eng
Two limited-memory optimization methods with minimum violation of the previous quasi-Newton equations
nusl-432144
Vlček, Jan
Lukšan, Ladislav
2020
unconstrained minimization
variable metric methods
limited-memory methods
variationally derived methods
global convergence
numerical results
http://invenio.nusl.cz/record/432144/files/0532367-V-1280.pdf
http://hdl.handle.net/11104/0310865
http://www.nusl.cz/ntk/nusl-432144
text/pdf
Limited-memory variable metric methods based on the well-known BFGS update are widely used for large scale optimization. The block version of the BFGS update, derived by Schnabel (1983), Hu and Storey (1991) and Vlček and Lukšan (2019), satisfies the quasi-Newton equations with all used difference vectors and for quadratic objective functions gives the best improvement of convergence in some sense, but the corresponding direction vectors are not descent directions generally. To guarantee the descent property of direction vectors and simultaneously violate the quasi-Newton equations as little as possible in some sense, two methods based on the block BFGS update are proposed. They can be advantageously combined with methods based on vector corrections for conjugacy (Vlček and Lukšan, 2015). Global convergence of the proposed algorithm is established for convex and sufficiently smooth functions. Numerical experiments demonstrate the efficiency of the new methods.
21 s.
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