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Stanford Engineering Everywhere CS106B - Programming Abstractions
This course is the natural successor to Programming Methodology and covers such advanced programming topics as recursion, algorithmic analysis, and ...
Stanford Engineering Everywhere CS107 - Programming Paradigms
Advanced memory management features of C and C++; the differences between imperative and object-oriented paradigms. The functional paradigm (using LISP) ...
Stanford Engineering Everywhere EE364A - Convex Optimization I
Concentrates on recognizing and solving convex optimization problems that arise in engineering. Convex sets, functions, and optimization problems. Basics of ...
Stanford Engineering Everywhere EE364B - Convex Optimization II
Continuation of Convex Optimization I. Subgradient, cutting-plane, and ellipsoid methods. Decentralized convex optimization via primal and dual decomposition. Alternating projections. ...
Stanford Engineering Everywhere EE263 - Introduction to Linear Dynamical Systems
Introduction to applied linear algebra and linear dynamical systems, with applications to circuits, signal processing, communications, and control systems. Topics ...
Stanford Engineering Everywhere EE261 - The Fourier Transform and its Applications
The goals for the course are to gain a facility with using the Fourier transform, both specific techniques and general ...
Stanford Engineering Everywhere CS106A - Programming Methodology
This course is the largest of the introductory programming courses and is one of the largest courses at Stanford. Topics ...
Stanford Engineering Everywhere CS223A - Introduction to Robotics
The purpose of this course is to introduce you to basics of modeling, design, planning, and control of robot systems. ...
Stanford Engineering Everywhere
The mission of Stanford Engineering Everywhere is to seek solutions to important global problems and to educate leaders who will turn great ideas into real changes that will make the world a better place. We measure our success by how well we:
- Generate new knowledge and advance the progress of research.
- Deliver world-class, research-based education to students, and broad-based training to leaders in academia, industry, and society.
- Facilitate technology transfer, applying people and ideas to improve our society and our world.
At the Intersection of Disciplines
A multidisciplinary, broad-based approach is central to our vision. We believe boundaries are always permeable. Our close collaboration with other schools on campus and with the industry strengthens our academic programs. Our successes in education and research have not only trained generations of leaders and created new knowledge but also have helped change the faces of technology, medicine, business, and many other fields.
A Catalyst for Change
Located in the heart of Silicon Valley, Stanford Engineering has been the catalyst for many of the technologies and companies that define "The Valley," and which have in turn shaped the school. The success of this interaction is most apparent in the Bay Area, but it extends worldwide.
Many of our faculty, students, and alumni are renowned for their entrepreneurship. They have evolved a model of academic/industrial collaboration and technology transfer that is emulated around the world. The interaction sustains and enhances the school, as the excellence of our research and academic programs continues to attract the world's best faculty and students. Located between San Francisco and San Jose in the heart of Silicon Valley, Stanford University is recognized as one of the world's leading research and teaching institutions.
History
The University was founded in 1891 by Leland and Jane Stanford to "promote the public welfare by exercising an influence on behalf of humanity and civilization." More than a century later, Stanford remains dedicated to finding solutions to the great challenges of the day and to preparing our students for leadership in today's complex world.