Difference between revisions of "Advanced Robotics"

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{{Infobox
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| title  = Advanced Robotics
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| header1 = Computer Science Course
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| label2 = Course Code | data2 = [[Advanced Robotics|AROB]]
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| label3 = Year Opened | data3 = 2016
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| label4 = Sites Offered | data4 = [[LAN]]
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}}
 
{{CTY Courses}}
 
{{CTY Courses}}
{{stub}}
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==Course Description==
[[Advanced Robotics]] is a Computer Science course offered by CTY, with prerequisites of Algebra II and trigonometry, along with at least a B+ in a high school programming course. Its course code is AROB, and is currently only offered at [[Lancaster]].
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Robots are everywhere in today’s society, playing key roles in industry, disaster relief, the military, and entertainment. Drawing from a number of fields of study, this course dives deeply into the core concepts that power modern robotics via a survey of graduate-level robotics topics, mainly through hands-on discovery.
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In this project-based course, students design, build, and program complex robots while learning advanced topics in the fields of mathematics and computer science and touching on electrical engineering and mechanical engineering. Students explore subjects such as linear algebra, machine learning, computer vision, and grasping.
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This course is structured almost entirely around team-based projects, which will include designing, building, and programming self-navigating search and rescue robots. Because students do large amounts of programming, hands-on engineering, and mathematics in this course, they must be comfortable attempting all three.
  
==Course Description==
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The course incorporates many modern robotic topics and fields such as: Computer Vision, Autonomous Navigation, Simultaneous Localization and Mapping, Proportional Integral Derivatives, Forward Kinematics, Inverse Kinematics.
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==Course History==
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AROB was developed by Marc Howard and Miriam Melnick in preparation for the summer of 2016.
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It was first offered in 2016, and was instructed by Marc, and TA'ed by Jose Villegas and consisted of 18 students with background knowledge of computer science. The course was from June, 26, 2016 to July, 15, 2016. Miriam guest-taught the unit on Computer Vision.
  
"In this hands-on course, students design and build complex robots while learning advanced topics in the fields of mathematics, computer science, electrical engineering, and mechanical engineering. Students explore subjects such as linear algebra, machine learning, and computer vision.
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It was offered again in 2017 and 2018, co-instructed by Marc and Miriam.
  
Team-based projects in this course include designing, building, and programming robotic arms, search and rescue robots, and self-navigating robots. Students use VEX robotics kits, Arduino microcontrollers, modern vision systems (such as Microsoft Kinect), and a variety of other hardware to accomplish these tasks. They also design and build their own circuits using prototyping boards."
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In 2018, Marc and Miriam gave a lecture to the CTY LAN community called "AROB in 60 minutes" that covered the high-level concepts of the course.
  
~ from http://cty.jhu.edu/summer/grades7-12/intensive/catalog/math.html
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[[Category:Courses]]
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[[Category:Lancaster]]

Latest revision as of 15:14, 27 May 2019

Advanced Robotics
Computer Science Course
Course CodeAROB
Year Opened2016
Sites OfferedLAN
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Course Description

Robots are everywhere in today’s society, playing key roles in industry, disaster relief, the military, and entertainment. Drawing from a number of fields of study, this course dives deeply into the core concepts that power modern robotics via a survey of graduate-level robotics topics, mainly through hands-on discovery.

In this project-based course, students design, build, and program complex robots while learning advanced topics in the fields of mathematics and computer science and touching on electrical engineering and mechanical engineering. Students explore subjects such as linear algebra, machine learning, computer vision, and grasping.

This course is structured almost entirely around team-based projects, which will include designing, building, and programming self-navigating search and rescue robots. Because students do large amounts of programming, hands-on engineering, and mathematics in this course, they must be comfortable attempting all three.

The course incorporates many modern robotic topics and fields such as: Computer Vision, Autonomous Navigation, Simultaneous Localization and Mapping, Proportional Integral Derivatives, Forward Kinematics, Inverse Kinematics.

Course History

AROB was developed by Marc Howard and Miriam Melnick in preparation for the summer of 2016.

It was first offered in 2016, and was instructed by Marc, and TA'ed by Jose Villegas and consisted of 18 students with background knowledge of computer science. The course was from June, 26, 2016 to July, 15, 2016. Miriam guest-taught the unit on Computer Vision.

It was offered again in 2017 and 2018, co-instructed by Marc and Miriam.

In 2018, Marc and Miriam gave a lecture to the CTY LAN community called "AROB in 60 minutes" that covered the high-level concepts of the course.