Programma

1. Introduction to the Course, Earth Physics and the Environment

2. Introduction to Python, matrices and vectors, functions

3. Recall to Fourier series and transform. Transfer function, causality, dispersion.

4. Python Exercise, Pulse Response

5. Sampling theorem, aliasing, analytical signal, signal energy

6. Python Exercise, Fourier Transform, FFT

7. Time series

8. Python Exercise, Least Squares problem and Data fitting

9. Introduction to Climate Change

10. Exercise on a time series (CO2 concentration in the atmosphere)

11. Earthquakes and propagation of waves

12. Exercise on a time series (CO2 concentration in the atmosphere)

13. Maxwell equations, constitutive relations

14. Exercise on a time series (CO2 concentration in the atmosphere)

15. Low frequency and high frequency electromagnetic measurements

16. Exercise on Earthquake location

17. Relation between electrical parameters and hydraulic parameters: electrical conductivity and hydraulic permeability

18. Exercise on Earthquake location

19. Hydrodynamic dispersion equation

20. Exercise on the diffusion of a pollutant

Testi Adottati

• J. Gaskill, Linear systems, Fourier transforms, and optics, Wiley.

• A. R. Von Hippel, Dielectric and Waves, John Wiley & Sons.

• F. W. Taylor, Elementary Climate Physics, Oxford.

Modalità Frequenza

attendance not compulsory but strongly recommended

Modalità Valutazione

The examination consists in the preparation of three reports concerning the analysis of geophysical data obtained from laboratory measurements, and from an oral test during which the reports presented by the student and the topics dealt with during the course are discussed.

Programma

Introduction to Radar Technique
Radar Sounder and GPR
Laboratory Exercise with GPR

Testi Adottati

Course handouts

Modalità Valutazione

Drafting of a report concerning the analysis of GPR data obtained from measurements conducted in the laboratory, and an oral exam during which the reports presented by the student and the topics covered during the course are discussed

Programma

See the information on the course owner's page

Testi Adottati

See the information on the course owner's page

Modalità Frequenza

See the information on the course owner's page

Modalità Valutazione

See the information on the course owner's page

Programma

1. Introduction to the Course, Earth Physics and the Environment

2. Introduction to Python, matrices and vectors, functions

3. Recall to Fourier series and transform. Transfer function, causality, dispersion.

4. Python Exercise, Pulse Response

5. Sampling theorem, aliasing, analytical signal, signal energy

6. Python Exercise, Fourier Transform, FFT

7. Time series

8. Python Exercise, Least Squares problem and Data fitting

9. Introduction to Climate Change

10. Exercise on a time series (CO2 concentration in the atmosphere)

11. Earthquakes and propagation of waves

12. Exercise on a time series (CO2 concentration in the atmosphere)

13. Maxwell equations, constitutive relations

14. Exercise on a time series (CO2 concentration in the atmosphere)

15. Low frequency and high frequency electromagnetic measurements

16. Exercise on Earthquake location

17. Relation between electrical parameters and hydraulic parameters: electrical conductivity and hydraulic permeability

18. Exercise on Earthquake location

19. Hydrodynamic dispersion equation

20. Exercise on the diffusion of a pollutant

Testi Adottati

• J. Gaskill, Linear systems, Fourier transforms, and optics, Wiley.

• A. R. Von Hippel, Dielectric and Waves, John Wiley & Sons.

• F. W. Taylor, Elementary Climate Physics, Oxford.

Modalità Frequenza

attendance not compulsory but strongly recommended

Modalità Valutazione

The examination consists in the preparation of three reports concerning the analysis of geophysical data obtained from laboratory measurements, and from an oral test during which the reports presented by the student and the topics dealt with during the course are discussed.

Programma

Introduction to Radar Technique
Radar Sounder and GPR
Laboratory Exercise with GPR

Testi Adottati

Course handouts

Modalità Valutazione

Drafting of a report concerning the analysis of GPR data obtained from measurements conducted in the laboratory, and an oral exam during which the reports presented by the student and the topics covered during the course are discussed

Programma

See the information on the course owner's page

Testi Adottati

See the information on the course owner's page

Modalità Frequenza

See the information on the course owner's page

Modalità Valutazione

See the information on the course owner's page

Programma

1. Introduction to the Course, Earth Physics and the Environment

2. Introduction to Python, matrices and vectors, functions

3. Recall to Fourier series and transform. Transfer function, causality, dispersion.

4. Python Exercise, Pulse Response

5. Sampling theorem, aliasing, analytical signal, signal energy

6. Python Exercise, Fourier Transform, FFT

7. Time series

8. Python Exercise, Least Squares problem and Data fitting

9. Introduction to Climate Change

10. Exercise on a time series (CO2 concentration in the atmosphere)

11. Earthquakes and propagation of waves

12. Exercise on a time series (CO2 concentration in the atmosphere)

13. Maxwell equations, constitutive relations

14. Exercise on a time series (CO2 concentration in the atmosphere)

15. Low frequency and high frequency electromagnetic measurements

16. Exercise on Earthquake location

17. Relation between electrical parameters and hydraulic parameters: electrical conductivity and hydraulic permeability

18. Exercise on Earthquake location

19. Hydrodynamic dispersion equation

20. Exercise on the diffusion of a pollutant

Testi Adottati

• J. Gaskill, Linear systems, Fourier transforms, and optics, Wiley.

• A. R. Von Hippel, Dielectric and Waves, John Wiley & Sons.

• F. W. Taylor, Elementary Climate Physics, Oxford.

Modalità Frequenza

attendance not compulsory but strongly recommended

Modalità Valutazione

The examination consists in the preparation of three reports concerning the analysis of geophysical data obtained from laboratory measurements, and from an oral test during which the reports presented by the student and the topics dealt with during the course are discussed.

Programma

Introduction to Radar Technique
Radar Sounder and GPR
Laboratory Exercise with GPR

Testi Adottati

Course handouts

Modalità Valutazione

Drafting of a report concerning the analysis of GPR data obtained from measurements conducted in the laboratory, and an oral exam during which the reports presented by the student and the topics covered during the course are discussed

Programma

See the information on the course owner's page

Testi Adottati

See the information on the course owner's page

Modalità Frequenza

See the information on the course owner's page

Modalità Valutazione

See the information on the course owner's page

Programma

1. Introduction to the Course, Earth Physics and the Environment

2. Introduction to Python, matrices and vectors, functions

3. Recall to Fourier series and transform. Transfer function, causality, dispersion.

4. Python Exercise, Pulse Response

5. Sampling theorem, aliasing, analytical signal, signal energy

6. Python Exercise, Fourier Transform, FFT

7. Time series

8. Python Exercise, Least Squares problem and Data fitting

9. Introduction to Climate Change

10. Exercise on a time series (CO2 concentration in the atmosphere)

11. Earthquakes and propagation of waves

12. Exercise on a time series (CO2 concentration in the atmosphere)

13. Maxwell equations, constitutive relations

14. Exercise on a time series (CO2 concentration in the atmosphere)

15. Low frequency and high frequency electromagnetic measurements

16. Exercise on Earthquake location

17. Relation between electrical parameters and hydraulic parameters: electrical conductivity and hydraulic permeability

18. Exercise on Earthquake location

19. Hydrodynamic dispersion equation

20. Exercise on the diffusion of a pollutant

Testi Adottati

• J. Gaskill, Linear systems, Fourier transforms, and optics, Wiley.

• A. R. Von Hippel, Dielectric and Waves, John Wiley & Sons.

• F. W. Taylor, Elementary Climate Physics, Oxford.

Modalità Frequenza

attendance not compulsory but strongly recommended

Modalità Valutazione

The examination consists in the preparation of three reports concerning the analysis of geophysical data obtained from laboratory measurements, and from an oral test during which the reports presented by the student and the topics dealt with during the course are discussed.

Programma

Introduction to Radar Technique
Radar Sounder and GPR
Laboratory Exercise with GPR

Testi Adottati

Course handouts

Modalità Valutazione

Drafting of a report concerning the analysis of GPR data obtained from measurements conducted in the laboratory, and an oral exam during which the reports presented by the student and the topics covered during the course are discussed

Programma

See the information on the course owner's page

Testi Adottati

See the information on the course owner's page

Modalità Frequenza

See the information on the course owner's page

Modalità Valutazione

See the information on the course owner's page