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Liang He 0005
Person information
- affiliation: Purdue University,Polytechnic Institute, Department of Computer Graphics Technology, West Lafayette, IN, USA
- affiliation (PhD 2022): University of Washington, USA
Other persons with the same name
- Liang He — disambiguation page
- Liang He 0001
— East China Normal University, Department of Computer Science and Technology, Shanghai Key Laboratory of Multidimensional Information Processing, China
- Liang He 0002
- Liang He 0003
- Liang He 0004
- Liang He 0006
- Liang He 0007
- Liang He 0008 — University of North Carolina at Chapel Hill, Department of Computer Science, Chapel Hill, NC, USA
- Liang He 0009
- Liang He 0010
- Liang He 0011
- Liang He 0012
- Liang He 0013
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2020 – today
- 2024
- [c28]Daniel Campos Zamora
Towards Rapid Fabrication of Custom Tactile Surface Indicators for Indoor Navigation. ASSETS 2024: 97:1-97:5 - [c27]Daniel Campos Zamora
MobiPrint: A Mobile 3D Printer for Environment-Scale Design and Fabrication. UIST 2024: 38:1-38:10 - [c26]Hsuanling Lee
Fluxable: A Tool for Making 3D Printable Sensors and Actuators. UIST (Adjunct Volume) 2024: 74:1-74:3 - 2023
- [c25]Srishti Shekhar Agrawal
Understanding the Experiences, Challenges, and Needs of Dementia Caregivers in the Indian Subcontinent. ASSETS 2023: 84:1-84:5 - [c24]Liwen He
A Multi-modal Toolkit to Support DIY Assistive Technology Creation for Blind and Low Vision People. UIST (Adjunct Volume) 2023: 3:1-3:3 - [c23]Zeyu Yan
3D Printing Magnetophoretic Displays. UIST 2023: 54:1-54:12 - [c22]Zeyu Yan
Demonstration of 3D Printed Magnetophoretic Displays. UIST (Adjunct Volume) 2023: 66:1-66:3 - [i1]Zeyu Yan, Hsuanling Lee, Liang He
3D Printing Magnetophoretic Displays. CoRR abs/2308.06639 (2023) - 2022
- [b1]Liang He:
Fabricating Kinetic Objects with 3D Printable Spring-Based Mechanisms for Interactivity. University of Washington, USA, 2022 - [c21]Junyi Zhu, Liang He
SIG: Towards More Personal Health Sensing. CHI Extended Abstracts 2022: 168:1-168:3 - [c20]Hongnan Lin, Liang He
FlexHaptics: A Design Method for Passive Haptic Inputs Using Planar Compliant Structures. CHI 2022: 169:1-169:13 - [c19]Daniel Campos Zamora, Liang He
sPrintr: Towards In-Situ Personal Fabrication using a Mobile 3D Printer. SCF 2022: 31:1-31:3 - [c18]Liang He
Kinergy: Creating 3D Printable Motion using Embedded Kinetic Energy. UIST 2022: 69:1-69:15 - 2021
- [j2]Liang He
ModElec: A Design Tool for Prototyping Physical Computing Devices Using Conductive 3D Printing. Proc. ACM Interact. Mob. Wearable Ubiquitous Technol. 5(4): 159:1-159:20 (2021) - [c17]Xuhai Xu, Jiahao Li, Tianyi Yuan
HulaMove: Using Commodity IMU for Waist Interaction. CHI 2021: 503:1-503:16 - 2020
- [c16]Liang He
PneuFetch: Supporting Blind and Visually Impaired People to Fetch Nearby Objects via Light Haptic Cues. CHI Extended Abstracts 2020: 1-9 - [c15]Liang He
Designing, Controlling, and Fabricating In-Place Augmented Structures. UIST (Adjunct Volume) 2020: 169-173
2010 – 2019
- 2019
- [c14]Venkatesh Potluri, Liang He
A Multi-Modal Approach for Blind and Visually Impaired Developers to Edit Webpage Designs. ASSETS 2019: 612-614 - [c13]Liang He
Ondulé: Designing and Controlling 3D Printable Springs. UIST 2019: 739-750 - 2017
- [c12]Liang He
TacTILE: A Preliminary Toolchain for Creating Accessible Graphics with 3D-Printed Overlays and Auditory Annotations. ASSETS 2017: 397-398 - [c11]Majeed Kazemitabaar
MakerWear: A Tangible Approach to Interactive Wearable Creation for Children. CHI 2017: 133-145 - [c10]Liang He
Early explorations of deformable interactive designs with 3D-printed springs. SCF 2017: 12:1-12:2 - [c9]Liang He
SqueezaPulse: Adding Interactive Input to Fabricated Objects Using Corrugated Tubes and Air Pulses. TEI 2017: 341-350 - [c8]Liang He
Designing 3D-Printed Deformation Behaviors Using Spring-Based Structures: An Initial Investigation. UIST (Adjunct Volume) 2017: 151-153 - 2016
- [c7]Majeed Kazemitabaar
ReWear: Early Explorations of a Modular Wearable Construction Kit for Young Children. CHI Extended Abstracts 2016: 2072-2080 - [c6]Ruofei Du
VRSurus: Enhancing Interactivity and Tangibility of Puppets in Virtual Reality. CHI Extended Abstracts 2016: 2454-2461 - 2015
- [c5]Beryl Plimmer, Liang He
New Interaction Tools for Preserving an Old Language. CHI 2015: 3493-3502 - [c4]Liang He
PneuHaptic: delivering haptic cues with a pneumatic armband. ISWC 2015: 47-48 - [c3]Kelvin Cheng, Liang He
CozyMaps: Real-time Collaboration on a Shared Map with Multiple Displays. MobileHCI 2015: 46-51 - 2014
- [j1]Danli Wang, Liang He
StoryCube: supporting children's storytelling with a tangible tool. J. Supercomput. 70(1): 269-283 (2014) - 2012
- [c2]Liang He, Guang Li, Yang Zhang, Danli Wang
TempoString: a tangible tool for children's music creation. UbiComp 2012: 643-644 - [c1]Danli Wang
E-Block: a tangible programming tool for children. UIST (Adjunct Volume) 2012: 71-72
Coauthor Index
aka: Jon E. Froehlich
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last updated on 2024-12-11 20:42 CET by the dblp team
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