Theory & Algorithms:
If you haven't already read about it, the shortest path problem is mainly the challenge that most journey planning algorithms are dealing with. On the wiki page, read the "Algorithms" section for a list of possible solutions (Dijkstra's is probably the most popular). There are some algorithm variations specifically for public transport, such as RAPTOR.
Model & Journey Planner:
Depending on the scope of your work, it could be over the top to design a model and to implement the whole journey planner on your own.
I would suggest that you provide your data (stops, connections, times, ...) in the GTFS format (really easy, based on CSV files) and then use a journey planner such as OpenTripPlanner. It takes several planning factors into account and can import the GTFS data that you provide. There is also an Android implementation of OpenTripPlanner, but I'm not sure how advanced it is.
Other than GTFS/OpenTripPlanner, there is a widely used standard in Europe to model transport information, called Transmodel, and supporting planning engines like "JourneyWeb". Many local transport providers (including the one in my city) build their services on top of Transmodel. But I think that would be way harder to implement (plus I'm not sure about licenses and free/open implementations), so I'd stick to the above-mentioned solution.