Well, you'll need a protocol, a server, and ideally some helper libraries for the clients.
I suggest you look into Thrift or Protobuf for your network interface. Either of those will give you a cross-language data encoding for free. Thrift you get stubs of both server and client code; I'm less familiar with protobuf but I believe you get something similar out of it.
The server would be something that you run that stores authoritative game state, coordinates play, and ensures that everybody is following the rules. You could also create an HTML5 visualization layer right on the server. Alternatively, you could write a non-player client that just grabs and displays game state in a loop. If you use the libraries I suggest, it wouldn't matter what language you decide to write the server in.
You also want to provide a stubbed-out client with no real AI in every supported language, with cross-platform build instructions. It would know how to connect to the server, query game state, and execute some simple action. That way, contestants would not have to worry about the network code and could concentrate on the AI stuff.
Finally, some kind of submission or login system would be needed. You could either take submissions of source code and build and run the AI's yourself (which would allow you to control CPU and memory usage). This would require you to build your own tools for processing these submissions and building them, and to decide what kinds of libraries would be available, how many files and how big could be submitted, etc. Security also becomes an issue because you are running submitted code. Alternatively, you could just expose the rule-enforcing game server and give clients a way to tell you whose submission they are. That would give players more freedom to try unusual solutions or use their own libraries to get the job done, and would be simpler to implement, but may give some advantage to competitors with lots of CPU and memory to throw at a solution.
Take a look at Dino Island for Facebook's take on a similar competetive simulation programming puzzle.