https://sites.temple.edu/pdames/files/2016/07/DamesTokekarKumarISRR2015.pdf
t = fzr 1;t;zr 2;t;:::;zr m;tg to targets that it detects within the field of view (FoV) of its sensor. The number of measurements, mt, varies over time due to false negative and false positive detections and the mo-tion of the robots and the targets.
https://scholarshare.temple.edu/bitstreams/b1ecc345-7a7c-4776-a366-9b5585e714d6/download
London: J. Murray; 1859. Vaughan TG. IcyTree: rapid browser-based visualization for phylogenetic trees and networks. Bioinformatics. 2017;33:btx155. Kreft Ł, Botzki A, Coppens F, Vandepoele K, Van Bel M. PhyD3: a phylogenetic tree viewer with extended phyloXML support for functional genomics data visualization. Bioinformatics. 2017;33(18):2946 ...
https://sites.temple.edu/sserrano/files/2020/08/12-Modeling-Infiltration-with-Approximate-Solutions-of-Richards-Equation.pdf
x u'ui1~ub2ui! erfc (28 ) 8 F 4 E01 E11E2!tG A ~ Fig. 1 shows the water content versus distance according to Eq. 28 , Philip ! 1955 , Parlange 1971 , and experimental obser- ~ ~ ! ~ ! vation at t 1 h. Fig. 2 shows the same situation at t 3 h. Eq.