Checking date: 09/07/2020


Course: 2020/2021

Statistics for social sciences II: multivariate techniques
(16623)
Study: Bachelor in International Studies (305)


Coordinating teacher: NIÑO MORA, JOSE

Department assigned to the subject: Department of Statistics

Type: Compulsory
ECTS Credits: 6.0 ECTS

Course:
Semester:

Branch of knowledge: Social Sciences and Law



Students are expected to have completed
Statistics for Social Sciences I or a similar introductory statistics course.
Learning results and competences and skills that will be acquired.Further information on this link
Specific competences: 1. Understanding the basic concepts of statistical multivariate analysis and its applications in the social sciences. 2. Capacity to apply simple linear regression and interpret the results. 3. Capacity to apply multiple linear regression and interpret the results. 4. Capacity to apply binomial logistic regression and interpret the results. 5. Capacity to apply principal components analysis and interpret the results. 5. Capacity to apply cluster analysis and interpret the results. 7. Capacity to use effectively statistical software. Transversal competences: 1. Capacity for analysis and synthesis. 2. Capacity for mathematical and statistical modeling. 3. Problem solving. 4. Critical reasoning. 5. Oral and written communication.
Description of contents: programme
Topic 1. Linear regression. 1.1. Linear regression. Introduction; simple and multiple regression; motivation; graphical data analysis; model formulation; dummy variables; parameter interpretation; examples; applications. 1.2. Fitting the model to the data; the least squares criterion; using the fitted model. 1.3. Model assumptions; inference on model parameters I: confidence intervals; inference on the response. 1.4. Inference on model parameters II: hypothesis testing; statistical significance of estimated parameters. 1.5. Assessing model fit; ANOVA. 1.6. Selection of predictor variables; multicollinearity; model diagnostics; model validation. Topic 2. Binomial logistic regression. 2.1. Motivation; model assumptions and formulation; parameter interpretation; examples; applications. 2.2. Fitting the model to the data; using the fitted model; inference on model parameters; statistical significance of estimated parameters. 2.3. Assessing model fit; selection of predictor variables; multicollinearity. Topic 3. Principal component analysis. 3.1. Motivation; formulation; variance explained; examples; applications. 3.2. Deciding how many components to keep; component scores; interpretation of components; graphical representations. Topic 4. Cluster analysis. 4.1. Motivation; k-means clustering. 4.2. Hierarchical methods; similarity measures; dendrograms. 4.3. Applications and examples.
Learning activities and methodology
Theory (3 ECTS). Theory classes with supporting material available in the course's web page. Practical classes (3 ECTS). Problem-solving classes. Practical classes in computer rooms. Weekly individual tutoring sessions. The teaching methodology will be eminently practical, being based on the study of diverse data sets through multivariante analysis techniques, both in the theory and practical classes, as motivation and illustration of the theory.
Assessment System
  • % end-of-term-examination 30
  • % of continuous assessment (assigments, laboratory, practicals...) 70
Basic Bibliography
  • D.J. Bartholomew, F. Steele, I. Moustaki, J. Galbraith. Analysis of Multivariate Social Science Data, 2nd ed.. Chapman & Hall/CRC. 2008
  • J.F. Hair, W.C. Black, B.J. Babin, R.E. Anderson. Multivariate Data Analysis: A Global Perspective, 7th ed. . Pearson Education. 2010
Recursos electrónicosElectronic Resources *
Additional Bibliography
  • Chatterjee, S.. Regression analysis by example. Wiley. 2000
  • N.R. Draper. Applied Regression Analysis, 3rd ed.. Wiley . 1998
  • Peña, D.. Regresión y diseño de experimentos. Alianza. 2002
  • Peña, D.. Análisis de datos multivariantes. McGraw-Hill. 2002
  • Pérez López, C.. Técnicas de análisis multivariante de datos : aplicaciones con SPSS. Pearson Prentice Hall. 2004
  • YOUNGER, M. S.. A First Course in Linear Regression. Duxbury Press. 1985
(*) Access to some electronic resources may be restricted to members of the university community and require validation through Campus Global. If you try to connect from outside of the University you will need to set up a VPN


The course syllabus and the academic weekly planning may change due academic events or other reasons.