Commit d4c1e4ec by Victor

### updated docs

parent 1fc44397
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 ... @@ -34,6 +34,7 @@ Here is how you can visualise the landscape. ... @@ -34,6 +34,7 @@ Here is how you can visualise the landscape. using GraphPlot using GraphPlot gplot(g, collect(1:nodes), collect(1:nodes)) gplot(g, collect(1:nodes), collect(1:nodes))   ![delta_comp_pos](../assets/tutorials/line.png) ## Defining competition processes ## Defining competition processes We propose that any individual have a constant birth rate, and competes with all the individuals present in the same patch. Let i \in \N,x_i \in \{1,2,\dots,9\}. We propose that any individual have a constant birth rate, and competes with all the individuals present in the same patch. Let i \in \N,x_i \in \{1,2,\dots,9\}. ... ...
 ... @@ -2,6 +2,12 @@ ... @@ -2,6 +2,12 @@ In this tutorial, we model agents evolving on a discrete segment, where each patch favours an optimal adaptive trait, along a gradient. This is typically the case along an altitudinal gradient. In this tutorial, we model agents evolving on a discrete segment, where each patch favours an optimal adaptive trait, along a gradient. This is typically the case along an altitudinal gradient. Here is what the geographical space looks like. ![delta_comp_pos](../assets/tutorials/adapt_line.png) Every colour stands for a different optimal trait. ## Run the world ## Run the world julia julia using Revise,ABMEv,Plots,UnPack using Revise,ABMEv,Plots,UnPack ... ...
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