YASA, Oncay - HKUST Class Schedule & Quota

Class Schedule & Quota
2024-25 Fall 2023-24 Summer 2023-24 Spring 2021-22 Winter
2023-24 Spring
Common Core Course
The class information on this page will normally be updated every 15 to 20 minutes during class enrollment period.
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COURSE INFO

VECTOR	[3-0-0:3]
DESCRIPTION	Materials play a pivotal role in the development of robotics by serving as the building blocks that determine the capabilities, durability, and versatility of these intelligent machines. Understanding the properties and applications of different materials is fundamental to pushing the boundaries of robotics, enabling the creation of robots that excel in precision, strength, flexibility, and even biocompatibility. This course provides a comprehensive understanding on smart materials that are used to build nano, micro, and soft robots. It covers principles to design such robots by considering their scales, materials properties, operation environments, and actuation modalities, e.g., acoustic, electric, magnetic, and biological actuation. It also features different manufacturing techniques used to create these robots, including molding, lithography, and 3D printing, while emphasizing material-specific considerations. Finally, it examines real-world cases where specific materials have been instrumental in enhancing the performance, durability, and efficiency of robotic platforms. Overall, exploring the diverse range of smart materials available for robotics unveils a world of possibilities, driving innovation and pushing the frontiers of what robots can achieve in different fields, from manufacturing and healthcare to exploration and beyond.

VECTOR

[3-0-0:3]

DESCRIPTION

Materials play a pivotal role in the development of robotics by serving as the building blocks that determine the capabilities, durability, and versatility of these intelligent machines. Understanding the properties and applications of different materials is fundamental to pushing the boundaries of robotics, enabling the creation of robots that excel in precision, strength, flexibility, and even biocompatibility. This course provides a comprehensive understanding on smart materials that are used to build nano, micro, and soft robots. It covers principles to design such robots by considering their scales, materials properties, operation environments, and actuation modalities, e.g., acoustic, electric, magnetic, and biological actuation. It also features different manufacturing techniques used to create these robots, including molding, lithography, and 3D printing, while emphasizing material-specific considerations. Finally, it examines real-world cases where specific materials have been instrumental in enhancing the performance, durability, and efficiency of robotic platforms. Overall, exploring the diverse range of smart materials available for robotics unveils a world of possibilities, driving innovation and pushing the frontiers of what robots can achieve in different fields, from manufacturing and healthcare to exploration and beyond.

ROAS 6000K - Materials for Robotics (3 units)

Section	Date & Time	Room	Instructor	Quota	Enrol	Avail	Wait	Remarks
L01 (6277)	We 09:00AM - 11:50AM	Rm 150, E1	YASA, Oncay	30	5	25	0	The instructor is Prof. Oncay Yasa.