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Advanced Mathematical Methods. COMP3006 Introduction to the course. Introduction. 2 sections Maths-Dr. Karen Page & Statistics –Dr. Simon Prince Maths until reading week. Course contact details. All communication concerning this course will be done via the email list.
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Advanced Mathematical Methods COMP3006 Introduction to the course
Introduction • 2 sections • Maths-Dr. Karen Page & Statistics –Dr. Simon Prince • Maths until reading week
Course contact details • All communication concerning this course will be done via the email list. • Please join by sending an email with Subject: join • to 3006-request@cs.ucl.ac.uk • Information also on the websites: http://www.cs.ucl.ac.uk/staff/K.Page/maths.html http://www.cs.ucl.ac.uk/staff/S.Prince/3006.htm
Lectures and examples classes • Check the website for timetable changes • Until reading week: lectures Thurs 9-10, MPEB 1.04 Fri 9-10, MPEB 1.13 Fri 12-1, MPEB 1.13 examples class Thurs 10-11, MPEB 1.04 (with Dr. Ged Ridgway); starting 12th October
Coursework • 85% exam • 15% coursework • Maths coursework= average of homework grades
Homework • I’ll set several exercises per lecture • To help pass exam you should try to do all of these before the exam • 2 per lecture = 6 per week are mandatory for coursework • You will get credit for serious attempts • Bring solutions for the week to the next examples class, attach coursework coversheet (http://www.cs.ucl.ac.uk/teaching/cwsheet.htm) • I will attend examples classes to mark your work (for undergraduates only)
Notes • Handouts will be partial copies of overheads • They will contain spaces which you’ll need to fill
Useful books • Axler “Linear algebra done right” 2nd edition (Springer) • Boas “Mathematical methods in the physical sciences” 2nd edition (Wiley) • **Bourne and Kendall “Vector analysis and Cartesian tensors” 3rd edition (Chapman and Hall) • ***Kreyszig “Advanced Engineering Mathematics” 8th edition (Wiley) • Pinkus and Zafrany "Fourier Series and Integral Transforms" 1st edition (Cambridge University Press) • **Any books in the Schaum series on relevant topics
Motivation- Section 1 mathematics Syllabus consists of two areas: • Linear algebra & calculus These build on courses B45 & B46 and are designed to give a general education in mathematics which will be useful for further courses in fourth year : intelligent systems machine vision and virtual environments many other useful applications: financial world, game theory in economics, bioinformatics, mathematical and computational biology
Option pricing: Black-scholes’ stochastic differential equation Bioinformatics: Sequence comparison and microarray expression matrices
Topics • Week 1: Basic topics in linear algebra, Gaussian elimination, complex numbers, eigenvalues and eigenvectors (easy stuff) • Week 2: Differential vector calculus, including method of steepest descents • Week 3: Integral vector calculus- Green’s theorem, Divergence theorem, Stokes’ theorem • Week 4: Fourier series (complex), Fourier transforms, Laplace transforms
Topics • Week 5: Further linear algebra- Gram-Schmidt, special complex matrices, orthogonal diagonalisation, spectral decomposition, singular values decomposition • Note: The 2nd lecture will be on complex numbers. If you haven’t done this before, try to do lots of exercises (you’ll need to be familiar with this for later lectures)
