• 专业概况
• 所属院系
• 中国学生入学要求
• 课程信息

专业概况

COVID - 19 update: We will begin transitioning to virtual instruction for graduate and undergraduate classes. Our goal is to have this transition complete by Monday, March 23, which is the first day of scheduled classes following Spring Recess.

Electrical Engineering has long played a critical role in undergirding innovations that improve the quality of life, support economic growth, and address societal problems. Its emergence as a separate field of study in the late 19th century paralleled, and was responsive to, the large-scale introduction of telegraphy and electrical lighting. Electrical engineering has continued to play a pivotal role in power and energy distribution, communications, and computation, even as the power-carrying channels have evolved from heavy metal cables to nanowires or optical fibers; the networks of communications have evolved from wires to wireless to neurons; and the basic electrical switches have evolved from vacuum tubes to transistors to carbon nanotubes. The essential technologies that connect society: mobile phones, laptops, wireless communications, downloaded videos, light-emitting diodes, electronic displays, “smart” power grids, and rapidly evolving systems for monetary transactions are all evidence of the impact of innovation in electrical engineering.

The undergraduate EE curriculum emphasizes both depth and breadth within the sub-disciplines of electrical engineering. All students will specialize in electronic circuits and devices while being provided the opportunity explore signals and systems theory, control systems, robotics, optoelectronic devices, integrated circuits, energy systems, computer vision, electronic materials, computer software and hardware, as well as mechanical, biological, and environmental systems. Through this coursework, students also gain experience in the engineering design process, the engineering activity that requires creative synthesis as well as analysis.

Electrical Engineering spans a broad range of topics, ranging from the physics of new materials and devices, the circuits and next-generation computing platforms made from these devices, and the algorithms that run on these platforms. The range of subtopics includes power systems, (micro)electronics, control systems, signal processing, telecommunications, and computing systems. Students learn how to analyze, design and build devices and systems for computation, communication and information transfer.

Students can pursue a degree with an emphasis in electrical engineering through the following concentrations:

• A.B. in Engineering Sciences - Electrical and Computer Engineering Track
• S.B. in Electrical Engineering

Students in either degree program take many of the same upper-level EE courses. The A.B. program affords the flexibility to pursue complementary studies in other disciplines or to dive deeper into a specific sub-discipline of EE, while the S.B. program provides a broader basis in engineering fundamentals with courses from other engineering areas and design.

所属院系

中国学生入学要求

课程信息

学制：在线/远程学习(128 学分)

学费：US$47,730.00 (¥ 308,999) /年

开学时间：预计在九月 2022

申请截止日期：

留学地点：

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