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python - Efficient scheduling of university courses

I'm currently working on a website that will allow students from my university to automatically generate valid schedules based on the courses they'd like to take.

Before working on the site itself, I decided to tackle the issue of how to schedule the courses efficiently.

A few clarifications:

  1. Each course at our university (and I assume at every other university) comprises of one or more sections. So, for instance, Calculus I currently has 4 sections available. This means that, depending on the amount of sections, and whether or not the course has a lab, this drastically affects the scheduling process.

  2. Courses at our university are represented using a combination of subject abbreviation and course code. In the case of Calculus I: MATH 1110.

  3. The CRN is a code unique to a section.

  4. The university I study at is not mixed, meaning males and females study in (almost) separate campuses. What I mean by almost is that the campus is divided into two.

  5. The datetimes and timeranges dicts are meant to decreases calls to datetime.datetime.strptime(), which was a real bottleneck.

My first attempt consisted of the algorithm looping continuously until 30 schedules were found. Schedules were created by randomly choosing a section from one of the inputted courses, and then trying to place sections from the remaining courses to try to construct a valid schedule. If not all of the courses fit into the schedule i.e. there were conflicts, the schedule was scrapped and the loop continued.

Clearly, the above solution is flawed. The algorithm took too long to run, and relied too much on randomness.

The second algorithm does the exact opposite of the old one. First, it generates a collection of all possible schedule combinations using itertools.product(). It then iterates through the schedules, crossing off any that are invalid. To ensure assorted sections, the schedule combinations are shuffled (random.shuffle()) before being validated. Again, there is a bit of randomness involved.

After a bit of optimization, I was able to get the scheduler to run in under 1 second for an average schedule consisting of 5 courses. That's great, but the problem begins once you start adding more courses.

To give you an idea, when I provide a certain set of inputs, the amount of combinations possible is so large that itertools.product() does not terminate in a reasonable amount of time, and eats up 1GB of RAM in the process.

Obviously, if I'm going to make this a service, I'm going to need a faster and more efficient algorithm. Two that have popped up online and in IRC: dynamic programming and genetic algorithms.

Dynamic programming cannot be applied to this problem because, if I understand the concept correctly, it involves breaking up the problem into smaller pieces, solving these pieces individually, and then bringing the solutions of these pieces together to form a complete solution. As far as I can see, this does not apply here.

As for genetic algorithms, I do not understand them much, and cannot even begin to fathom how to apply one in such a situation. I also understand that a GA would be more efficient for an extremely large problem space, and this is not that large.

What alternatives do I have? Is there a relatively understandable approach I can take to solve this problem? Or should I just stick to what I have and hope that not many people decide to take 8 courses next semester?

I'm not a great writer, so I'm sorry for any ambiguities in the question. Please feel free to ask for clarification and I'll try my best to help.

Here is the code in its entirety.

http://bpaste.net/show/ZY36uvAgcb1ujjUGKA1d/

Note: Sorry for using a misleading tag (scheduling).

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Scheduling is a very famous constraint satisfaction problem that is generally NP-Complete. A lot of work has been done on the subject, even in the same context as you: Solving the University Class Scheduling Problem Using Advanced ILP Techniques. There are even textbooks on the subject.

People have taken many approaches, including:

You need to reduce your problem-space and complexity. Make as many assumptions as possible (max amount of classes, block based timing, ect). There is no silver bullet for this problem but it should be possible to find a near-optimal solution.

Some semi-recent publications:


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