If you control the code for all the instances, then you can create a table in the database where each instance that starts, looks in this table for a record with a timestamp. Lets call it your "lock" record.
If a process finds that the lock record does not exist, then it inserts the record and processes the data you require.
If a process finds that the lock record does exist then you can assume that another process has created it and do nothing, busy wait, or what ever.
With this design you are effectively creating a "lock" in the database to synchronize your processes with. You code it, so all processes know they have to adhere to the logic of the lock record.
Once the first process that has the lock, has completed processing, it should clear the lock record so the next restart behaves correctly. You also need to think about the situation where the lock has not been cleared due to a server error, or execution erorr. Typically, if the lock is older than
n minutes you can consider it to be "stale", therefore delete it, and create it again (or just update it).
When dealing with the "lock" record be sure to utilise the Serializable isolation level on your DB connection in order to guarantee atomicity.
The Service layer of your Java code can enforce with your locking strategy prior to calling your Data Access layer. It won't matter whether you use Hibernate or not, as it's just application logic.