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Melanie E. Moses
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2020 – today
- 2024
- [j11]Jannatul Ferdous, George Matthew Fricke, Melanie E. Moses:
More Is Faster: Why Population Size Matters in Biological Search. J. Comput. Biol. 31(5): 429-444 (2024) - [c31]Kirtus G. Leyba, Steven A. Hofmeyr, Stephanie Forrest, Judy L. Cannon, Melanie E. Moses:
SIMCoV-GPU: Accelerating an Agent-Based Model for Exascale. HPDC 2024: 322-333 - [c30]John Ericksen, Abir Islam, Carter Frost, Kevin Aubert, G. Matthew Fricke, Varsha Dani, Rafael Fierro, Tobias Fischer, Scott Nowicki, Jared Saia, Melanie E. Moses:
Navigating the Edge: UAS Boundary Tracing for Efficient Volcanic Plume Monitoring. SSRR 2024: 52-57 - 2023
- [i12]Humayra Tasnim, Soumya Dutta, Melanie E. Moses:
Dynamic Spatio-Temporal Summarization using Information Based Fusion. CoRR abs/2310.01617 (2023) - 2022
- [j10]Humayra Tasnim, Soumya Dutta, Terece L. Turton, David H. Rogers, Melanie E. Moses:
Information-Theoretic Exploration of Multivariate Time-Varying Image Databases. Comput. Sci. Eng. 24(3): 61-70 (2022) - [c29]Jannatul Ferdous, G. Matthew Fricke, Melanie E. Moses:
Modeling Immune Search Through the Lymphatic Network. ANTS Conference 2022: 332-340 - 2021
- [j9]J. Jake Nichol, Matthew G. Peterson, Kara J. Peterson, G. Matthew Fricke, Melanie E. Moses:
Machine learning feature analysis illuminates disparity between E3SM climate models and observed climate change. J. Comput. Appl. Math. 395: 113451 (2021) - [j8]Melanie E. Moses, Steven A. Hofmeyr, Judy L. Cannon, Akil Andrews, Rebekah Gridley, Monica Hinga, Kirtus G. Leyba, Abigail Pribisova, Vanessa Surjadidjaja, Humayra Tasnim, Stephanie Forrest:
Spatially distributed infection increases viral load in a computational model of SARS-CoV-2 lung infection. PLoS Comput. Biol. 17(12) (2021) - [i11]Edward C. Schrom II, Ann Kinzig, Stephanie Forrest, Andrea L. Graham, Simon A. Levin, Carl T. Bergstrom, Carlos Castillo-Chavez, James P. Collins, Rob J. De Boer, Adam Doupé, Roya Ensafi, Stuart I. Feldman, Bryan T. Grenfell, J. Alex Halderman, Silvie Huijben, Carlo C. Maley, Melanie E. Moses, Alan S. Perelson, Charles Perrings, Joshua B. Plotkin, Jennifer Rexford, Mohit Tiwari:
Challenges in cybersecurity: Lessons from biological defense systems. CoRR abs/2107.10344 (2021) - 2020
- [c28]Qi Lu, G. Matthew Fricke, Takaya Tsuno, Melanie E. Moses:
A Bio-Inspired Transportation Network for Scalable Swarm Foraging. ICRA 2020: 6120-6126 - [c27]John Ericksen, Abhinav Aggarwal, G. Matthew Fricke, Melanie E. Moses:
LoCUS: A Multi-Robot Loss-Tolerant Algorithm for Surveying Volcanic Plumes. IRC 2020: 113-120 - [i10]John Erickson, Abhinav Aggarwal, G. Matthew Fricke, Melanie E. Moses:
LoCUS: A multi-robot loss-tolerant algorithm for surveying volcanic plumes. CoRR abs/2009.00156 (2020)
2010 – 2019
- 2019
- [c26]Qi Lu, Antonio D. Griego, G. Matthew Fricke, Melanie E. Moses:
Comparing Physical and Simulated Performance of a Deterministic and a Bio-inspired Stochastic Foraging Strategy for Robot Swarms. ICRA 2019: 9285-9291 - [c25]Abhinav Aggarwal, Diksha Gupta, William F. Vining, G. Matthew Fricke, Melanie E. Moses:
Ignorance is Not Bliss: An Analysis of Central-Place Foraging Algorithms. IROS 2019: 6510-6517 - [c24]Qi Lu, Melanie E. Moses:
A Bio-Inspired Transportation Network for Scalable Swarm Foraging: Extended Abstract. MRS 2019: 53-55 - [c23]Abhinav Aggarwal, G. Matthew Fricke, Diksha Gupta, Melanie E. Moses:
On Site Fidelity and the Price of Ignorance in Swarm Robotic Central Place Foraging Algorithms. PODC 2019: 63-65 - [i9]Abhinav Aggarwal, William F. Vining, Diksha Gupta, Jared Saia, Melanie E. Moses:
A Most Irrational Foraging Algorithm. CoRR abs/1911.11973 (2019) - [i8]John Ericksen, Abhinav Aggarwal, Melanie E. Moses:
On the Minimal Set of Inputs Required for Efficient Neuro-Evolved Foraging. CoRR abs/1911.11974 (2019) - 2018
- [j7]Qi Lu, Joshua P. Hecker, Melanie E. Moses:
Multiple-place swarm foraging with dynamic depots. Auton. Robots 42(4): 909-926 (2018) - [c22]Joseph Renzullo, Westley Weimer, Melanie E. Moses, Stephanie Forrest:
Neutrality and epistasis in program space. GI@ICSE 2018: 1-8 - [i7]Sarah M. Ackerman, G. Matthew Fricke, Joshua P. Hecker, Kastro M. Hamed, Samantha R. Fowler, Antonio D. Griego, Jarett C. Jones, J. Jake Nichol, Kurt W. Leucht, Melanie E. Moses:
The Swarmathon: An Autonomous Swarm Robotics Competition. CoRR abs/1805.08320 (2018) - 2017
- [c21]John Ericksen, Melanie E. Moses, Stephanie Forrest:
Automatically evolving a general controller for robot swarms. SSCI 2017: 1-8 - [c20]Wayne A. Just, Melanie E. Moses:
Flexibility through autonomous decision-making in robot swarms. SSCI 2017: 1-8 - [c19]Drew Levin, Melanie E. Moses, Tatiana Paz Flanagan, Stephanie Forrest, Patrick D. Finley:
Negative selection based anomaly detector for multimodal health data. SSCI 2017: 1-7 - 2016
- [j6]G. Matthew Fricke, Kenneth Letendre, Melanie E. Moses, Judy L. Cannon:
Persistence and Adaptation in Immunity: T Cells Balance the Extent and Thoroughness of Search. PLoS Comput. Biol. 12(3) (2016) - [j5]George Matthew Fricke, Joshua P. Hecker, Judy L. Cannon, Melanie E. Moses:
Immune-inspired search strategies for robot swarms. Robotica 34(8): 1791-1810 (2016) - [c18]Qi Lu, Joshua P. Hecker, Melanie E. Moses:
The MPFA: A multiple-place foraging algorithm for biologically-inspired robot swarms. IROS 2016: 3815-3821 - [c17]G. Matthew Fricke, Joshua P. Hecker, Antonio D. Griego, Linh T. Tran, Melanie E. Moses:
A distributed deterministic spiral search algorithm for swarms. IROS 2016: 4430-4436 - [i6]Qi Lu, Melanie E. Moses, Joshua P. Hecker:
A Scalable and Adaptable Multiple-Place Foraging Algorithm for Ant-Inspired Robot Swarms. CoRR abs/1612.00480 (2016) - 2015
- [j4]Joshua P. Hecker, Melanie E. Moses:
Beyond pheromones: evolving error-tolerant, flexible, and scalable ant-inspired robot swarms. Swarm Intell. 9(1): 43-70 (2015) - [c16]Drew Levin, Joshua P. Hecker, Melanie E. Moses, Stephanie Forrest:
Volatility and spatial distribution of resources determine ant foraging strategies. ECAL 2015: 256-263 - [c15]George Matthew Fricke, Sarah R. Black, Joshua P. Hecker, Judy L. Cannon, Melanie E. Moses:
Distinguishing Adaptive Search from Random Search in Robots and T cells. GECCO 2015: 105-112 - [c14]Joshua P. Hecker, Justin Craig Carmichael, Melanie E. Moses:
Exploiting clusters for complete resource collection in biologically-inspired robot swarms. IROS 2015: 434-440 - [i5]Nicola Bezzo, Joshua P. Hecker, Karl Stolleis, Melanie E. Moses, Rafael Fierro:
Exploiting Heterogeneous Robotic Systems in Cooperative Missions. CoRR abs/1509.00948 (2015) - 2014
- [c13]Joshua P. Hecker, Melanie E. Moses:
Real-Time Evolution of iAnt Robot Foraging Strategies. ALIFE 2014: 835-836 - 2013
- [j3]Melanie E. Moses:
Information technology: Slouching towards utopia. Nat. 502(7471): 299-300 (2013) - [c12]G. Matthew Fricke, François Asperti-Boursin, Joshua P. Hecker, Judy L. Cannon, Melanie E. Moses:
From Microbiology to Microcontrollers: Robot Search Patterns Inspired by T Cell Movement. ECAL 2013: 1009-1016 - [c11]Joshua P. Hecker, Karl Stolleis, Bjorn Swenson, Kenneth Letendre, Melanie E. Moses:
Evolving Error Tolerance in Biologically-Inspired iAnt Robots. ECAL 2013: 1025-1032 - [c10]Kenneth Letendre, Melanie E. Moses:
Synergy in ant foraging strategies: memory and communication alone and in combination. GECCO 2013: 41-48 - [c9]Joshua P. Hecker, Melanie E. Moses:
An evolutionary approach for robust adaptation of robot behavior to sensor error. GECCO (Companion) 2013: 1437-1444 - [r1]Melanie E. Moses, Tatiana Paz Flanagan, Kenneth Letendre, G. Matthew Fricke:
Ant Colonies as a Model of Human Computation. Handbook of Human Computation 2013: 25-37 - 2012
- [c8]Joshua P. Hecker, Kenneth Letendre, Karl Stolleis, Daniel Washington, Melanie E. Moses:
Formica ex Machina: Ant Swarm Foraging from Physical to Virtual and Back Again. ANTS 2012: 252-259 - 2011
- [c7]Soumya Banerjee, Drew Levin, Melanie E. Moses, Frederick T. Koster, Stephanie Forrest:
The Value of Inflammatory Signals in Adaptive Immune Responses. ICARIS 2011: 1-14 - [c6]Melanie E. Moses, Soumya Banerjee:
Biologically inspired design principles for Scalable, Robust, Adaptive, Decentralized search and automated response (RADAR). ALIFE 2011: 30-37 - [c5]Tatiana Paz Flanagan, Kenneth Letendre, William Burnside, G. Matthew Fricke, Melanie E. Moses:
How ants turn information into food. ALIFE 2011: 178-185 - 2010
- [j2]Soumya Banerjee, Melanie E. Moses:
Scale invariance of immune system response rates and times: perspectives on immune system architecture and implications for artificial immune systems. Swarm Intell. 4(4): 301-318 (2010) - [c4]Soumya Banerjee, Melanie E. Moses:
Modular RADAR: An Immune System Inspired Search and Response Strategy for Distributed Systems. ICARIS 2010: 116-129 - [c3]Payman Zarkesh-Ha, George B. P. Bezerra, Stephanie Forrest, Melanie E. Moses:
Hybrid network on chip (HNoC): local buses with a global mesh architecture. SLIP 2010: 9-14 - [i4]Soumya Banerjee, Melanie E. Moses:
Modular RADAR: An Immune System Inspired Search and Response Strategy for Distributed Systems. CoRR abs/1006.3394 (2010) - [i3]Soumya Banerjee, Melanie E. Moses:
Scale Invariance of Immune System Response Rates and Times: Perspectives on Immune System Architecture and Implications for Artificial Immune Systems. CoRR abs/1008.1380 (2010) - [i2]Soumya Banerjee, Melanie E. Moses:
Immune System Inspired Strategies for Distributed Systems. CoRR abs/1008.2799 (2010) - [i1]Melanie E. Moses, Soumya Banerjee:
Biologically Inspired Design Principles for Scalable, Robust, Adaptive, Decentralized Search and Automated Response (RADAR). CoRR abs/1011.4199 (2010)
2000 – 2009
- 2009
- [c2]Soumya Banerjee, Melanie E. Moses:
A Hybrid Agent Based and Differential Equation Model of Body Size Effects on Pathogen Replication and Immune System Response. ICARIS 2009: 14-18 - [c1]Tamanna Arora, Melanie E. Moses:
Ant Colony Optimization for power efficient routing in manhattan and non-manhattan VLSI architectures. SIS 2009: 137-144 - 2001
- [j1]Melanie E. Moses, Stephanie Forrest:
Review of The Computational Beauty of Nature by Gary William Flake. Artif. Intell. 128(1-2): 239-242 (2001)
Coauthor Index
aka: George Matthew Fricke
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