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@@ -13,7 +13,29 @@ Flatland
 
 
 
-Multi Agent Reinforcement Learning on Trains
+Flatland is a toolkit for developing and comparing multi agent reinforcement learning algorithms on grids.
+The base environment is a two-dimensional grid in which many agents can be placed. Each agent must solve one or more tasks in the grid world.
+In general, agents can freely navigate from cell to cell. However, cell-to-cell navigation can be restricted by transition maps.
+Each cell can hold an own transition map. By default, the cell doesn't have any restriction of movement defined in its transition map. So, the agent can freely move to any neighbor cell.
+With other world the agent can move to all eight neighbor cells (go up and left, go up, go up and right, go right, go down and right, go down, go down and left, go left).
+
+The general purpose of the implementation allows to implement any kind of 2D gird based environments.
+It can be used for many learning task where a two-dimensional grid could be the base of the environment.
+
+Flatland delivers a python implementation which can be easily extended. And it provides different baselines for different environments.
+Each environment enables an interesting task to solve. For example, the mutli-agent navigation task for railway train dispatching is a very exciting topic.
+It can be easily extended or adapted to the airplane landing problem. This can further be the basic implementation for many other tasks in transportation and logistics.
+
+Mapping a railway infrastructure into a grid world is an excellent example showing how the movement of an agent must be restricted.
+As trains can normally not run backwards and they have to follow rails the transition for one cell to the other depends also on train's orientation, respectively on train's travel direction.
+Trains can only change the traveling path at switches. There are two variants of switches. The first kind of switch is the splitting "switch", where trains can change rails and in consequence they can change the traveling path.
+The second kind of switch is the fusion switch, where train can change the sequence. That means two rails come together. Thus, the navigation behavior of a train is very restricted.
+The railway planning problem where many agents share same infrastructure is a very complex problem.
+
+Furthermore, trains have a departing location where they cannot depart earlier than the committed departure time.
+Then they must arrive at destination not later than the committed arrival time. This makes the whole planning problem
+very complex. In such a complex environment cooperation is essential. Thus, agents must learn to cooperate in a way that all trains (agents) arrive on time.
+
 
 Getting Started
 ===============