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ORCIDAustin Luchsinger
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2020 – today
- 2024
[c14]Austin Luchsinger
, David Doty, David Soloveichik:
Brief Announcement: Optimally Encoding Information in Chemical Reaction Networks. PODC 2024: 61-64- 2023
- [c13]Austin Luchsinger, David Doty, David Soloveichik:
Optimal Information Encoding in Chemical Reaction Networks. DNA 2023: 9:1-9:16 - [c12]David Caballero, Angel A. Cantu, Timothy Gomez, Austin Luchsinger, Robert T. Schweller, Tim Wylie:
Uniform Robot Relocation Is Hard in only Two Directions Even Without Obstacles. UCNC 2023: 17-31 - [i7]Austin Luchsinger, David Doty, David Soloveichik:
Optimal Information Encoding in Chemical Reaction Networks. CoRR abs/2307.01939 (2023) - [i6]David Doty, Niels Kornerup, Austin Luchsinger, Leo Orshansky, David Soloveichik, Damien Woods:
Harvesting Brownian Motion: Zero Energy Computational Sampling. CoRR abs/2309.06957 (2023) - 2022
- [c11]Austin Luchsinger:
Brief Announcement: Barrier-1 Reachability for Thermodynamic Binding Networks Is PSPACE-Complete. SAND 2022: 24:1-24:3 - 2021
- [j4]Angel A. Cantu, Austin Luchsinger, Robert T. Schweller, Tim Wylie:
Covert Computation in Self-Assembled Circuits. Algorithmica 83(2): 531-552 (2021) - [j3]David Caballero, Angel A. Cantu, Timothy Gomez, Austin Luchsinger, Robert T. Schweller, Tim Wylie:
Fast reconfiguration of robot swarms with uniform control signals. Nat. Comput. 20(4): 659-669 (2021) - [c10]Keenan Breik, Austin Luchsinger, David Soloveichik:
Molecular Machines from Topological Linkages. DNA 2021: 7:1-7:20 - [i5]Marko Vasic, Cameron T. Chalk, Austin Luchsinger, Sarfraz Khurshid, David Soloveichik:
Programming and Training Rate-Independent Chemical Reaction Networks. CoRR abs/2109.11422 (2021) - 2020
- [j2]David Caballero, Angel A. Cantu, Timothy Gomez, Austin Luchsinger, Robert T. Schweller, Tim Wylie:
Hardness of Reconfiguring Robot Swarms with Uniform External Control in Limited Directions. J. Inf. Process. 28: 782-790 (2020) - [c9]David Caballero, Angel A. Cantu, Timothy Gomez, Austin Luchsinger, Robert T. Schweller, Tim Wylie:
Relocating Units in Robot Swarms with Uniform Control Signals is PSPACE-Complete. CCCG 2020: 49-55 - [c8]David Caballero, Angel A. Cantu, Timothy Gomez, Austin Luchsinger, Robert T. Schweller, Tim Wylie:
Building Patterned Shapes in Robot Swarms with Uniform Control Signals. CCCG 2020: 56-62 - [c7]Angel A. Cantu, Austin Luchsinger, Robert T. Schweller, Tim Wylie:
Signal Passing Self-Assembly Simulates Tile Automata. ISAAC 2020: 53:1-53:17 - [c6]Jose Balanza-Martinez, Timothy Gomez, David Caballero, Austin Luchsinger, Angel A. Cantu, Rene Reyes, Mauricio Flores, Robert T. Schweller, Tim Wylie:
Hierarchical Shape Construction and Complexity for Slidable Polyominoes under Uniform External Forces. SODA 2020: 2625-2641 - [i4]David Caballero, Angel A. Cantu, Timothy Gomez, Austin Luchsinger, Robert T. Schweller, Tim Wylie:
Hardness of Reconfiguring Robot Swarms with Uniform External Control in Limited Directions. CoRR abs/2003.13097 (2020)
2010 – 2019
- 2019
- [j1]Austin Luchsinger, Robert T. Schweller, Tim Wylie:
Self-assembly of shapes at constant scale using repulsive forces. Nat. Comput. 18(1): 93-105 (2019) - [c5]Angel A. Cantu, Austin Luchsinger, Robert T. Schweller, Tim Wylie:
Covert Computation in Self-Assembled Circuits. ICALP 2019: 31:1-31:14 - [c4]Jose Balanza-Martinez, Austin Luchsinger, David Caballero, Rene Reyes, Angel A. Cantu, Robert T. Schweller, Luis Angel Garcia, Tim Wylie:
Full Tilt: Universal Constructors for General Shapes with Uniform External Forces. SODA 2019: 2689-2708 - [i3]Jose Balanza-Martinez, David Caballero, Angel A. Cantu, Luis Angel Garcia, Timothy Gomez, Austin Luchsinger, Rene Reyes, Robert T. Schweller, Tim Wylie:
Full Tilt: Universal Constructors for General Shapes with Uniform External Forces. CoRR abs/1907.06741 (2019) - [i2]Angel A. Cantu, Austin Luchsinger, Robert T. Schweller, Tim Wylie:
Covert Computation in Self-Assembled Circuits. CoRR abs/1908.06068 (2019) - 2018
- [c3]Cameron T. Chalk, Austin Luchsinger, Eric Martinez, Robert T. Schweller, Andrew Winslow, Tim Wylie:
Freezing Simulates Non-freezing Tile Automata. DNA 2018: 155-172 - [c2]Cameron T. Chalk, Austin Luchsinger, Robert T. Schweller, Tim Wylie:
Self-Assembly of Any Shape with Constant Tile Types using High Temperature. ESA 2018: 14:1-14:14 - 2017
- [c1]Austin Luchsinger, Robert T. Schweller, Tim Wylie:
Self-assembly of Shapes at Constant Scale Using Repulsive Forces. UCNC 2017: 82-97 - 2016
- [i1]Austin Luchsinger, Robert T. Schweller, Tim Wylie:
Self-Assembly of Shapes at Constant Scale using Repulsive Forces. CoRR abs/1608.04791 (2016)
Coauthor Index
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