 units that are required to complete the requirements of the EE-MS degree:

o At least 36 units must be letter graded units. These are fulfilled through:

• 21 units in EE-Related courses (9 units 300 level or higher, 12 units 200 level or higher). These are comprised of the 18 units of Depth and Breadth, described above, plus an additional 3 units (excluding EE 278A). The list of approved depth sequences, approved breadth courses, and approved Related courses is in the EE Graduate Handbook below.

• 15 units may be any 100 level or higher courses in technical areas in any math/science/engineering department. You may include up to 6 units of EE 391 Special Studies (independent study).

o 9 units may be taken Credit/No Credit or for letter grades. This includes the 1-unit seminar requirement. All units must be at the 100 level or higher. No courses numbered below 100 count toward a graduate degree. The only exception is that you may count up to 2 units of Athletics courses.

Please note: EFSLANG (English for Foreign Students) courses do not count toward the 45 unit minimum. These are additional units above 45, if the university requires you to take any.

New students are strongly advised not to undertake a heavy academic program in their first quarter at Stanford, as they are adjusting to their new environment and the demanding nature of graduate work. Three regular courses (8-10 units) provide a full-time workload, particularly during the first quarter at Stanford. The student's adviser should be consulted for further guidance on this and other course-enrollment questions.

Because the M.S. degree is an advanced degree in electrical engineering awarded entirely on the basis of course work, the program should contain a substantial amount of advanced electrical engineering course work. Mezzanine (200 level) courses, suitable for advanced undergraduates or beginning graduates, may be used in partial satisfaction of this requirement, but at least part of the program should be in the more advanced 300 and 400 series courses.

Special Studies

Students are encouraged to take full advantage of the opportunities for individual work (Special Studies) under the direction of individual faculty members, under the heading of EE 390 (satisfactory/no credit) or EE391(letter grade). Possibilities under this heading range from directed reading in an area of mutual interest to the equivalent of an M.S. thesis. These courses cannot be applied toward the fulfillment of the depth and breadth requirements.

Transfer Credit

Students may not transfer credits from a previously earned degree to count toward the requirements of the MS degree program. NDO students may, however, apply up to 18 units of applicable Stanford coursework toward their EE degree.

Deviations

Every attempt should be made to meet the above guidelines. Courses that deviate from one or more of the guidelines listed above must be approved by your faculty program advisor and the EE Degree Progress Office (via an independent faculty review). Students contemplating a special program should submit a current Master's Program Proposal along with a Deviation Petition form, describing their particular objectives and how the proposed program meets these objectives. Submit the forms to the Degree Progress Officer in Packard 177 for a final decision.

Out of Department Courses Considered as EE Courses (Related Courses)

Please note that not all courses may be offered every year.

Course	Title	Equivalent EE Level
AA 244A	Introduction to Plasma Physics and Engineering	200-299
AA 272C	Global Positioning Systems	200-299
APPPHYS 202	Quantum Probability and Quantum Information	200-299
APPPHYS 203	Atoms, Fields and Protons	200-299
APPPHYS 207	Laboratory Electronics	100-199
APPPHYS 208	Laboratory Electronics	100-199
APPPHYS 227	Quantum Device Physics of Atomic and Semiconductor Systems	200-299
APPPHYS 272	Solid State Physics	200-299
APPPHYS 273	Solid State Physics II	200-299
APPPHYS 304	Lasers Laboratory	300-399
APPPHYS 305	Nonlinear Optics Laboratory	300-399
APPPHYS 387	Quantum Optics and Measurements	300-399
BIOE 334	Engineering Principles in Molecular Biology	300-399
CS 107	Computer Organization and Systems	100-199
CS 108	Object-Oriented Systems Design	100-199
CS 110	Principles of Computer Systems	100-199
CS 140	Operating Systems and Systems Programming	200-299
CS 143	Compilers	200-299
CS 144	Introduction to Computer Networking	200-299
CS 148	Introduction to Computer Graphics and Imaging	100-199
CS 194	Software Project	100-199
CS 205A	Mathematical Methods for Robotics, Vision, and Graphics	200-299
CS 221	Artificial Intelligence: Principles and Techniques	200-299
CS 231A	Introduction to Computer Vision	200-299
CS 228	Probabilistic Graphical Models: Principles and Techniques	300-399
CS 229	Machine Learning	300-399
CS 229A	Applied Machine Learning	200-299
CS 240	Advanced Topics in Operating Systems	200-299
CS 242	Programming Languages	200-299
CS 243	Program Analysis and Optimizations	300-399
CS 244	Advanced Topics in Networking	200-299
CS 244E	Networked Wireless Systems	200-299
CS 245	Database Systems Principles	300-399
CS 248	Interactive Computer Graphics	200-299
CS 255	Introduction to Cryptography	200-299
CS 315A	Parallel Computer Architecture and Programming	300-399
CS 315B	Parallel Computing Research Project	300-399
CS 321	Information Processing for Sensor Networks	300-399
CS 343	Advanced Topics in Compilers	300-399
CS 344	Topics in Computer Networks	300-399
CS 347	Parallel and Distributed Data Management	300-399
CS 348A	Computer Graphics: Geometric Modeling	300-399
CS 348B	Computer Graphics: Image Synthesis Techniques	300-399
CS 448B	Data Visualization	300-399
ENGR 105	Feedback Control Design	100-199
ENGR 205	Introduction to Control Design Techniques	200-299
ENGR 206	Control System Design	200-299
ENGR 207B	Linear Control Systems II	300-399
ENGR 209A	Analysis and Control of Nonlinear Systems	300-399
ENGR 240	Introduction to Micro and Nano Electromechanical Systems	200-299
ENGR 341	Micro/Nano Systems Design and Fabrication	300-399
MATSCI 199/MATSCI 209	Electronic and Optical Properties of Solids	200-299
MATSCI 316	Nanoscale Science, Engineering, and Technology	300-399
MATSCI 323	Thin Film and Interface Microanalysis	200-299
MATSCI 343	Organic Semiconductors for Electronics and Photonics	300-399
MATSCI 347	Introduction to Magnetism and Magnetic Nanostructures	200-299
ME 358	Heat Transfer in Microdevices	200-299
MS&E 237	The Social Data Revolution: Data Mining and Electronic Business	200-299
MS&E 251	Stochastic Decision Models	200-299
MS&E 310	Linear Programming	300-399
MS&E 311	Optimization	300-399
MS&E 313	Vector Space Optimization	300-399
MS&E 321	Stochastic Systems	300-399
MS&E 322	Stochastic Calculus and Control	300-399
MS&E 336	Topics in Game Theory with Engineering Applications	300-399
MS&E 338	Advanced Topics in Information Science and Technology	300-399
MS&E 351	Dynamic Programming and Stochastic Control	300-399
MUSIC 420A	Signal Processing Models in Musical Acoustics	300-399
MUSIC 421A	Audio Applications of the Fast Fourier Transform (FFT)	300-399
MUSIC 422	Perceptual Audio Coding	300-399
MUSIC 424	Signal Processing Techniques for Digital Audio Effects	300-399
PSYCH 221	Applied Vision and Image Systems	300-399
RAD 226	In Vivo Magnetic Resonance Spectroscopy and Imaging	300-399
STATS 315A	Modern Applied Statistics: Learning	300-399
STATS 315B	Modern Applied Statistics: Data Mining	300-399
STATS 375	Inference in Graphical Models	300-399

The following courses were previously approved as Related courses but are no longer offered:

AA 251 Introduction to the Space Environment

ENGR 207A Linear Control Systems I

ENGR 209B Advanced Nonlinear Control

ENGR 210B Advanced Topics in Computation for Control

GEOPHYS 265 Imaging Radar and Applications

MS&E 339 Approximate Dynamic Programming

Acceptable Courses for the Depth and Breadth Areas

The following list satisfies the depth requirement for the different specializations shown. A depth sequence consists of three courses from a single lettered line and must contain a minimum of one class at the 300 level or above.

The breadth requirement is satisfied by courses from three different numbered areas other than the area from which the depth sequence is chosen. Two courses are not considered as being in distinct areas if they appear together in any numbered area (some courses appear in multiple depth areas). Courses such as 293A and B under General Breadth may be used as breadth but not as part of any depth sequence.

Any EE course or related course at the 200 level or higher that is not listed below (excluding EE 278A) may be taken as an "additional EE course" to satisfy the requirement for 21 units of EE courses.

Please note that not all courses may be offered every year.

updated 12/14/12

Biomedical Sensing and Imaging
- a. 202, 225, (264 or 265), 302, 303, 331, 369A, 369B, 418
Computer Hardware
- a. 271, 273, 282, 382C, 382E/CS 316, CS 315A, CS 315B
Computer Software Systems
- a. (EE 284 or CS 144), CS 242, CS 140, CS 240, CS 243, CS 245
- b. CS 248, CS 348A, CS 348B
- c. CS 143, CS 242, CS 243, CS 245, CS 343
Control and System Engineering
- a. 263, 363, 365, ENGR 205, ENGR 207B, ENGR 209A
Communication Systems
- a. 276, 279, 359, 360, 379
- b. 375, 376A, 376B, 379, 387, 388, 477, 478
- c. 247, 279, 345, 347, 348, 379
Dynamic Systems and Optimization
- a. 263, 363, 364A, 364B, 365, MS&E 351, MS&E 339, MS&E 310, MS&E 311, MS&E 313, MS&E 321, MS&E 322
Electronic Circuits
- a. 214B, 271, 313, 314A (formerly 314), 314B, 315A, 315B, (344 or 414), 371
Electronic Devices, Sensors and Technology
- a. 212, 216, 248, 292L, 311, 312, 316, 317, 320, 321, 410, ENGR 240, ENGR 341, ENGR 342
Fields, Waves and Radioscience
- a. 242, 252, 254, 256, 262, 303, 346, 355, AA 244, AA 251
Image Systems
- a. 262, 331, 366, 368, 369A, 369B, 369C, 469B
- b. 368, 398A, 398B, Psych 221, CS 231A, CS 248, CS 348A, CS 348B
Lasers, Optoelectronics and Quantum Electronics
- a. 231, 232, 234, 235, 243, 268, 334, 336, 340, 343, 346, 349, APPPHYS 304, APPPHYS 305
Network Systems
- a. (284 or CS 144), 382C, 384A, 384B, 384C, 384E/CS 244E, 384M, 384S, 384X, 384Y, CS 244, CS 344, MS&E 336
Signal Processing
- a. 278B, 263, 363, 372, 378A, 378B, MS&E 339
- b. (264 or 265 or 278B), Music 420A, Music 421A, Music 422, Music 424
- c. CS 221, CS 228, CS 229, Stats 315A, Stats 315B
Solid State Materials and Devices
- a. 222, 223, 228, 243, 292L, 327, 328, 329, 335, MATSCI 199/209, MATSCI 323, MATSCI 343, MATSCI 347
General Breadth (each line considered a separate area)
- a. 293A, 293B
- b. 204
- c. 214A (counts as Electronic Circuits if Electronic Circuits is not the MS depth area)
- d. 233 (counts as Electronic Circuits if Electronic Circuits is not the MS depth area)
- e. CS 229A (counts as Signal Processing if Signal Processing is not the MS depth area)
- f. EE 257/GP 258 (as long as the student’s MS depth area is not Image Systems or Signal Processing)
- g. EE 261 (as long as the student’s MS depth area is not Control and Systems Engineering, Communication Systems, Dynamic Systems and Optimization, Image Systems or Signal Processing)

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