Matlab 2014a Licence File 156

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A software module was developed which enables the measurement and display of the rate of task completion, which allows the user to set a preferred rate and compare it to a second, competing, rate. The module uses algorithms to measure completion times for a given task such as button press or mouse click [ 93, 94 ]. If the user clicks on a button on the screen, the user is able to configure a maximum time to be completed and displays a graph of the click rate over time. The user can select at which point the second rate should be computed. The algorithm then analyzes the clicked sequence and displays the best completion rate in terms of duration. A typical graph is shown in Figure 9 for a series of button clicks. If no maximum time is selected, the algorithm automatically chooses the best completion rate based on the entire testing session. A user setting below the graphs can be configured to update the graphs at user defined intervals or after a user defined number of button presses or mouse clicks. The maximum time setting is also reconfigured with a mouse click. Figure 9: The software that produces this figure is available free of charge. The software package was developed in Matlab 2014a (The Mathworks, Inc. 2013).
The user can alternatively decide to use a design matrix to obtain the necessary information on body length and shell length from the data set (Figure 6 ). To use this user has to know the number of elements in the design matrix for which the user wishes to calculate values. The plot then provides an overview of the data as well as the parameter estimates for the different body and shell lengths, as well as significant parameters (e.g. the posterior density of the fixed effects). From this plot, the user can then select appropriate values from the profile for the different body and shell lengths. In our case we found that the posterior density profile of the body length and shell length indicate no difference in the body length of the barnacles from the three different habitats (Figures 7 and 8 ). These results are in line with previous studies that show that the body lengths of barnacles are not significantly influenced by salinity [ 50, 51 ], or in our case salinity after adjusting for the difference in shell size. This is in contrast to Pieper et al. [ 21 ] who reported that population density increased with salinity and that the body length of barnacles from the two populations in the inner Baltic Sea were greater than from two populations in the outer Baltic Sea. Furthermore, our results are in disagreement with Lipps et al. [ 14 ] who found that the shell lengths were greater for B. edulis from the inner Baltic Sea compared to that from the outer Baltic Sea. 2516d825b2