Student Sectioning Solver
Screen Description
In the Student Sectioning Solver screen, the user can run the sectioning solver to assign classes to students whose course requests have been entered into the system. The assignment is based on the timetable, the student requests and, if needed, on the last-like or curriculum course demands (in case only a part of current student course requests are available).
Solver not started
Solver
Status
Current status of the solver
Solver configuration
Configuration - see Solver Configurations for more information
Chose the appropriate configuration from choices listed
Solver mode
Options
Initial - starts scheduling students with no previous assignments
MPP - continues working on the loaded schedule, trying to find a better schedule for the students with as few differences from the loaded one as possible
Projection - the real student enrollments are complemented with projected student course demands (the options for which demands are in the "Projected student course demands" drop down list);
When finished
Choose what to do when the time-out limit on the solver is reached
Student weights
Options
Priority - priorities entered by students in their course requests are considered
Equal - no priorities considered, all requests have equal weight
Legacy - deprecated (used in previous versions of UniTime)
See Notes at the end of this page for more details about the options Priority and Equal
Projected student course demands
Select, what type of student course requests should be used when not all real student enrollments are available
Options
None
Last Like Student Course Demands
Projected Student Course Demands
Curricula Course Demands
Curricula Last Like Course Demands
Student Course Requests
Enrolled Student Course Demands
Host (admin)
Select server you want to run the solver on (setting "auto" means that the least occupied solver will be used; this is the default behavior for non-administrator users)
Operations
Load
Load all input data necessary for student sectioning
Start
Load all necessary data and start student sectioning
Refresh
Refresh this screen
Loading input data
During the loading phase, input data are loaded.
Solver
Input data loaded
Time stamp from the time when the latest load of input data started
For the rest, see above.
Current Student Schedule
The Current Student Schedule is empty during the loading phase.
Operations
Refresh
Refresh this screen
When loading is done, new buttons will appear
Awaiting commands
Current Student Schedule
The Current Student Schedule has been loaded into the solver together with the input data. The section for the Current Student Schedule has one operation: Store To Best - store the current student schedule to the Best Student Schedule Found So Far.
Operations
Start
Start the solver which will section students
Reload Input Data
Reload input data while keeping the current student schedule
The assignments that are no longer valid due to the change in the input data will be unassigned
Save
Save the Best Student Schedule Found So Far
Clear
Clear the student-class assignments
Unload
Unload all data and the student schedule from the solver
Refresh
Refresh this screen
Solving problem
Solver
See above
Operations
Stop
Stop the solver
Refresh
Refresh this screen
Solver stopped
Best Student Schedule Found So Far
During the automated scheduling (when the solver is running), the best student schedule found so far is saved here. It is the schedule that is presented to the user when he/she stops the solver or when the time-out is reached.
When the user interacts and makes changes, he/she can save intermediate results as "Best Student Schedule Found So Far" and later come back to this schedule if the current one is not good.
Current Student Schedule
When solver is stopped, the Best Student Schedule Found So Far is the same as the Current Student Schedule. If the solver is running, you can see the current solution it is working with in this section.
Operations
Restore From Best
Discard the current student schedule and start again from the best student schedule found so far
Store To Best
Overwrite the Best Student Schedule Found So Far with this current student schedule
Problems
The list of warnings appears if any problem occurred during the data load. If there is a problem during solving, there will be an error message (such as Error: FATAL).
Operations
Start
Restart the solver from the current student schedule
Reload Input Data
Reload the data from the Input Data section without loosing the assignments in the current student schedule; only prohibited assignments will be lost if breaking hard constraints is not allowed
Save
Save the best student schedule found so far
Student class enrollments are saved for real students; projected demands are used to update class expected demands for online student scheduling
Clear
Clear student-class assignments
Unload
Unload both the input data and the student schedule from memory (any student schedule will be lost unless saved in the Best Student Schedule Found So Far section)
Refresh
Refresh this screen
Notes
Description of the student weights as written in UniTime 3.3 Release Notes
Priority student weighting model
First priority request has better weight than all the rest
Total weight for a student should be between zero and one, one for a fully satisfied student
Request weight: 1st priority 0.501, 2nd priority 0.250, 3rd priority 0.1248, 4th priority 0.0623, ... (1/2 for alternatives, e.g., 0.2505 for the first alternative of a course)
1/2 and 1/4 for the alternatives; but the difference will be distributed down-wards (student has more weight to get the n+1, n+2, ... priority courses)
Weights are rounded to four digits
The rest to 1 -- put to the last request or split evenly between all of them.
Alternative (equal) weighting model
All course (non alternative) requests have equal weight (priority is ignored)
First alternatives have lower weight than first choices, but equal among themselves
Second alternatives have lower weight than first alternatives, alternative course requests than second alternatives
There are three ways to use student sectioning
When all students are preregistered, the projected demand is none
If only some students are preregistered, loading and solving preregistered and projected demands together allows students use of online scheduling
Projection mode is used to recalcule the projected demands