General Information
The format of the event is similar to the previous editions of CompFest. The event will have presenters grouped into four sessions, with each session lasting 90 minutes. The time allocated for each presentation will be 5 minutes with one additional minute for discussion while the next speaker is setting up. Given the large number of speakers, timing will be strictly enforced. If a speaker is not present at their presentation time, their talk will be moved to the last session. Please be prepared earlier than your presentation time so that you can present if a number of speakers before you are not present.
Schedule
08:45 AM-09:00 AM: Welcome
09:00 AM-10:30 AM: Session 1 (15 presentations, 5 minutes talk + 1 minute discussion)
10:30 AM-11:00 AM: Coffee Break
11:00 AM-12:30 AM: Session 2 (15 presentations, 5 minutes talk + 1 minute discussion)
12:30 AM-01:30 PM: Lunch Break
01:30 PM-03:00 PM: Session 3 (15 presentations, 5 minutes talk + 1 minute discussion)
03:00 PM-03:30 PM: Coffee Break
03:30 PM-05:00 PM: Session 4 (15 presentations, 5 minutes talk + 1 minute discussion)
Presentation Schedule
Session 1: 09:00 AM-10:30 AM (Chair: Professor Per-Olof Persson)
| Name |
Affiliation |
Presentation |
| Kuanshi Zhong |
Stanford University |
Surrogate Modeling Of High-Way Bridge Earthquake Response Using Probabilistic Learning On Manifolds |
| Aidan Gould |
UC Berkeley |
Multiphysics Modeling Of Thermal Protection Systems For Reentry Vehicles |
| Omar Betancourt |
UC Berkeley |
Ablation Modeling In Heat Shield Materials |
| Bowen Zheng |
UC Berkeley |
Designing Mechanically Tough Graphene Oxide Materials Using Deep Reinforcement Learning |
| Laura Blackstone |
Stanford University |
Fully Coupled Fluid-Filled Fracture Propagation Simulations Applied To Dike Swarm Geometry |
| Jinyan Zhao |
UC Berkeley |
Probabilistic Computational Model For Excavation-Induced Regional Building Damage Assessment |
| Aaron Brown |
Stanford University |
A Modular Framework For Strong 3D/0D Coupling In Cardiac Mechanics Simulations |
| Aidi Zhang |
UC Berkeley |
Studying The Gravity Signature Of The Great Red Spot Using Three Dimensional Hydrodynamic Models |
| Yilong Chang |
Stanford University |
Shape Reconfigurable Vitrimer Heart Sleeve For Heart Deformation Monitoring And Stimulation |
| Zack Yun |
UC Berkeley |
Particle-Based Simulation for Electric Field-Driven Additive Manufacturing |
| Xiaolei Chu |
UC Berkeley |
Life-Cycle Flutter Failure Analysis Of A Long-Span Bridge Considering Multi-Source Time-Variant Effects And Uncertainties |
| Sang-ri Yi |
UC Berkeley |
A Computationally Efficient Adaptive Design Of Experiments For Global Metamodeling Through Integrated Error Approximation And Multi-Criteria Search Strategies |
| Alexander D. Kaiser |
Stanford University |
Design-Based Models Of Heart Valves For Fluid-Structure Interaction |
| Abdel-Ghafar Yerima |
UC Berkeley |
Membrane Curvature Sensed And Induced By Formin Binding Protein 17 |
| Jize Dai |
Stanford University |
Programmable Multi-Stability Of Ring Origami Guided By Residual Stress |
Session 2: 11:00 AM-12:30 AM (Chair: Professor Adrian Lew)
| Name |
Affiliation |
Presentation |
| Philip DePon |
Stanford University |
Time Resolved Strain Evolution Under Additive Manufacturing Conditions |
| Shuai Wu |
Stanford University |
Magnetically Actuated Reconfigurable Metamaterials With Tunable Acoustic And Electromagnetic Properties |
| Dawson Do |
UC Berkeley |
2D Models For Traffic Flow On Large Networks |
| Nya Domkam |
UC Berkeley |
Force Transmission And Sun-Kash Higher-Order Assembly In The Linc Complex Models |
| Gradey Wang |
Stanford University |
3D Printing Temperature Field Control With The Tsp |
| Ali El Hajj Chehade |
UC Berkeley |
Modelling Liquid Crystal Elastomers As Viscoelastic Media With A Viscous Director |
| Amin Valiei |
UC Berkeley |
Bacterial Cell Wall Deformation On Nano-Pillar Arrays |
| Tiffany Fan |
Stanford University |
Probabilistic Partition-Of-Unity Networks For High-Dimensional Regression Problems |
| Miguel Gomez |
UC Berkeley |
Seismic Analysis Of Train-Structure Interaction |
| Yuan Tian |
Stanford University |
An Adaptive Nonlinear Solver For Coulomb Frictional Fault Mechanics |
| Sina Abrari Vajari |
Stanford University |
A Micromechanically Motivated Finite Strain Phase Field Approach To Ductile Fracture |
| Sarah St. Pierre |
Stanford University |
Discovery Of Constitutive Laws For Soft Biological Tissues Using Physics-Informed Machine Learning |
| Jimin Gu |
UC Berkeley |
Structural Optimization For Soft Strain Sensors Based On The Piezo-Transmittance Of Kirigami Structure |
| Michael Heinz |
UC Berkeley |
An Agglomeration-Based Geometric Multigrid Method For Finite Element Discretizations On Unstructured Meshes |
| Milad Shirani |
UC Berkeley |
Equilibrium Theory For A Lipid Bilayer With A Conforming Cytoskeletal Membrane |
Session 3: 01:30 PM-03:00 PM (Chair: Professor Sanjay Govindjee)
| Name |
Affiliation |
Presentation |
| Theresa Honein |
UC Berkeley |
The Geometry Of Equations Of Motion: Particles In Equivalent Universes |
| Natalia Rubio |
Stanford University |
Machine Learning Models For Junction Pressure Losses For Reduced-Order Cardiovascular Modeling |
| Maya Horii |
UC Berkeley |
Agent-Based Disease Spread Modeling |
| Yitao Qiu |
Stanford University |
Sensenet: A Physics-Informed Deep Learning Model For Shape Sensing |
| Brian Howell |
UC Berkeley |
Optimization Of Uv Curing Kinetics For 3D Printing |
| Martin Pfaller |
Stanford University |
A Partitioned Model Of Cardiovascular Fluid-Solid-Growth Interaction |
| Zinan Hu |
Stanford University |
Simulated Results Of A Bioprinted Pulsatile Fontan Conduit |
| Akshay Patil |
Stanford University |
Waves, Turbulence And Bumps In A Digital Estuary"" |
| Sabrina Ip |
Stanford University |
A Phase-Field Approach For Compaction Band Formation Due To Grain Crushing |
| Lewis Pan |
UC Berkeley |
Unstructured Finite Difference Methods |
| Roger Isied |
UC Berkeley |
A Computational Framework For Simulation And Optimization Of Metal Bulk Sintering |
| Sebin Oh |
UC Berkeley |
Bouc-Wen Class Model Considering Hysteresis Mechanism Of Rc Columns |
| Wurong Jian |
Stanford University |
Strain Hardening In Hcp Metals |
| Prajwal Kammardi Arunachala |
Stanford University |
Multi-Scale Fracture Model Using Phase-Field Approach For Rubber-Like Materials |
| Arjun Narayanan |
UC Berkeley |
Learning Topological Actions To Improve Mesh Quality |
Session 4: 03:30 PM-05:00 PM (Chair: Professor Wei Cai)
| Name |
Affiliation |
Presentation |
| Daria Koliesnikova |
Sandia National Laboratories |
The Dirichlet-Neumann Schwarz Method For Contact Mechanics |
| Eduardo Montalto |
UC Berkeley |
Buckling Of Short Beams Considering Warping: Application To Fiber-Reinforced Elastomeric Isolators |
| Peter Lee |
Stanford University |
Surrogate Modeling Of High-Way Bridge Earthquake Response Using Probabilistic Learning On Manifolds |
| Shaswat Mohanty |
Stanford University |
Dynamics And Rate Analysis In Dynamic Polymer Networks |
| Donghao Li |
UC Berkeley |
A Cut-Cell Finite Element Method For PoissonâS Equation In Arbitrary 3D Domains |
| Juan Miguel Navarro Carranza |
Stanford University |
Modeling And Implications Of Reinforcing Bar Fracture Due To Low-Cycle Fatigue In Reinforced Concrete Walls |
| Ian Li |
UC Berkeley |
Homogenization Of Thermomechanical Properties In Discontinuous Bodies |
| Emre Mengi |
UC Berkeley |
Light-Based Simulation Methods For Next-Generation Food Systems |
| Jingxiao Liu |
Stanford University |
Scalable Infrastructure Monitoring Through Non-Dedicated Sensing And Physics-Informed Learning |
| Ryan McAvoy |
UC Berkeley |
A Cosserat Rod Model Incorporating Thin Cross-Sectional Bending |
| Yingxiao Liu |
Stanford University |
Mechanisms Of Creep In Shale From Nanoscale To Specimen Scale |
| Enrique M. del Castillo |
Stanford University |
Fault Propagation And Surface Rupture In Geologic Materials With A Meshfree Method |
| Lu Lu |
Stanford University |
Easy Snap-Folding Of Hexagonal Ring Origami By Geometric Modifications |
| Dhruv Patel |
Stanford University |
Multi-fidelity Hamiltonian Monte Carlo |