AØKK08379U Advanced Macroeconomics: Structural Vector Autoregressive (VAR) Analysis (F)

Volume 2021/2022
Education

MSc programme in Economics – elective course

 

The course is part of the MSc programme in Economics, Financial line,  symbolized by ‘F’.

 

The PhD Programme in Economics at the Department of Economics:

  • The course is an elective course with research module. PhD students must contact the study administration AND the lecturer in order to register for the research module and write the research assignment.
  • The course is a part of the admission requirements for the 5+3 PhD Programme. Please consult the 5+3 PhD admission requirements.

 

Content

The aim of this course is to provide the students with a theoretical and practical knowledge of structural vector autoregressive (VAR) models within stationary and non-stationary frameworks as well as important econometric methods widely used in macroeconomics, financial economics and international finance.

 

The course covers topics in time series analysis with an emphasis on applications in macroeconomics and international finance. Substantial emphasis will be placed on the development of programming skills in MATLAB which is a matrix algebra software used extensively among practitioners and researchers. It will be assumed that students have no previous knowledge of MATLAB. Problem sets, practical sessions and homework assignments will typically consist of running programs and the development of additional procedures programmed in MATLAB.

 

The course will be divided into four parts:

1. The first part will provide an introduction to MATLAB including data handling, running programs and the basics of programming.

2. The second part introduces the basic VAR model as well as the vector error correction (VEC) model. We discuss the fundamentals of VARs, including the Wold theorem, specification issues, prediction, Granger causality tests and non-stationarity.

3. In the third part we focus on structural VARs, that is the transformation of reduced form information into structural relationships. Topics include structural impulse response analysis, forecast error variance decompositions, historical decompositions, forecasts and counterfactual analysis. Four different approaches to identification will be discussed, identification using short-run restrictions, long-run restrictions, combinations of short- and long-run restrictions, the narrative approach and sign restrictions. These approaches will be illustrated with applications in macroeconomics and international finance. Inference in these models will also be discussed.

4. The fourth part focuses on the relationship between structural VARs and other macroeconomic models such as, for example, the DSGE model. We will assess structural VARs and compare to other approaches and discuss, among other things, policy evaluations using structural VARs and DSGE models and how these approaches can be combined. These issues will also be illustrated using empirical examples from the literature.

Learning Outcome

After completing the course the student is expected to be able to:

 

Knowledge:

  • Identify and distinguish between stationary and nonstationary VAR models.
  • Estimate, interpretate and identificate the structural VAR models.
  • Distinguish and assess alternative approaches to identify structural VARs.
  • Inference in structural VARs.
  • Evaluate and compare empirical results from other approaches (DSGE models) with structural VARs.
  • Formulate economic hypotheses used as restrictions when identifying structural VARs including cointegration restrictions. 

 

Skills:

  • Specify and estimate structural VAR models.
  • Estimate structural VAR models applying different types of identification and assess whether the model is exact-, under- or overidentified. 
  • Apply structural VARs to the analysis of macroeconomic
  • Analyze the VAR model for variables integrated of order two and perform a nominal-to-real transformation.
  • Analyze economic data using structural VAR models and assess the empirical results.
  • Use MATLAB to analyze new data sets using pre-programmed modules and program new procedures.   
  • Identify the model given the data generating process and to program the chosen method in MATLAB.

 

Competencies:

  • Independently formulate and analyze structural VARs for new economic problems.
  • Formulate hypotheses used to identify structural VARs derived from economic theory.
  • Apply economic theory to obtain an understanding of the mechanisms governing the dynamics of a certain data set.
  • Use and design new programs in MATLAB.
  • Kilian, L., and H. Lütkepohl (2017), Structural Vector Autoregressive Analysis, Cambridge University Press and journal articles
This course requires a good grasp of mathematics as well as economics corresponding to intermediate macroeconomics from a similar course as "Macroeconomics II" at the Bachelor of Economics, Copenhagen University.

It is strongly recommended that the course "Econometrics II" at the Studies of Economics, University of Copenhagen has been followed before taking "Advanced Macroeconomics Structural Vector Autoregressive Analysis". Or a equivalent course with time series econometrics, autoregressive processes, theory for likelihood estimation and hypothesis testing and unit root testing.

It is recommended that participants have followed the Online MATLAB Course prior to the course start: https:/​/​absalon.ku.dk/​courses/​25988/​pages/​online-matlab-course-for-students-of-economics

Practical sessions will be held in a lecture room, not in a computer lab. Participants must bring a laptop in order to follow these sessions. Participants should install the MATLAB software on their laptops for use during the practical sessions.
A combination of lectures and practical sessions/exercises.

Restrictions due to Coronavirus:
The teaching in this course may be changed to be taught either fully or partly online due to COVID-19. For further information, please see the course room on Absalon (for enrolled students).
Schedule:
2 hours lectures one to two times a week from week 36 to 50 (except week 42).
2 hours exercise classes a week from week 36/37 to 50 (except week 42).

Schema:
The overall schema for the Master can be seen at KUnet:
MSc in Economics => "Courses and teaching" => "Planning and overview" => "Your timetable"

Timetable and venue:
To see the time and location of lectures and exercises please press the link under "Timetable"/​"Se skema" at the right side of this page (E means Autumn).

You can find the similar information partly in English at
https:/​/​skema.ku.dk/​ku2122/​uk/​module.htm
-Select Department: “2200-Økonomisk Institut” (and wait for respond)
-Select Module:: “2200-E21; [Name of course]””
-Select Report Type: “List – Weekdays”
-Select Period: “Efterår/Autumn”
Press: “ View Timetable”

Please be aware:
- It is the students´s own responsibility to continuously update themselves about their studies, their teaching, their schedule, their exams etc. through the curriculum of the study programme, the study pages at KUnet, student messages, the course description, the Digital Exam portal, Absalon, the personal schema at KUnet and myUCPH app etc.
  • Category
  • Hours
  • Lectures
  • 42
  • Class Instruction
  • 28
  • Preparation
  • 88
  • Exam
  • 48
  • Total
  • 206
Written
Oral
Individual
Collective

 

The students receive individual written feedback at the mandatory assignments.

The lecturer gives collective oral feedback in the lectures.  

Credit
7,5 ECTS
Type of assessment
Written assignment, 48 hours
individual take-home exam.

It is not allowed to collaborate on the assignment or the solution with anyone.
The exam assignment is given in English and must be answered in English.
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Exam registration requirements

To qualify for the exam the student must no later than the given deadlines during the course:

  • hand in and have approved two mandatory assignments.

 

The assignments typically consist of programming exercises in MATLAB and replication of empirical analysis in journal articles or in the textbook discussed during the lectures. They may be prepared in groups of up to three students but must be handed in individually. Everyone is responsible for writing their own code.

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Aid

All aids allowed at the written exams.

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Marking scale
7-point grading scale
Censorship form
No external censorship
for the written exam.
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Exam period

The regular written exam takes place:

15 January 2022 from 10 AM to 17 January at 10 AM

 

Exam information:

More information is available in Digital Exam from the middle of the semester.

In special cases decided by the Department, the exam can change to another day and/or time than announced. 

 

More information about examination, rules, aids etc. is available at Master students (UK) and Master students (DK).

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Re-exam

The written reexam takes place:

19 February 2022 from 10 AM to 21 February at 10 AM

 

Reexam information:

More information is available in Digital Exam early February.

In special cases decided by the Department, the re-sit can change to another type, day and/or time than announced.

 

More information: Master (UK) and Master (DK).

Criteria for exam assesment

Students are assessed on the extent to which they master the learning outcome for the course.

 

In order to obtain the top grade "12", the student must with no or only a few minor weaknesses be able to demonstrate an excellent performance displaying a high level of command of all aspects of the relevant material and can make use of the knowledge, skills and competencies listed in the learning outcomes.

 

For this course, in particular, the student should be able to independently analyze new data sets using the tools and theories covered in the course. This includes construction of structural VAR models (both stationary and non-stationary models) for the data and a discussion and testing of the underlying assumptions including determination of the cointegration properties. Formulation and test of relevant hypotheses on the cointegrating relations and the short-term adjustment. Interpretation of impulse response functions and variance decompositions.

 

In order to obtain the grade “02”, the student must in a satisfactory way be able to demonstrate a minimal acceptable level of  the knowledge, skills and competencies listed in the learning outcomes.