Diagrama de temas

  • General

    326.006, Wednesday, 15:30-17:00, Room: S2 044, Start: March 6, 2024 (15:45)

    We discuss the formal modeling of mathematical problems that are amenable to algorithms and software from symbolic computation; the models are based on the language of algebra and logic. In this lecture we present particular examples from various application domains. In the accompanying proseminar students are expected to model selected problems and demonstrate their results in the form of small papers and presentations.

  • Organization

    Preliminary Schedule

    • March 6 (15:45):
      • Introduction to course topics.
    • March 13, March 20, May 29 (S3 048), June 5:
      • Wolfgang Schreiner: Logical Models of Problems and Computations
    • April 10, April 17, May 15, May 22:
      • Wolfgang Windsteiger: Modeling Problems in Geometry and Discrete Mathematics
    • April 24 (17:15-18:45), May 8 (17:15-18:45), June 12 (17:15-18:45), June 19 (17:15-18:45):
      • Carsten Schneider: Symbolic Summation and the Modeling of Sequences
    Grading

    Students have to submit 3 positive home assignments to pass the course (if an assignment fails, after the course a substitute is handed out)

  • Logical Models of Problems and Computations

  • Modelling Problems in Geometry and Discrete Mathematics

    We discuss geometric problems and problems that can be modelled in the language of graph theory and in the language of combinatorial optimization. After modelling the problems appropriately we discuss general and special solution techniques and algorithms that can be applied to these problems. Problems discussed will cover

    • proving geometrical statements using algebraic techniques,
    • the Shortest Path Problem, and
    • the Bin Packing Problem.
  • Symbolic Summation and the modeling of sequences

    In this part of the lecture we will deal with the challenge to model sequences (infinite objects) by using computer algebra technologies.

    Special focus will be put on

    • modeling sequences tailored for the user in the setting of term algebras;
    • modeling sequences in formal difference rings tailored for the computer ;
    • connecting the two worlds to extract interesting properties for the user.
     
    The lecture will be enhanced  stepwise and the topics will be summarized within the lecture notes that can be found here. In addition, there are slides and a Mathematica Notebook given here that supplements the lecture.
    The corresponding homeworks will be explained in the lecture. The precise specification can be found here.
     
    • Lecture 1: April 24,  2024
      Symbolic summation (a short introduction)
    • Lecture 2: May 8, 2024
      Modeling of sequences with a term algebra (the user interface)
    • Lecture 3: June 12, 2024
      Modeling of sequences in difference rings (computer algebra)
    • Lecture 4: June 19, 2024
      Algorithmic construction of difference rings and applications