Add to ORKGAbstract—A new derivative-free optimization method for unconstrained optimization of partially separable functions is presented. Using average curvature information computed from sampled function values the method generates an average Hessian-like matrix and uses its eigenvectors as new search directions. Numerical experiments demonstrate that this new derivative free optimization method has the very desirable property of avoiding saddle points. This is illustrated on two test functions and compared to other well known derivative free methods. Further, we compare the efficiency of the new method with two classical derivative methods using a class of testproblems
A numerical study of model-based methods for derivative-free optimization is presented. These method...
A novel derivative-free algorithm, called optimization by moving ridge functions (OMoRF), for uncons...
In this paper, we consider the unconstrained optimization problem under the following situation: (S1...
A new derivative-free optimization method for unconstrained optimization of partially separable func...
A new derivative-free optimization method for unconstrained optimization of partially separable func...
Abstract—A new derivative-free optimization method for unconstrained optimization of partially separ...
A new derivative-free optimization method for unconstrained optimization of partially separable func...
A simple derivative free optimization method is presented. Some examples are provided showing the sp...
We present an introduction to a new class of derivative free methods for unconstrained optimization....
We present an introduction to a new class of derivative free methods for unconstrained optimization....
In this survey article we give the basic description of the interpolation based derivative free opti...
Derivative free optimization algorithms are implementations of trust region based derivative-free me...
A numerical study of model-based methods for derivative-free optimization is presented. These method...
A numerical study of model-based methods for derivative-free optimization is presented. These method...
A numerical study of model-based methods for derivative-free optimization is presented. These method...
A numerical study of model-based methods for derivative-free optimization is presented. These method...
A novel derivative-free algorithm, called optimization by moving ridge functions (OMoRF), for uncons...
In this paper, we consider the unconstrained optimization problem under the following situation: (S1...
A new derivative-free optimization method for unconstrained optimization of partially separable func...
A new derivative-free optimization method for unconstrained optimization of partially separable func...
Abstract—A new derivative-free optimization method for unconstrained optimization of partially separ...
A new derivative-free optimization method for unconstrained optimization of partially separable func...
A simple derivative free optimization method is presented. Some examples are provided showing the sp...
We present an introduction to a new class of derivative free methods for unconstrained optimization....
We present an introduction to a new class of derivative free methods for unconstrained optimization....
In this survey article we give the basic description of the interpolation based derivative free opti...
Derivative free optimization algorithms are implementations of trust region based derivative-free me...
A numerical study of model-based methods for derivative-free optimization is presented. These method...
A numerical study of model-based methods for derivative-free optimization is presented. These method...
A numerical study of model-based methods for derivative-free optimization is presented. These method...
A numerical study of model-based methods for derivative-free optimization is presented. These method...
A novel derivative-free algorithm, called optimization by moving ridge functions (OMoRF), for uncons...
In this paper, we consider the unconstrained optimization problem under the following situation: (S1...