Jyh-Ming Lien

George Mason University

H-index: 33

North America-United States

About Jyh-Ming Lien

Jyh-Ming Lien, With an exceptional h-index of 33 and a recent h-index of 19 (since 2020), a distinguished researcher at George Mason University, specializes in the field of Computational Geometry, Computer Graphics, Robotics, Geomtric Processing, GIS.

His recent articles reflect a diverse array of research interests and contributions to the field:

Improving Human-Robot Collaboration via Computational Design

Zygote structure enables pluripotent shape-transforming deployable structure

Electronic apparatus attachable to surface of 3D structure having curved surface and method of manufacturing the same

Fibercuit: Prototyping High-Resolution Flexible and Kirigami Circuits with a Fiber Laser Engraver

Demonstration of Fibercuit: Techniques to Prototype High-Resolution Flexible and Kirigami Circuits with a Fiber Laser Engraver

Learning to Herd Amongst Obstacles from an Optimized Surrogate

Origami-based Zygote structure enables pluripotent shape-transforming deployable structure

Recent progress in shape-transformable materials and their applications

Jyh-Ming Lien Information

University	George Mason University
Position	___
Citations(all)	3979
Citations(since 2020)	1325
Cited By	3364
hIndex(all)	33
hIndex(since 2020)	19
i10Index(all)	68
i10Index(since 2020)	39
Email	Access Email
University Profile Page	George Mason University
Google Scholar	View Google Scholar Profile

Jyh-Ming Lien Skills & Research Interests

Computational Geometry

Computer Graphics

Robotics

Geomtric Processing

GIS

Jyh-Ming Lien

George Mason University

About Jyh-Ming Lien

Jyh-Ming Lien Information

Jyh-Ming Lien Skills & Research Interests

Top articles of Jyh-Ming Lien

Improving Human-Robot Collaboration via Computational Design

Jixuan Zhi

Jyh-Ming Lien

Zygote structure enables pluripotent shape-transforming deployable structure

Yu-Ki Lee

Yue Hao

Woongbae Kim

Youngmin Park

Jyh-Ming Lien

In-Suk Choi

Electronic apparatus attachable to surface of 3D structure having curved surface and method of manufacturing the same

Fibercuit: Prototyping High-Resolution Flexible and Kirigami Circuits with a Fiber Laser Engraver

Jyh-Ming Lien

Huaishu Peng

Demonstration of Fibercuit: Techniques to Prototype High-Resolution Flexible and Kirigami Circuits with a Fiber Laser Engraver

Anup Sathya

Jyh-Ming Lien

Huaishu Peng

Learning to Herd Amongst Obstacles from an Optimized Surrogate

Jixuan Zhi

Jyh-Ming Lien

Origami-based Zygote structure enables pluripotent shape-transforming deployable structure

Yu-Ki Lee

Yue Hao

Woongbae Kim

Youngmin Park

Jyh-Ming Lien

In-Suk Choi

Recent progress in shape-transformable materials and their applications

Yu-Ki Lee

Juhee Kim

Jyh-Ming Lien

Young-Joo Lee

In-Suk Choi

Synthesizing scene-aware virtual reality teleport graphs

Changyang Li

Haikun Huang

Jyh-Ming Lien

Metal Blossom: Laser Forming Complex and Freeform Metal Structures Imitating Flower Blooming

Yue Hao

Huaishu Peng

Jyh-Ming Lien

Designing human-robot coexistence space

Jixuan Zhi

Jyh-Ming Lien

Planning Laser-Forming Folding Motion with Thermal Simulation

Yue Hao

Weilin Guan

Jyh-Ming Lien

Learning to herd agents amongst obstacles: Training robust shepherding behaviors using deep reinforcement learning

Jixuan Zhi

Jyh-Ming Lien

Persistent covering with latency and energy constraints

Jyh-Ming Lien

Marco Morales

Persistent Covering of a Graph under Latency and Energy Constraints

Jyh-Ming Lien

Marco Morales

Planning Folding Motion with Simulation in the Loop Using Laser Forming Origami and Thermal Behaviors as an Example

Yue Hao

Weilin Guan

Jyh-Ming Lien

Metal forming with laser origami: parameter analysis and optimization

Yue Hao

Jyh-Ming Lien

Computational wrapping: A universal method to wrap 3D-curved surfaces with nonstretchable materials for conformal devices

Yu-Ki Lee

Young-Joo Lee

Yue Hao

Myoung-Gyu Lee

Jyh-Ming Lien

In-Suk Choi

Automatic synthesis of virtual wheelchair training scenarios

Jyh-Ming Lien