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Automatic Programming has long been a sub-goal of Artificial Intelligence (AI). It is feasible in limited domains. Genetic Improvement (GI) has expanded these dramatically to more than 100 000 lines of code by building on human written applications. Further scaling may need key advances in both Search Based Software Engineering (SBSE) and Evolutionary Computation (EC) research, particularly on representations, genetic operations, fitness landscapes, fitness surrogates, multi objective search and co-evolution
Evolutionary Computation (EC) has been an active research area for over 60 years, yet its commercial...
Genetic Programming (GP) has been criticized for targeting irrelevant problems [12], and is also tru...
Evolutionary Computation (EC) has been an active research area for over 60 years, yet its commercial...
Automatic Programming has long been a sub-goal of Artificial Intelligence (AI). It is feasible in li...
Automatic Programming has long been a sub-goal of Artificial Intelligence (AI). It is feasible in li...
Automatic Programming has long been a sub-goal of Artificial Intelligence (AI). It is feasible in li...
Genetic improvement uses automated search to find improved versions of existing software. We present...
Genetic improvement uses automated search to find improved versions of existing software. We present...
Genetic improvement (GI) uses automated search to find improved versions of existing software. We pr...
Living organisms are consummate problem solvers. They exhibit a versatility that puts the best compu...
Evolutionary Computation (EC) has been an active research area for over 60 years, yet its commercial...
Evolutionary Computation (EC) has been an active research area for over 60 years, yet its commercial...
Evolutionary Computation (EC) has been an active research area for over 60 years, yet its commercial...
We re-examine the central motivation behind Genetic Improvement Programming (GIP), and argue that t...
Genetic Programming (GP) has been criticized for targeting irrelevant problems [12], and is also tru...
Evolutionary Computation (EC) has been an active research area for over 60 years, yet its commercial...
Genetic Programming (GP) has been criticized for targeting irrelevant problems [12], and is also tru...
Evolutionary Computation (EC) has been an active research area for over 60 years, yet its commercial...
Automatic Programming has long been a sub-goal of Artificial Intelligence (AI). It is feasible in li...
Automatic Programming has long been a sub-goal of Artificial Intelligence (AI). It is feasible in li...
Automatic Programming has long been a sub-goal of Artificial Intelligence (AI). It is feasible in li...
Genetic improvement uses automated search to find improved versions of existing software. We present...
Genetic improvement uses automated search to find improved versions of existing software. We present...
Genetic improvement (GI) uses automated search to find improved versions of existing software. We pr...
Living organisms are consummate problem solvers. They exhibit a versatility that puts the best compu...
Evolutionary Computation (EC) has been an active research area for over 60 years, yet its commercial...
Evolutionary Computation (EC) has been an active research area for over 60 years, yet its commercial...
Evolutionary Computation (EC) has been an active research area for over 60 years, yet its commercial...
We re-examine the central motivation behind Genetic Improvement Programming (GIP), and argue that t...
Genetic Programming (GP) has been criticized for targeting irrelevant problems [12], and is also tru...
Evolutionary Computation (EC) has been an active research area for over 60 years, yet its commercial...
Genetic Programming (GP) has been criticized for targeting irrelevant problems [12], and is also tru...
Evolutionary Computation (EC) has been an active research area for over 60 years, yet its commercial...
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