Drives specialist hardware, typically sensors and actuators, and optimises component code for performance. Designs physical layouts that reflect the connection between system components to test and optimise performance.
Builds system prototypes and simulations to aid development and enable debugging, testing and troubleshooting of embedded software. Applies a range of approaches to the validation, verification and testing of real-time components and sub-systems. Is fully familiar with a range of specialist tools. Analyses design options and trade-offs between hardware and software, makes recommendations and assesses and manages associated risks. Ensures that effective validation, verification and testing is undertaken throughout development.
Complete the courses listed below to earn the certificate. You may be able to take individual courses without enrolling in the certificate program; check the course pages for details. Approved by the UW Paul G. View this program's advisory board. Each of our programs uses an advisory board to review content, guide design and recommend updates to ensure the program remains current as the field of study evolves.
By tapping the minds of the top thinkers, doers and leaders in the field, we offer a transformational learning experience. The following individuals serve as the advisory board for this program. James Peckol , Principal Lecturer, Dept. Engineering, University of Washington.
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We also use cookies to show you relevant advertising. Tools to provide analysis will be learned Cheddar to automate timing analysis and to compare to actual performance. Upon completion of this course the learner will know the difference between systems you can bet your life on mission critical and those which provide predictable response and quality of service reliable.
This will be achieved not only by study of design methods and patterns for mission critical systems, but also through implementation of soft real-time systems and comparison to hard real-time. Methods of verification to determine ability to meet mission critical as well as soft real-time requirements will be learned so that the learner can properly assess risk, reliability and impact of failure in real-time systems. The final course emphasizes hands-on building of an application using real-time machine vision and multiple real-time services to synchronize the internal state of Linux with an external clock via observation.
Compare actual performance to theoretical and analysis to determine scheduling jitter and to mitigate any accumulation of latency. The verification of the final project will include comparison of system timestamp logs with a large set of images which can be encoded into a video.
The final report will be peer reviewed and the captured frames and video uploaded for scripted assessment. CU-Boulder is a dynamic community of scholars and learners on one of the most spectacular college campuses in the country. As one of 34 U. If you subscribed, you get a 7-day free trial during which you can cancel at no penalty. See our full refund policy. To get started, click the course card that interests you and enroll. You can enroll and complete the course to earn a shareable certificate, or you can audit it to view the course materials for free.
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You'll need to complete this step for each course in the Specialization, including the Capstone Project. Learn more. When you enroll in the course, you get access to all of the courses in the Specialization, and you earn a certificate when you complete the work. If you only want to read and view the course content, you can audit the course for free.
If you cannot afford the fee, you can apply for financial aid. You can access your lectures, readings and assignments anytime and anywhere via the web or your mobile device.
The series includes 4 courses that have 4 to 5 10 to 15 hour modules, so between to hours to complete, depending upon prior experience with operating systems, embedded hardware and C programming. The first course should be taken before the second. The third course can be taken alone or at any time mission critical design and analysis and the fourth course should only be taken after the first two have been completed.
More questions? Visit the Learner Help Center. Physical Science and Engineering. Electrical Engineering. Sam Siewert.
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