Computational complexity analysis of two target tracking algorithms

Çiydem, Mehmet


Computational analysis of network activity and spatial reach of sharp wave-ripples
Canakci, Sadullah; Toy, Muhammed Faruk; Inci, Ahmet Fatih; Liu, Xin; Kuzum, Duygu (Public Library of Science (PLoS), 2017-9-15)
Network oscillations of different frequencies, durations and amplitudes are hypothesized to coordinate information processing and transfer across brain areas. Among these oscillations, hippocampal sharp wave-ripple complexes (SPW-Rs) are one of the most prominent. SPW-Rs occurring in the hippocampus are suggested to play essential roles in memory consolidation as well as information transfer to the neocortex. To-date, most of the knowledge about SPW-Rs comes from experimental studies averaging responses fro...
Computational Modeling of Spintronic Materials
Sürücü, Gökhan (Frontiers, 2021-03-01)
In research topic “Computational Modeling of Spintronic Materials”, we collected 17 articles dealing with themes as below:i. Recent advances of spintronic materials;ii. Frontiers in computational modeling of functional materials.Heulser alloys are famous spintronic materials due to they usually host high Curie temperature and adjustable structures. Zhang et al. (Zhang et al., 2020) proposed quaternary Heusler compound CoCrScSn is a half-metal with 100% spin-polarization. Moreover, the elastic constants and ...
Computational analysis of complicated metamaterial structures using MLFMA and nested preconditioners
Ergül, Özgür Salih; Yavuz, Ç.; Ünal, A.; Gürel, L. (2007-11-16)
We consider accurate solution of scattering problems involving complicated metamaterial (MM) structures consisting of thin wires and split-ring resonators. The scattering problems are formulated by the electric-field integral equation (EFIE) discretized with the Rao-WiltonGlisson basis functions defined on planar triangles. The resulting dense matrix equations are solved iteratively, where the matrix-vector multiplications that are required by the iterative solvers are accelerated with the multilevel fast m...
Computational fluid dynamics analysis of store seperation
Demir, H. Özgür; Alemdaroğlu, Hüseyin Nafiz; Department of Aerospace Engineering (2004)
In this thesis, store separation from two different configurations are solved using computational methods. Two different commercially available CFD codes; CFD-FASTRAN, an implicit Euler solver, and an unsteady panel method solver USAERO, coupled with integral boundary layer solution procedure are used for the present computations. The computational trajectory results are validated against the available experimental data of a generic wing-pylon-store configuration at Mach 0.95. Major trends of the separation...
Computational analysis of flapping airfoil aerodynamics
Tuncer, İsmail Hakkı; Ekaterinaris, John A. (null; 1994-01-01)
A Navier-Stokes, a potential flow and an interactive Navier-Stokes/potential flow analysis are described for the determination of the flowfield and of the aerodynamic forces generated by a flapping airfoil in low subsonic flow. The numerical solutions predict thrust for a sinusoidally flapping motion with a mean amplitude of 0.10 c and a reduced frequency of k = 1.5. The thrust producing vortical wake profiles are identified. The interactive Navier-Stokes/potential flow solution method yields as accurate a ...
Citation Formats
M. Çiydem, “Computational complexity analysis of two target tracking algorithms,” Middle East Technical University, 1995.