2008 |
21 | EE | Benjamin E. Beckmann,
Philip K. McKinley,
Charles Ofria:
Selection for group-level efficiency leads to self-regulation of population size.
GECCO 2008: 185-192 |
20 | EE | Laura M. Grabowski,
Wesley R. Elsberry,
Charles Ofria,
Robert T. Pennock:
On the evolution of motility and intelligent tactic response.
GECCO 2008: 209-216 |
19 | EE | David B. Knoester,
Philip K. McKinley,
Charles Ofria:
Cooperative network construction using digital germlines.
GECCO 2008: 217-224 |
18 | EE | Jeff Clune,
Charles Ofria,
Robert T. Pennock:
How generative encodings fare on less regular problems.
GECCO 2008: 867-868 |
17 | EE | Jeff Clune,
Charles Ofria,
Robert T. Pennock:
How a Generative Encoding Fares as Problem-Regularity Decreases.
PPSN 2008: 358-367 |
16 | EE | Charles Ofria,
Wei Huang,
Eric Torng:
On the Gradual Evolution of Complexity and the Sudden Emergence of Complex Features.
Artificial Life 14(3): 255-263 (2008) |
15 | EE | Philip K. McKinley,
Betty H. C. Cheng,
Charles Ofria,
David B. Knoester,
Benjamin E. Beckmann,
Heather Goldsby:
Harnessing Digital Evolution.
IEEE Computer 41(1): 54-63 (2008) |
2007 |
14 | EE | Benjamin E. Beckmann,
Philip K. McKinley,
Charles Ofria:
Evolution of an Adaptive Sleep Response in Digital Organisms.
ECAL 2007: 233-242 |
13 | EE | David B. Knoester,
Philip K. McKinley,
Benjamin E. Beckmann,
Charles Ofria:
Directed Evolution of Communication and Cooperation in Digital Organisms.
ECAL 2007: 384-394 |
12 | EE | Jeff Clune,
Charles Ofria,
Robert T. Pennock:
Investigating the Emergence of Phenotypic Plasticity in Evolving Digital Organisms.
ECAL 2007: 74-83 |
11 | EE | David B. Knoester,
Philip K. McKinley,
Charles Ofria:
Using group selection to evolve leadership in populations of self-replicating digital organisms.
GECCO 2007: 293-300 |
10 | EE | Benjamin E. Beckmann,
Philip K. McKinley,
David B. Knoester,
Charles Ofria:
Evolution of Cooperative Information Gathering in Self-Replicating Digital Organisms.
SASO 2007: 65-76 |
2004 |
9 | EE | George I. Hagstrom,
Dehua H. Hang,
Charles Ofria,
Eric Torng:
Using Avida to Test the Effects of Natural Selection on Phylogenetic Reconstruction Methods.
Artificial Life 10(2): 157-166 (2004) |
8 | EE | Charles Ofria,
Claus O. Wilke:
Avida: A Software Platform for Research in Computational Evolutionary Biology.
Artificial Life 10(2): 191-229 (2004) |
2003 |
7 | EE | Dehua H. Hang,
Charles Ofria,
Thomas M. Schmidt,
Eric Torng:
The Effect of Natural Selection on Phylogeny Reconstruction Algorithms.
GECCO 2003: 13-24 |
6 | EE | Charles Ofria,
Christoph Adami,
Travis C. Collier:
Selective pressures on genomes in molecular evolution
CoRR quant-ph/0301075: (2003) |
2002 |
5 | | Charles Ofria,
Christoph Adami,
Travis C. Collier:
Design of evolvable computer languages.
IEEE Trans. Evolutionary Computation 6(4): 420-424 (2002) |
2000 |
4 | EE | Charles Ofria,
Christoph Adami,
Travis C. Collier,
Grace K. Hsu:
Evolution of differentiated expression patterns in digital organisms
CoRR physics/0002054: (2000) |
3 | EE | Christoph Adami,
Charles Ofria,
Travis C. Collier:
Evolution of Biological Complexity
CoRR physics/0005074: (2000) |
1999 |
2 | | Charles Ofria,
Christoph Adami,
Travis C. Collier,
Grace K. Hsu:
Evolution of Differentiated Expression Patterns in Digital Organisms.
ECAL 1999: 129-138 |
1 | EE | Charles Ofria,
Christoph Adami:
Evolution of genetic organization in digital organisms
CoRR adap-org/9903003: (1999) |