First, if you want to use dependency injection, you'll have to go through a third party dependency injection container - NInject or Unity for example among many others (or building your own if you are looking for some challenge).
Second, your HomeController should take an abstract unit of work type (interface or abstract class) as a parameter. You are actually using a concrete type in your HomeController constructor which is not how things should work in a dependency injection world (when using "Constructor Injection", your dependency container is in charge of providing the concrete implementation for the abstraction, based on container configuration).
UnitOfWork<Student> does not make a lot of sense. A
Repository<Student> would make some sense, but a Unit Of Work is not working on a single "Type" but rather on a "collection" of different data sets (a unit of work is potentially working on a collection of repositories). What would make sense here is to specify a parameter
IUnitOfWork unitOfWork in your HomeController constructor, and configure your depency container to pass in a concrete
UnitOfWork object on which you can get your
Repository<Student> do operations on it in your action method (and potentially on other repositories accessed from the UnitOfWork object) and then Commit all modifcations by calling the associated method on the
You should make some searches arround NInject use with ASP.NET MVC3 and also take a look at EntityFramework if you are dealing with UnitOfWork and Repository patterns (and if data is backed by a DB).
In reaction to your comment dealing with
As I said before, it does not make a lot of sense :
A UnitOfWork can be grossly seen as a "container" of repositories, giving access to these repositories and coordinating actions (like commiting all the changes) on these repositories. You should rather have an abstract non generic type
IUnitOfWork, providing access to generic repositories such as
IRepository<Course>, and also containing a Commit method which would commit to DB (or file, or memory or whatever the unitofwork/repository implementation is targeting to persist data).
This way instead of injecting an
IRepository<Course> in your controller constructor (or if your controller needs to work on 10 different repositories, well, pass 10 parameters :S), you just accept a single parameter of abstract type IUnitOfWork (the concrete instance being injected by the DI container), and then any action method can work on any set of repository by getting them from the UnitOfWork, and once it has done all the changes, it can call Commit on the unitOfWork which will take care of comming all the modifications that have been done in the repository.
That's the theory and the general idea.
Now more specifically about DI in ASP.NET MVC, the more common way (there are other ways) of "plumbing" the DI container is to create a class inheriting from
IDependencyResolver making use of the DI container to resolve types, and in
DependencyResolver.SetResolver whith an instance of this class.
This way, when ASP.NET MVC is asked to create a controller (end user request), it will go through this depency resolver to ask for an instance of the controller, and this dependency resolver will turn to the DI container to create an instance of the controller by taking care of all needed injection.
You should take a look on the website / forums of your specific DI container as they all show ways to plumb it with ASP.NET MVC.
This is just a very high overview, there are a lot of tricky details, but that's the gross idea.
Just posted an article (my first one) on my blog to explain how to correctly use the Repository and UnitOfWork patterns in an ASP.NET MVC project.