Department Events
Linear Algebra
This course will enable students to
1. Understand the basic concepts of linear algebra.
2. Understand the applications of linear algebra with respect to Data Science and Artificial Intelligence
Course Outcomes (COs).
Course Outcome (at course level) | Learning and teaching strategies | Assessment Strategies |
|---|---|---|
On completion of this course, the students will: CO236. Use properties of matrices- especially inevitability and matrix algebra. CO237. Describe the concepts of vector space, linear dependence and independence. CO238. Apply linear transformations and their corresponding matrices and understand the Rank and nullity concepts. CO239. Apply the concepts of linear space and inner product space in Data Science. CO240. Apply the concepts of Linear Algebra in machine learning algorithms.
| Interactive Lectures, Discussion, Reading assignments, Demonstration. | Class test, Semester end examinations, Quiz, Assignments, Presentation, Individual and group projects, Peer Review. |
Matrix, Operation on matrices, Transposes and Powers of Matrices, Zero, One Matrices, Diagonal Matrix, Inverse of Matrix, System of Linear equations and Matrices, System of Homogeneous and non-homogeneous equations, Cayley Hamilton Theorem, Eigenvalues, Eigenvectors and diagonalization.
Vector space-Examples and Properties- Subspaces-criterion for a subset to be a subspace- linear span of a set- linear combination- linear independent and dependent subsets- Basis and dimensions- Standard properties- Examples illustrating concepts and results.
Linear transformations, properties, matrix of a linear transformation, change of basis, range and kernel, rank and nullity, Rank-Nullity theorem.
Introduction, Inequalities on Linear Spaces, Norms on Linear Spaces, Inner products Orthogonally, Unitary and Orthogonal Matrices, norms for matrices.
Linear Algebra in Machine Learning, Loss functions, Regularization, covariance Matrix, Support Vector Machine Classification. Linear Algebra in dimensionality Reduction, Principal Component Analysis (PCA), Singular Value Decomposition (SVD).
- David C. Lay- Linear Algebra and its Applications- 5th ed.-Indian Reprint- Pearson Education Asia- 2018.
- M.P. Deisenroth, A. Aldo Faisal and C.H. Ong- Mathematics for Machine Learning 1st ed.
Cambridge University Press, 2020.
- V. Krishnamurthy- V. P. Mainra- and J. L. Arora- An introduction to linear algebra. New Delhi India. Affiliated East East-West Press Pvt Ltd.- 2003.
SUGGESTED READING:
- K.P. Murthy, Machine Learning- a Probabilistic Perspective, MIT Press, 2012.
- S. H. Friedberg- A. Insel- and L. Spence- Linear algebra- 4th ed.- Pearson- 2015.
- Gilbert Strang- Linear Algebra and its Applications- 4th ed.- Thomson Brooks/Cole- 2007.
E RESOURCE:
JOURNALS:
- Journal of the Brazilian Computer Society, SpringerOpen
- Journal of Internet Services and Applications, SpringerOpen
