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Syllabus 2015-16 - 74813010 - Natural Resource Modelling (Modelización de recursos naturales)

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  • Level 1: Tutorial support sessions, materials and exams in this language
  • Level 2: Tutorial support sessions, materials, exams and seminars in this language
  • Level 3: Tutorial support sessions, materials, exams, seminars and regular lectures in this language
DEGREE: Máster en Tecnologías geoespaciales para la gestión inteligente del territo
FACULTY: Centro de Estudios de Postgrado
ACADEMIC YEAR: 2015-16
COURSE: Natural Resource Modelling
SYLLABUS
1. COURSE BASIC INFORMATION
NAME: Natural Resource Modelling
CODE: 74813010 ACADEMIC YEAR: 2015-16
LANGUAGE: English LEVEL: 2
ECTS CREDITS: 4.0 YEAR: 1 SEMESTER: SC
2. LECTURER BASIC INFORMATION
NAME: DELGADO GARCÍA, JORGE
DEPARTMENT: U119 - INGENIERÍA CARTOGR. GEODESICA Y FOTOGRAM
FIELD OF STUDY: 505 - INGENIERÍA CARTOGRÁFICA, GEODÉSICA Y FOTOGRAMETRÍA
OFFICE NO.: A3 - 320 E-MAIL: jdelgado@ujaen.es P: 953-212468
WEBSITE: http://coello.ujaen.es/perfil.php?option=9
ORCID: https://orcid.org/0000-0001-9988-988X
LANGUAGE: English LEVEL: 2
3. CONTENT DESCRIPTION

Theme 1. Spatial Information and Natural Resources Modelling.

1.1 Introduction

1.2 Geographical space and its knowledge

1.3 Geographical analysis. Characteristics and Methods.

1.4 Concept to territory. The territory as system.

1.5 Structure of the territorial system.

1.6 Geomatics as territorial analysis instrument.

1.7 Spatial information sources.

1.8 Information processing.

1.9 Representation of spatial information.

1.10 Use of spatial information.

Theme 2. Geomatics as basic element in the Natural Resources Modelling Processes.

2.1 The concept of Digital Earth. Spatial correlation principle.

2.2 The scale problem.

2.3 Data capture in natural resources modelling projects. Photogrammetric and LiDAR methodologies application. 

2.4 Data processing.

2.5 Information extraction. OBIA, OBPCA and Data Fusion.

2.6 Decision making.

2.7 Examples.

Theme 3. Geostatistical modelling of natural resources.

3.1 Environmental monitoring.

3.2 Regionalized Variable Theory. The information and support effects using the RVT.

3.3 Spatial Continuity Analysis.

3.4 Spatial Inference. Estimation.

3.5 Spatial Inference of Extreme Values. The local incertainty concept.

3.6 Stochastic Simulation.

3.7 Practices of geostatistical methodology application. GeoMS2 Software.

4. COURSE DESCRIPTION AND TEACHING METHODOLOGY

Lectures will involve:

- Theoretical lessons by means of master classes with student participation.

- Practice lessons based on the presentation of different projects based in the application of geomatics techniques for the natural resources modelization. In these examples, the data available, the data treatment and results will be analyzed.

Students with special educational needs should contact the Student Attention Service (Servicio de Atención y Ayudas al Estudiante) in order to receive the appropriate academic support

5. ASSESSMENT METHODOLOGY

The applied evaluation system aims to check the correct acquisition of learning outcomes by students as well as the relevant powers. Specific learning outcomes R42, R43, R44 are considered (in the test of theoretical concepts as those concerning the practical assumptions), and the following skills:
Test of theoretical concepts: CB1, CB3, CE13, CE6, CG2, CG6, CT5, CT7
Proof of practical cases: CB10, CB11, CB14, CE13, CE6, CG2, CG6, CT1, CT2, CT5, CT7

 

The assessment has three parts: attendance, theory+exercises and practice. 

Attendance: attendance will be controlled both at theory and practice lessons. It is required at least a minimum of 70% attendance.

Theory+exercises: written exam which includes the theoretical and practice contents of the subject and some exercises or problems.

Practice: the assessment is based on the submission of the projects and exercises made during the practice lessons and the actual own-developed project.

The final mark will be the weighted average of the three parts(attendance, exam and practice), being the weights 0.05, 0.30 and 0.65, respectively.

In order to pass the subject, it is necessary to get at least 5.0 (5.0 out of 10) in both theory+exercises and practice parts.

6. BOOKLIST
MAIN BOOKLIST:
  • A Primer on Environmental Decision-Making [Recurso electrónico] : An Integrative Quantitative Approa. Edition: -. Author: Seip, Knut Lehre. Publisher: Dordrecht : Springer, 2006.  (Library)
  • Decision Making in Natural Resource Management: A Structured, Adaptive Approach. Edition: 1ª. Author: Michael J. Conroy, James T. Peterson. Publisher: Wiley  (Library)
  • Natural resource modeling. Edition: -. Author: -. Publisher: : Ed.  (Library)
  • Natural resource management and institutional change [Recurso electrónico]. Edition: -. Author: Carney, Diana. Publisher: London ; New York : Routledge, 1998.
ADDITIONAL BOOKLIST:
  • Statistics & data analysis in geology. Edition: -. Author: Davis, John C.. Publisher: New York [etc.]: John Wiley and Sons, 2002  (Library)
  • Geostatistics for natural resources evaluation. Edition: -. Author: Goovaerts, Pierre. Publisher: New York [etc.]: Oxford University, 1997  (Library)