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• 10:40, 15 February 2023 ‎View frustum culling (Culling Culling) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2008 == Reference ==")
• 10:40, 15 February 2023 ‎T. Tuytelaars and L. Van Gool 2000 (Blob Detection Feature Detection) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{3})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2000 == Reference ==")
• 10:40, 15 February 2023 ‎Local scale-invariant Lowe 1999 (Blob Detection Feature Detection) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{3})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 1999 == Reference ==")
• 10:40, 15 February 2023 ‎Y. Dufournaud; C. Schmid; and R. Horaud 2000 (Blob Detection Feature Detection) (hist | edit) ‎[263 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2} loglogn)$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2000 == Reference ==")
• 10:40, 15 February 2023 ‎A. Baumberg. 2000 (Blob Detection Feature Detection) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{3})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2000 == Reference ==")
• 10:40, 15 February 2023 ‎Maximally stable extremal regions Matas 2002 (Blob Detection Feature Detection) (hist | edit) ‎[262 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2} log^{3} n)$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2002 == Reference ==")
• 10:40, 15 February 2023 ‎Lindeberg's watershed-based grey-level blob detection algorithm 1991 (Blob Detection Feature Detection) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{3})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 1991 == Reference ==")
• 10:40, 15 February 2023 ‎Spatio-temporal Geert Willems; Tinne Tuytelaars and Luc van Gool (2008) (Blob Detection Feature Detection) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2008 == Reference ==")
• 10:40, 15 February 2023 ‎Hessian-Laplace Mikolajczyk and Schmid 2004 (Blob Detection Feature Detection) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{3})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2004 == Reference ==")
• 10:40, 15 February 2023 ‎SURF Descriptor 2006 (Blob Detection Feature Detection) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2006 == Reference ==")
• 10:40, 15 February 2023 ‎Hessain Determinant Lindeberg 1998 (Blob Detection Feature Detection) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{3})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 1998 == Reference ==")
• 10:40, 15 February 2023 ‎Hessain Determinant Lindeberg 1994 (Blob Detection Feature Detection) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{3})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 1994 == Reference ==")
• 10:40, 15 February 2023 ‎SIFT Algorithm Lowe 2004 (Blob Detection Feature Detection) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{3})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2004 == Reference ==")
• 10:40, 15 February 2023 ‎T. Lindeberg DoG 2015 (Blob Detection Feature Detection) (hist | edit) ‎[255 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(nlogn)$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2015 == Reference ==")
• 10:40, 15 February 2023 ‎T. Lindeberg DoG 2012 (Blob Detection Feature Detection) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2012 == Reference ==")
• 10:40, 15 February 2023 ‎Tao Luo, Zaifeng Shi and Pumeng Wang (Corner Detection Feature Detection) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2019 == Reference ==")
• 10:40, 15 February 2023 ‎Geert Willems; Tinne Tuytelaars and Luc van Gool (2008) (Corner Detection Feature Detection) (hist | edit) ‎[319 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2008 == Reference == http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.471.6845")
• 10:40, 15 February 2023 ‎Trujillo and Olague 2008 (Corner Detection Feature Detection) (hist | edit) ‎[351 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2008 == Reference == https://www.mitpressjournals.org/doi/abs/10.1162/evco.2008.16.4.483?journalCode=evco&mobileUi=0&")
• 10:40, 15 February 2023 ‎FAST E. Rosten and T. Drummond 2006 (Corner Detection Feature Detection) (hist | edit) ‎[312 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{3})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2006 == Reference == https://www.edwardrosten.com/work/rosten_2006_machine.pdf")
• 10:40, 15 February 2023 ‎The Trajkovic and Hedley corner detector 1998 (Corner Detection Feature Detection) (hist | edit) ‎[262 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2} log^{2} n)$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 1998 == Reference ==")
• 10:40, 15 February 2023 ‎The Wang and Brady corner detection algorithm 1995 (Corner Detection Feature Detection) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 1995 == Reference ==")
• 10:39, 15 February 2023 ‎Lindeberg 2005 (Corner Detection Feature Detection) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2005 == Reference ==")
• 10:39, 15 February 2023 ‎T. Lindeberg and J. Garding (1997) (Corner Detection Feature Detection) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 1997 == Reference ==")
• 10:39, 15 February 2023 ‎Lowe (2004) (Corner Detection Feature Detection) (hist | edit) ‎[300 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2004 == Reference == https://www.cs.ubc.ca/~lowe/papers/ijcv04.pdf")
• 10:39, 15 February 2023 ‎K. Mikolajczyk; K. and C. Schmid LoG 2004 (Corner Detection Feature Detection) (hist | edit) ‎[343 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2004 == Reference == https://www.robots.ox.ac.uk/~vgg/research/affine/det_eval_files/mikolajczyk_pami2004.pdf")
• 10:39, 15 February 2023 ‎Lindeberg (1998) (Corner Detection Feature Detection) (hist | edit) ‎[312 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 1998 == Reference == https://link.springer.com/article/10.1023/A:1008045108935")
• 10:39, 15 February 2023 ‎Lindeberg (1994) (Corner Detection Feature Detection) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 1994 == Reference ==")
• 10:39, 15 February 2023 ‎J. J. Koenderink and W. Richards 1988 (Corner Detection Feature Detection) (hist | edit) ‎[322 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{3})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 1988 == Reference == https://www.osapublishing.org/josaa/abstract.cfm?uri=josaa-5-7-1136")
• 10:39, 15 February 2023 ‎Förstner algorithm 1987 (Corner Detection Feature Detection) (hist | edit) ‎[263 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2} log^{2} n)$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 1987 == Reference ==")
• 10:39, 15 February 2023 ‎Moravec's algorithm 1980 (Corner Detection Feature Detection) (hist | edit) ‎[336 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{3})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 1980 == Reference == https://www.ri.cmu.edu/pub_files/pub4/moravec_hans_1980_1/moravec_hans_1980_1.pdf")
• 10:39, 15 February 2023 ‎A. Chalmers; T. Davis; and E. Reinhard 2002 ( Ray Tracing) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2002 == Reference ==")
• 10:39, 15 February 2023 ‎J.-C. Nebel 1998 ( Ray Tracing) (hist | edit) ‎[348 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 1998 == Reference == https://www.academia.edu/814419/A_New_Parallel_Algorithm_Provided_by_a_Computation_Time_Model")
• 10:39, 15 February 2023 ‎Whitted's algorithm 1979 ( Ray Tracing) (hist | edit) ‎[299 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 1979 == Reference == https://dl.acm.org/doi/10.1145/358876.358882")
• 10:39, 15 February 2023 ‎Appel's algorithm 1968 ( Ray Tracing) (hist | edit) ‎[301 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 1968 == Reference == https://dl.acm.org/doi/10.1145/1468075.1468082")
• 10:39, 15 February 2023 ‎Dürer rendering algorithm ( Ray Tracing) (hist | edit) ‎[252 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 1956 == Reference ==")
• 10:39, 15 February 2023 ‎Greedy SEQAID (De Novo Genome Assembly De Novo Genome Assembly) (hist | edit) ‎[478 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$? == Space Complexity == $O(n^{2})$? words (Computes and stores all acceptable overlaps among all fragment pairs, along with detailed information regarding alignment, during one of the steps) == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == Word RAM == Year == 1984 == Reference == https://www.ncbi.nlm.nih.gov/pmc/articles/PMC321006/")
• 10:39, 15 February 2023 ‎Overlap Layout Consensus (De Novo Genome Assembly De Novo Genome Assembly) (hist | edit) ‎[525 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == $O(n^{2})$? words (Computes and stores all acceptable overlaps among all fragment pairs, along with detailed information regarding alignment, during one of the steps. Overlap graph has size at most O(n^2), layout and consensus should not take up more than O(n^2) space) == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation...")
• 10:39, 15 February 2023 ‎Lin–Kernighan (Approximate TSP The Traveling-Salesman Problem) (hist | edit) ‎[380 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(V^{2})$ == Space Complexity == $O(V)$ words (https://doi.org/10.1016/S0377-2217(99)00284-2) == Description == Heuristic == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == Word RAM == Year == 1981 == Reference == https://www.cs.princeton.edu/~bwk/btl.mirror/tsp.pdf")
• 10:39, 15 February 2023 ‎Rosenkrantz; D. J.; Stearns; R. E.; Lewis; P. M. (Approximate TSP The Traveling-Salesman Problem) (hist | edit) ‎[449 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(V^{2})$ == Space Complexity == $O({1})$ words (Derived: Nearest neighbor search can be done with constant auxiliary space) == Description == Nearest neighbor search == Approximate? == Approximate Approximation Factor: 1/2\log n + 1/2 == Randomized? == No, deterministic == Model of Computation == Word RAM == Year == 1974 == Reference == https://link.springer.com/chapter/10.1007/978-1-4020-9688-4_3")
• 10:39, 15 February 2023 ‎Gutina; Gregory; Yeob; Anders; Zverovich; Alexey ( The Traveling-Salesman Problem) (hist | edit) ‎[394 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == - == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2002 == Reference == https://www.researchgate.net/publication/222408030_Traveling_Salesman_Should_not_be_Greedy_Domination_Analysis_of_Greedy-Type_Heuristics_for_the_TSP")
• 10:39, 15 February 2023 ‎Johnson; D. S.; McGeoch; L. A. ( The Traveling-Salesman Problem) (hist | edit) ‎[343 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O({2}^{(p(n)$}) == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 1997 == Reference == http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.92.1635&rep=rep1&type=pdf")
• 10:39, 15 February 2023 ‎Applegate et al. (Approximate TSP The Traveling-Salesman Problem) (hist | edit) ‎[296 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(V^{2} E)$ == Space Complexity == () == Description == == Approximate? == Approximate Approximation Factor: == Randomized? == No, deterministic == Model of Computation == == Year == 2006 == Reference == https://www.jstor.org/stable/j.ctt7s8xg")
• 10:39, 15 February 2023 ‎Arbitrator solution (Dining Philosophers Problem Deadlock Avoidance) (hist | edit) ‎[356 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O({2}^n)$ == Space Complexity == $O({1})$ (adding 1 arbitrator, which is of constant size) == Description == == Approximate? == Exact == Randomized? == No, deterministic == Model of Computation == == Year == 1965 == Reference == https://en.wikipedia.org/wiki/Dining_philosophers_problem#Arbitrator_solution")
• 10:39, 15 February 2023 ‎Resource hierarchy solution (Dining Philosophers Problem Deadlock Avoidance) (hist | edit) ‎[362 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O({2}^n)$ == Space Complexity == $O(n)$ (each fork has a mutex and there are O(n) forks) == Description == == Approximate? == Exact == Randomized? == No, deterministic == Model of Computation == == Year == 1965 == Reference == https://en.wikipedia.org/wiki/Dining_philosophers_problem#Resource_hierarchy_solution")
• 10:39, 15 February 2023 ‎HJLS algorithm ( Integer Relation) (hist | edit) ‎[574 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{3}(n+k)$) == Space Complexity == $O(n^{2})$ -- but requires infinite precision with large n or else it becomes unstable (Derived: Store Gram-Schmidt basis vectors b_i (n n-dimensional vectors) and Gram-Schmidt numbers \mu_{i,j} (i and j both from 1 to n), not sure how to take into account the "bit complexity" part) == Description == == Approximate? == Exact == Randomized? == No, deterministic == Model of Computation == bit...")
• 10:39, 15 February 2023 ‎Ferreira, Camargo, Song (1D Maximum Subarray Maximum Subarray Problem) (hist | edit) ‎[351 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(log n)$ == Space Complexity == $O(n)$ auxiliary words (constant number of arrays as outlined in algorithm) == Description == == Approximate? == Exact == Randomized? == No, deterministic == Model of Computation == EREW PRAM? == Year == 2014 == Reference == https://ieeexplore.ieee.org/document/6972008")
• 10:39, 15 February 2023 ‎Bird (1D Maximum Subarray Maximum Subarray Problem) (hist | edit) ‎[334 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n)$ == Space Complexity == $O({1})$ auxiliary ??? (keep track of current tail sum and best sum) == Description == == Approximate? == Exact == Randomized? == No, deterministic == Model of Computation == ??? == Year == 1989 == Reference == https://dl.acm.org/doi/10.1093/comjnl/32.2.122")
• 10:39, 15 February 2023 ‎Gries (1D Maximum Subarray Maximum Subarray Problem) (hist | edit) ‎[377 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n)$ == Space Complexity == $O({1})$ auxiliary words (keep track of current tail sum and best sum) == Description == == Approximate? == Exact == Randomized? == No, deterministic == Model of Computation == Word/Real RAM == Year == 1982 == Reference == https://www.sciencedirect.com/science/article/pii/0167642383900151?via%3Dihub")
• 10:39, 15 February 2023 ‎Fortune ( Delaunay triangulation) (hist | edit) ‎[457 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(nlogn)$ == Space Complexity == $O(n)$ words (See Fortune's Algorithm (Voronoi diagrams); Voronoi diagram gives us O(n) circumcenters which can be used to find the O(n) triangles) == Description == == Approximate? == Exact == Randomized? == No, deterministic == Model of Computation == Real RAM? == Year == 1987 == Reference == http://www.wias-berlin.de/people/si/course/files/Fortune87-SweepLine-Voronoi.pdf")
• 10:39, 15 February 2023 ‎Power Iteration (Eigenpair with the Largest Eigenvalue Eigenvalues (Iterative Methods)) (hist | edit) ‎[452 bytes] ‎Admin (talk | contribs) (Created page with "== Time Complexity == $O(n^{2})$ == Space Complexity == $O(n)$ words (Derived: Stores an auxiliary vector) == Description == == Approximate? == Exact == Randomized? == No, deterministic == Model of Computation == Word RAM == Year == 1929 == Reference == https://onlinelibrary.wiley.com/doi/pdf/10.1002/zamm.19290090105?casa_token=xSwK6PkV010AAAAA:j_1-JKs0GG-KuwUUyM_dIt8kmOa5z6lvp_GABgDryAYxKdYvChyNGA9VA5CZLyAurWOVYPRn45geRTFk")

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