First of all, don't do a new AutoNumber field since that will give you the opposite of what you need... it would by definition generate unique values, thereby nullifying enforcement of uniqueness of the two principle fields (date and training).
If you have at least Access 2010 then I recommend using Data Macros to set a third column (as you suggest). One alternative would be to relax the actual table constraints (i.e. indexes) and then put all the validation in the entry form code. That can work sufficiently well if there are limited forms & only one database user at a time, and no rogue code that will contradict your rules, but I find that both cumbersome and contrary to the idea of using the database to enforce as much of the data rules as possible. Also, there is really no way for "this other column [to] detect" changes in other fields. An individual column has no such ability. A Data Macros can indeed inspect, validate and change values for inserted and updated rows, so perhaps that satisfies what you meant but it operates on a table and row basis.
Since the question supplied no formal database schema, here is a schema on which the example data macro is based:
Table [Training]: [ID] AutoNumber, Primary Key
[Title] Text, Required
[Multiple] Boolean, Default false
Table [Schedule]: [ID] AutoNumber, Primary Key
[TrainingDate] DateTime, Required
[TrainingID] Long, Required (FK to Training.ID)
[MultipleSeq] Integer, NOT Required, Default 0
Unique index on [TrainingDate], [TrainingID] and [MultipleSeq]
[MultipleSeq] is not required (Required: No) so that setting its field to null allows multiple records despite the uniqueness constraint on the index.
The following Before Change data macro updates the additional indexed column to either null or a static value, depending on the selected training course. This overall solution could also work with a single training field, where the data macro checks the training title instead of the [Training].[Multiple] column. The benefit of the schema I show is that you could have multiple such exceptions to the unique constraint and the name of the "generic training" could be updated without updating all rows (this is really just an effect of properly normalized tables).
Paste the following into the Before Change data macro of the Schedule table:
<?xml version="1.0" encoding="UTF-16" standalone="no"?>
<Comment>The specified training allows multiple entries per date, so set [MultipleSeq] to null to circumvent the uniqueness requirement.</Comment>