# Armando COCO

##### Contacts

**Office:** stanza 310**Email:** armando.coco@unict.it**Phone:** 095 7383010

##### Office Hours

Monday from 14:00 to 15:00 | Tuesday from 10:00 to 12:00Armando Coco graduated in 2008 with 110/110 cum laude from the University of Catania, where he also obtained his PhD in 2012 in Mathematics for Technology, supervised by prof. Giovanni Russo.

Between 2012 and 2015 he covered various postdoctoral research assistant positions both in Italy and abroad, in particular at the Université Bordeaux I - INRIA, University of Bari Aldo Moro, University of Bristol.

In 2015 he obtained the permanent position of Lecturer in Mathematical Modeling at Oxford Brookes University, where he was promoted to Senior Lecturer in 2017.

Since 2021 he has held the position of Associate Professor in Numerical Analysis SSD MAT/08 at the University of Catania.

**Current position**

1 November 2021 - present: Associate Professor in Numerical Analysis (MAT/08) University of Catania, Italy

**Work experience**

1 September 2017 – 31 October 2021: Senior Lecturer in Mathematical Modelling, Oxford Brookes University, Oxford, United Kingdom

1 September 2015 – 31 October 2017: Lecturer in Mathematical Modelling, Oxford Brookes University, Oxford, United Kingdom

10 March 2014 – 31 August 2015: Post-Doctoral Research Assistant in Computational Volcanology, University of Bristol, Bristol, United Kingdom

16 October 2012 – 15 October 2013: Post-doc student, University of Bari Aldo Moro, Bari, Italy

1 April 2012 – 30 September 2012 Post-doc student, University of Bordeaux I, Bordeaux, France

**Education**

09/2015 - 06/2016: Post Graduate Certificate in Higher Education (PCTHE), Oxford Brookes University.

11/2008 - 03/2012: Ph.D. in Mathematics for Technology, advisor Prof. Giovanni Russo, University of Catania, Department of Mathematics and Computer Science. Title of the thesis: Finite-Difference Ghost Cell Multigrid Methods for Elliptic Problems with Mixed Boundary Conditions and Discontinuous Coefficients.

10/2006 - 07/2008: Master in Mathematics, Final grade 110/110 summa cum laude

10/2003 - 10/2006: Degree in Applied Mathematics, University of Catania, Final grade 110/110 summa cum laude.

**Research interests**

High order numerical methods for computational fluid dynamics.

Multigrid methods for complex-shaped domains.

Numerical simulation of subsurface reservoirs.

Mathematical modelling of monument conservation.

Numerical methods for plasma simulations

**Conference Presentations**

Speaker in 35 conferences, 6 invited talks.

**Fellowships and acknowledgments**

06/2018: Grant from the London Mathematical Society (Research in Pairs)

11/2017: Grant for the Santander Research Scholarship Scheme

02/2017-07/2017: Computer Science Small Grant from the London Mathematical Society (Scheme 7)

11/2016: Santander Award Scheme, an award for research collaboration with countries in the Santander network

2012: Fellowship by the GNCS (Gruppo Nazionale di Calcolo Scientifico -INDAM) under the program Young Researcher, a funding to participate at Congresses and Schools.

11/2011-02/2012: HPC-Europe2 fellowship, Université Bordeaux 1, France

**Membership of scientific societies**

GNCS (Gruppo Nazionale di Calcolo Scientifico)

SIMAI (Società Italiana di Matematica Applicata e Industriale)

UMI (Unione Matematica Italiana)

**Participation to research projects:**

2022-2024: HSMDIS (High Stability Microwave Discharge Ion Sources), funded by INFN-LNS: Istituto Nazionale di Fisica Nucleare - Laboratori Nazionali del Sud, PI: Lorenzo Neri

2022-2024: PNRR HPC, Big Data e Quantum Computing, Centro Nazionale Spoke 1: Future HPC, funded by MUR-PNRR, PI: Alessia Tricomi

2016-2019 APC8 - Diesel Engine Dynamic Optimisation, Co-Investigator. PI: Fabrizio Bonatesta

2013 GNCS: Hyperbolic dominant multiscale problems: numerical methods and applications, PI: Matteo Semplice

2009 PRIN 09: Innovative numerical methods for hyperbolic problems with applications to fluid dynamics, kinetic theory and computational biology, PI: Giovanni Russo

2009 Integrated actions Italy-Spain: Numerical methods for Hyperbolic Systems in non- conservative form with environmental applications

2008 Research project of University (PRA), Advanced Numerical Methods for Evolutive Problems, PI: Giovanni Russo

**Co-supervision of graduate students and postdoctoral fellows**

2 Ph.D. students and 4 Master students.

**Organization of Scientific meetings **

16 June 2016: Organization of the mini-syimposium “Mathematics behind volcanic processes” (5 speakers) with G. Currenti for the ECMI2016 conference, Santiago de Compostela, Spain.

**Member of examination panels**

22 November 2016: Member of the examination panel for the PhD defense of David Zorio, University of Valencia, Spain.

**Referee activities**

SISC Journal of Scientific Computing

JCOMP Journal of Computational Physics

AMC Applied Mathematics and Computation

CMS Communications in Mathematical Sciences Journal of Applied Mathematics

Applied Mathematics and Computation ECMI2014 proceedings

The Open Fuels and Energy Science Journal Advances in Geosciences

**N.B.**the number of publications can affect the loading time of the information

##### Academic Year 2021/2022

- DEPARTMENT OF CHEMICAL SCIENCES

Bachelor's Degree in Industrial Chemistry - 1^{st}Year**MATHEMATICS 1** - DEPARTMENT OF MATHEMATICS AND COMPUTER SCIENCES

Bachelor's Degree in Mathematics - 3^{rd}Year**NUMERICAL LINEAR ALGEBRA**

Prof. Armando Coco has developed expertise in designing highly efficient and accurate numerical methods for partial differential equations (PDEs) in geophysics and engineering. Some examples of PDEs investigated in his research are:

- Navier-Stokes equations for incompressible fluid dynamics
- Thermo-poroelastic Cauchy-Navier equations for elastic deformation
- Elliptic equations for electron transport in semiconductors
- Fluid flow in porous media for water-rock interaction

Specific expertise has been developed in the following numerical methods:

- Multigrid for unfitted boundary methods and complex-shaped geometries

- Ghost-point methods for the elliptic, parabolic and hyperbolic systems of PDEs

- Level set methods for evolution of interfaces

Some related real-world applications are:

- elastic deformation to simulate and predict geophysical responses (ground deformation, gravity changes) caused by pressurization of magmatic sources and/or the thermo-poroelastic behavior of hydrothermal systems in volcanic areas
- Marble sulfation in monument conservation
- Numerical simulation of plasma