I would suggest reading the following article:
SQL Server 2005 Row Versioning-Based Transaction Isolation
While the article is specifically about Sql Server 2005, it gives a great summary of the various types of concurrency control:
There are two primary models that are used in controlling concurrency:
pessimistic concurrency and optimistic concurrency.
In a pessimistic concurrency control-based system, locks are used to
prevent users from modifying data in a way that affects other users.
After a lock has been applied, other users cannot perform actions that
would conflict with the lock until the owner releases it. This level
of control is used in environments where there is high contention for
data, and where the cost of protecting the data by using locks is less
than the cost of rolling back transactions if or when concurrency
Conversely, in an optimistic concurrency control-based system, users
do not lock data when they read it. When an update is performed, the
system checks to see whether another user has changed the data after
it was read. If another user updated the data, an error is raised.
Typically, the user that receives the error rolls back the
transaction, and then resubmits the transaction. This is called
optimistic concurrency because it is mainly used in environments where
there is low contention for data, and where the cost of occasionally
rolling back a transaction outweighs the costs of locking data when it
Read committed isolation using row versioning is somewhere in between
pessimistic and optimistic concurrency. Under this isolation level,
read operations do not acquire locks against the live data. However,
with update operations the process is the same for this isolation
level as it is for the default read committed isolation level: The
selection of rows to update is done by using a blocking scan where an
update lock is taken on the data row as data values are read.
Snapshot isolation, on the other hand, is truly optimistic because
data that is to be modified is not actually locked in advance, but the
data is locked when it is selected for modification. When a data row
meets the update criteria, the snapshot transaction verifies that the
data has not been modified by another transaction after the snapshot
transaction started. If the data has not been modified by another
transaction, the snapshot transaction locks the data, updates the
data, releases the lock, and moves on. If the data has been modified
by another transaction, an update conflict occurs and the snapshot
transaction rolls back.
Like the comments suggested, the type of concurrency control used varies not only by the database platform being used, but also varies within platforms based on the settings used.