I'm a high school senior interested in computer science and I have been programming for almost nine years now. I've recently become interested in machine learning and I have decided to implement a neural network. I haven't begun to code it yet and have been in the designing stage for a while now. The objective of the program is to analyze a student's paper, along with some other information, and then predict what grade the student will receive, much like PaperRater. However, I plan to make it far more personal than PaperRater.

The program has four inputs, one is the student's paper, the second is the student's id (i.e, primary key), third is the teacher's id, and finally the course id. I am implementing this on a website where registered, verified users alone can submit their papers for grading. The contents of the paper are going to be weighed in relation to the relationship between the teacher and student and in relation to the course difficulty. The network adapts to the teacher's grading habits for certain classes, the relationship between the teacher and student (e.g., if a teacher dislikes a student you might expect to see a drop in the student's grades), and the course-level (e.g., a teacher shouldn't grade a freshman's paper as harshly as a senior's paper).

However, this approach poses some considerable problems. There is an inherent limit imposed, where the numbers of students, teachers and courses prove to be too much and everything blows up! That's because there is no magic number which can account for every combination of student, teacher and course.

So, I've concluded that each teacher, student, and course must have an individual (albeit arbitrary) weight associated with them, not present in the Neural Network itself. The teacher's weight would describe her grading difficulty, and the student's weight would describe her ability as a writer. The weight of the course would describe the difficulty of the course. Of course, as more and more data is aggregated, the weights should adapt to become more accurate representations.

I realize that there is a relation between teachers and students, teachers and courses, and students and courses; therefore, I plan to make three respective hidden layers which sum the weights of its inputs and apply an activation function. How could I store the weights associated with each teacher, student and course, though?

I have considered storing it in their respective tables, but I don't know how well that would scale (or for that matter, if it would work). I also considered storing it in a file and calling it like that, but I'm sure that would be even worse than storing it in a database.

So the main question I have is: is it (objectively) efficient, in terms of space and computational complexity, and scalable, to store and manage separate, individual weights for each possible element of certain inputs in a SQL database outside of the neural network, if there are a finite (not necessarily small) amount of possible choices for such inputs, and still receive a reasonable output?

Regardless, I would like an explanation as to how come. I believe it would be just fine, but I can't justify it myself and so I'm asking for help. Thanks in advance!

(P.S.: If you realize any problems with my approach not covered in the scope of this question, or have general advice, please include it as an addendum to your answer or please message me).