They represent opportunities for students to appreciate some of the global and societal impacts of engineering, to understand contemporary issues, and to exchange ideas with scholars in other fields. Permission of the instructor is required for new team members. Prerequisites: Students may earn credit for or , but not both. Poehler Area: Engineering, Natural Sciences. Interdisciplinary participation, such as by biomedical engineering, mechanical engineering and computer science majors, is strongly encouraged.
Elementary or pre-calculus courses such as or - are not acceptable. This course gives a foundation in current audio and speech technologies, and covers techniques for sound processing by processing and pattern recognition, acoustics, auditory perception, speech production and synthesis, speech estimation. At the end of the semester, a final written report will be submitted in the form of a utility patent. For advanced undergraduates and graduate students in physical science and engineering. Topics include signal and system representations, z- transforms, sampling, discrete Fourier transforms, fast Fourier transforms, digital filters. This project-based course is designed to help students learn how to turn their ideas into commercial products.
This course introduces the student to the programming of microprocessors at the machine level. Prerequisites: Students may take or , but not both. Introduction to Renewable Energy Engineering. The course is team taught by experts in the respective fields and provides a broad based knowledge of modern biomedical imaging to prepare students for graduate studies and research in biomedical imaging. The course goes on to investigate the properties of two dimensional electronic gas. Aspects of structured design, scalability, parallelism, low power consumption, and robustness to process variations.
Thuot flew the F-14 Tomcat in the U. Recommended Course Background: , , and. A minimum of 75% attendance and active participation will be required to earn a passing grade. Physics of Semiconductor Electronic Devices. In the course of research leading to the Ph.
Topics include the resonance phenomenon, relaxation, signal formation, spatial localization, image contrast, hardware, signal processing, and image reconstruction. Processing of Audio and Visual Signals. It will also evaluate the new hazards that these new technologies may have on the world. Additional details concerning advising and degree requirements are in the Computer Engineering Advising Manual. Subject matter will include a detailed and comprehensive discussion of the physical processes underlying modern electronic and optical devices. I heard that they were mostly voice over powerpoint slides.
Prerequisites: Students may earn credit for or , but not both. Please note that this requirement is not applicable to new students registering for their first semester at Hopkins. Three credits of computer science courses may be counted toward this 30-credit requirement. All Projects will be sponsored, have clearly defined objectives, and must yield a Tangible Result at Completion. Image and Signal Processing Image analysis efforts currently concern statistical analysis of restoration and reconstruction algorithms, development of statistical image models for image restoration and segmentation, geometric modeling for object detection and estimation, morphological image analysis, magnetic resonance imaging, ultrasound imaging, and photoacoustic imaging. Specific topics include propagation of rays and Gaussian beams in lens-like media, optical resonators, spontaneous and stimulated emission, interaction of optical radiation and atomic systems, conditions for laser oscillation, homogeneous and inhomogeneous broadening, gas lasers, solid state lasers, Q-switching and mode locking of lasers. Electronic and Photonic Processes and Devices.
Representative biomedical applications of some of these technologies will be integrated into the relevant chapters. They're geared toward working engineers only, and as far as employers recognizing the degrees, I'd say yes, since it's often employers sending students there in the first place. Topics include digital-to-analog and analog-to-digital conversion, delta-sigma modulation, bioinstrumentation, and adaptive neural computation. Prerequisites: Instructor s : H. This course covers the usage of common microcontroller peripherals. Minor in Computer-Integrated Surgery A minor in Computer-Integrated Surgery is offered by the Laboratory for Computational Sensing and Robotics. This course covers the basic principles of laser oscillation.
The students will also experience first hand the joys and challenges of the professional world. These information services are provided by Johns Hopkins to assist in accomplishing its business and mission. Topics include Kalman filtering, smoothing, interpolation upsampling , spline fitting, and the numerical linear algebra issues that impact these problems. The student will study encoders and decoders for the most important codes in current use and will confront realistic problems in the use of coding. After completing the labs, the course will be focused on a final mini-project for the remainder of the semester. Also, the course will offer tours and practical experience with modern biomedical imaging equipments in clinical and research settings.