ALLEGATO N. 2 AL VERBALE N. 2

XXXXXXXX X. 0 XX XXXXXXX X. 0

PROCEDURA SELETTIVA PER IL RECLUTAMENTO DI N. 1 RICERCATORE A TEMPO DETERMINATO DI TIPOLOGIA A PER IL SETTORE CONCORSUALE 09/E2- SETTORE SCIENTIFICO-DISCIPLINARE ING-IND/33 - PRESSO IL DIPARTIMENTO DI INGEGNERIA ASTRONAUTICA ELETTRICA ED ENERGETICA DELL’UNIVERSITÀ DEGLI STUDI DI ROMA “LA SAPIENZA” BANDITA CON D.D. N. 110/2023 DEL 20 GENNAIO 2023.

L’anno 2023, il giorno 17 del mese di Febbraio si è riunita telematicamente via Google Meet al link xxxx://xxxx.xxxxxx.xxx/xxx-xxxx-xxx la Commissione giudicatrice della procedura selettiva, bandita con D.D. N. 110/2023 del 20 Gennaio 2023, per il reclutamento di n. 1 ricercatore a tempo determinato di tipologia a per il settore concorsuale 09/E2- settore scientifico-disciplinare ING- IND/33 - presso il Dipartimento di Ingegneria Astronautica Elettrica ed Energetica dell’Università degli studi di Roma “La Sapienza”, commissione nominata con decreto n. 9/2023 rep. prot. 226

/2023 del 7 Febbraio 2023 e composta da:

- Xxxx. Xxxxxx Xxxx Xx Xxxxxx – professore ordinario presso il Dipartimento di Ingegneria Elettrica e dell’Informazione del Politecnico di Bari (Presidente);

- Xxxx. Xxxxxxxxx Xxxxxxx – professore ordinario presso il Dipartimento di Ingegneria dell’Università degli Studi di Palermo (Componente);

- Xxxx. Xxxxx Xxxxxx Xxxxx – professore associato presso il Dipartimento di Ingegneria Astronautica Elettrica ed Energetica dell’Università degli studi di Roma “La Sapienza” (Segretario).

La Commissione inizia i propri lavori alle ore 10.30.

La Commissione, accertato che i criteri generali fissati nella precedente riunione sono stati resi pubblici al link xxxxx://xxx.xxxxxxx0.xx/xxxxxxxxxxx/xxxxxxxxx_xxxxx_xxxx/000000 , inizia la verifica dei nomi dei candidati, tenendo conto dell’elenco fornito dal Responsabile del procedimento.

La Commissione, presa visione dell’elenco dei candidati alla procedura selettiva, prende atto che i candidati da valutare ai fini della procedura selettiva sono n. 4 e precisamente:

1. Xxxxxxxx Xx Xxxxxx

2. Xxxxxxx Xxxxxxx

3. Xxxxxxxxxx Xxxxxx

4. Xxxxxxxx Xxxxxx

La Commissione, quindi, procede ad esaminare le domande di partecipazione alla procedura selettiva presentate dai candidati con i titoli allegati e le pubblicazioni.

Per ogni candidato, la Commissione verifica che i titoli allegati alla domanda siano stati certificati conformemente al bando.

Procede poi ad elencare analiticamente i Titoli.

Procede poi ad elencare analiticamente le Pubblicazioni trasmesse dal candidato

La Commissione elenca, per ogni candidato, i titoli e le pubblicazioni valutabili (allegato 2/A) dei seguenti candidati:

1) Xxxxxxxx Xx Xxxxxx

2) Xxxxxxx Xxxxxxx

3) Xxxxxxxxxx Xxxxxx

4) Xxxxxxxx Xxxxxx

La Commissione termina i propri lavori alle ore 16.30 e si riconvoca per il giorno 22 Febbraio 2023 alle ore 15.30.

Letto approvato e sottoscritto seduta stante. La Commissione

Xxxx. Xxxxxx Xxxx Xx Xxxxxx (Presidente) Xxxx. Xxxxxxxxx Xxxxxxx (componente)

Xxxx. Xxxxx Xxxxxx Xxxxx (componente, Segretario)

ALLEGATO N. 2/A

TITOLI E PUBBLICAZIONI VALUTABILI

PROCEDURA SELETTIVA PER IL RECLUTAMENTO DI N. 1 RICERCATORE A TEMPO DETERMINATO DI TIPOLOGIA A PER IL SETTORE CONCORSUALE 09/E2- SETTORE SCIENTIFICO-DISCIPLINARE ING-IND/33 - PRESSO IL DIPARTIMENTO DI INGEGNERIA ASTRONAUTICA ELETTRICA ED ENERGETICA DELL’UNIVERSITÀ DEGLI STUDI DI ROMA “LA SAPIENZA” BANDITA CON D.D. N. 110/2023 DEL 20 GENNAIO 2023.

/2023 del 7 Febbraio 2023 e composta da:

- Xxxx. Xxxxxx Xxxx Xx Xxxxxx – professore ordinario presso il Dipartimento di Ingegneria Elettrica e dell’Informazione del Politecnico di Bari (Presidente);

- Xxxx. Xxxxxxxxx Xxxxxxx – professore ordinario presso il Dipartimento di Ingegneria dell’Università degli Studi di Palermo (Componente);

- Xxxx. Xxxxx Xxxxxx Xxxxx – professore associato presso il Dipartimento di Ingegneria Astronautica Elettrica ed Energetica dell’Università degli studi di Roma “La Sapienza” (Segretario).

La Commissione inizia i propri lavori alle ore 10.30.

La Commissione prende atto dei titoli per i quali sia stata presentata idonea documentazione ai sensi dell’art. 3 del bando.

CANDIDATO: XXXXXXXX XX XXXXXX

VERIFICA TITOLI VALUTABILI:

Titoli previsti nell’allegato 1 del verbale della seduta del 15 Febbraio 2022	Titoli presentati dal candidato
Dottorato di ricerca o titoli equipollenti	VALUTABILE • PhD 2023 Sapienza University of Rome in Automatic Control, Bioengineering and Operational Research • Final grade: Excellent • Curriculum in Automatic Control. • Thesis Title: "Control methods and applicative scenarios for next- generation cellular telecommunication networks".
Attività didattica a livello universitario in Italia o all'estero	VALUTABILE • 2022 Sapienza University of Rome Modelling and Simulation (BSc in Computer and Control Engineering)
	• 2022 Sapienza University of Rome Control of Communication and Energy Networks (MSc in Control Engineering)
	• 2022 Sapienza University of Rome Control of Autonomous Multi-Agent Systems
	• (MSc in Control Engineering)
	• 2022 Sapienza University of Rome Automatic Control (BSc in Computer and Control Engineering)
	• 2021 Sapienza University of Rome Modelling and Simulation (BSc in Computer and Control Engineering)
	• 2021 Sapienza University of Rome Control of Communication and Energy Networks (MSc in Control Engineering)
	• 2021 Sapienza University of Rome Control of Autonomous Multi-Agent Systems (MSc in Control Engineering)
	• 2020 Sapienza University of Rome Control of Communication and Energy Networks (MSc in Control Engineering)
	• 2020 Sapienza University of Rome Control of Autonomous Multi-Agent Systems (MSc in Control Engineering)
	• 2019 Sapienza University of Rome Control of Communication and Energy Networks (MSc in Control Engineering)
	• 2019 Sapienza University of Rome Control of Autonomous Multi-Agent Systems (MSc in Control Engineering)

	• Advisor and Co-Advisor in BSc and MSc Thesis and Students Projects in Engineering at Sapienza University of Rome: – Co-Advisor of 7 Thesis in Control Engineering (MSc) and Computer and Control Engineering (BSc) on intelligent systems and network control. – Advisor in about 15 Students Projects in Control of Communication and Energy Networks (MSc in Control Engineering) and Control of Autonomous Multi-Agent Systems (MSc in Control Engineering)
Documentata attività di formazione o di ricerca presso qualificati istituti italiani o stranieri.	VALUTABILE • 2022 Today Sapienza University of Rome Research Fellow (Assegnista di Ricerca), Department of Computer, Control, and Management Engineering (DIAG) • 2019 Today Consortium for the Research in Automation and Telecommunication (CRAT) Researcher and Project Manager in EU/ESA/National funded research projects in CRAT, a non-profit consortium constituted by Sapienza University of Rome and other Universities and private companies
Realizzazione di attività progettuale relativamente ai settori concorsuali nei quali è prevista.	NON VALUTABILE • Il candidato non presenta titoli
Organizzazione, direzione e coordinamento di gruppi di ricerca nazionali e internazionali, o partecipazione agli stessi.	VALUTABILE • 2023 XXXXX – An Artificial Intelligence Aided Unified Network for Secure Beyond 5G Long Term Evolution (end 2025) - I - Horizon Europe – 6G SNS 6M€ • Beyond 5G Long Term Evolution (end 2025) – I 2022 HyDEMO – HydRON Demonstrator System Phase A/B1 (end 2023) – I - ESA HydRON 2M€ • 2019 5G-Solutions for European Citizens (end 2023) – I- EU Horizon 2020 14M€ • 2021 Allena-Mente (end 2022) - I - Private funding – CRAT 300K€ • 2020 ARIES - Advanced multi-Rat Integrated multi-sensors solution for Emergency prevention, detection and response operations (end 2022) – I - ESA ARTES 4.0 – 5G For L’ART 200k€ • 2019 5G-ALLSTAR (5G AgiLe and fLexible integration of SaTellite And cellulaR) – I - EU Horzon 2020 2M€
Titolarità di brevetti relativamente ai settori concorsuali nei quali è prevista	NON VALUTABILE • Il candidato non presenta titoli
Attività di relatore a congressi e convegni nazionali e internazionali	NON VALUTABILE • Il candidato non presenta titoli

Premi e riconoscimenti nazionali e internazionali per attività di ricerca.

VALUTABILE

• Best Paper Award - ETRI Journal for the paper “6G in the sky: On-demand intelligence at xxx xxxx of 3D networks.

VERIFICA PUBBLICAZIONI VALUTABILI

ELENCO PUBBLICAZIONI VALUTABILI

1. X. Xxxxxxx, X. Xxxxxxxx, X. xx Xxxxxx, X. Xxxxxxxx, F. Delli Priscoli, and X. xx Xxxxxxx, “Optimal Control of Plug-In Electric Vehicles Charging for Composition of Frequency Regulation Services,” Energies (Basel), vol. 14, no. 23, 2021, doi: 10.3390/en14237879. (Impact Factor: 3.252).

2. X. xx Xxxxxxx, X. xx Xxxxxx, X. Xxxxxxxx, X. Xxxxx, and X. Xxxxxxxx, “Electric Vehicle Fast Charging: A Congestion-Dependent Stochastic Model Predictive Control Under Uncertain Reference,” Energies (Basel), vol. 16, no. 3, 2023, doi: 10.3390/en16031348. (Impact Factor 2023 non disponibile).

3. X. Xxxxxxxxx Xxxxxxxx et al., “6G in the sky: On-demand intelligence at xxx xxxx of 3D networks (Invited paper),” ETRI Journal, vol. 42, no. 5, pp. 643–657, 2020, doi: xxxxx://xxx.xxx/00.0000/xxxxx.0000-0000. (Impact Factor 1.347)

4. F. Delli Priscoli, X. xx Xxxxxx, X. Xxxxxxxx, and X. Xxxxxxxxxxx, “Capacity-constrained Xxxxxxx equilibria and application to multi-connectivity in 5G networks,” X Xxxxxxxx Inst, vol. 358, no. 17, pp. 9364–9384, 2021, doi: xxxxx://xxx.xxx/00.0000/x.xxxxxxxxx.0000.00.000. (Impact Factor 4.246)

5. X. xx Xxxxxx, X. Xxxxxxxx, P. A., X. Xxxxxxx, and F. Delli Priscoli, “Satellite Integration into 5G: Deep Reinforcement Learning for Network Selection,” Machine Intelligent Research, vol. 19, pp. 127–137, 2022, doi: 10.1007/s11633-022-1326-3. (Impact Factor 2022 non disponibile)

6. X. xx Xxxxxx, X. Xxxxxxxx, and X. xx Xxxxxxx, “Optimal Control of a Grid-connected Service Area for Plug-in Electric Vehicles Fast Charging under uncertain Power Demand,” in 2022 30th Mediterranean Conference on Control and Automation (MED), 2022, pp. 49–55. doi: 10.1109/MED54222.2022.9837148.

7. X. Xxxxxxx et al., “5G-ALLSTAR: Beyond 5G Satellite-Terrestrial Multi-Connectivity,” in 2022 Joint European Conference on Networks and Communications and 6G Summit (EuCNC/6G Summit), 2022, pp. 148–153. doi: 10.1109/EuCNC/6GSummit54941.2022.9815664.

8. X. Xxxxxxx, X. xx Xxxxxx, X. Xxxxxxxx, and X. xx Xxxxxxx, “On the Participation of Charging Point Operators to the Frequency Regulation Service using Plug-in Electric Vehicles and 5G Communications,” in 2021 IEEE International Conference on Environment and Electrical Engineering and 2021 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I CPS Europe), 2021, pp. 1–6. doi: 0.1109/EEEIC/ICPSEurope51590.2021.9584495.

9. X. Xxxxxxxx, X. Xxxxxxx, X. xx Xxxxxx, and A. di Giorgio, “Optimal Control of an Energy Storage System and Plug-in Electric Vehicles Fast Charging in a Grid-connected Service Area,” in 2021 29th Mediterranean Conference on Control and Automation (MED), 2021, pp. 202–207. doi: 10.1109/MED51440.2021.9480262.

10. X. Xxxxxxxx, X. xx Xxxxxx, F. Delli Priscoli, S. H. Xxx, X. Xxxx, and X. Xxxxxxxxxxx, “Network Selection in 5G Networks Based on Markov Games and Friend-or-Foe Reinforcement Learning,” in 2020 IEEE Wireless Communications and Networking Conference Workshops (WCNCW), 2020, pp. 1–5. doi: 10.1109/WCNCW48565.2020.9124723.

11. A. Giuseppi, X. Xxxx Xxxxxx, X. xx Xxxxxx, X. Xx Xxx, X. Xxxx, and X. Xxxx, “Design and Simulation of the Multi-RAT Load-balancing Algorithms for 5G-ALLSTAR Systems,” in 2020 International Conference on Information and Communication Technology Convergence (ICTC), 2020, pp. 594–596. doi: 10.1109/ICTC49870.2020.9289485.

12. X. Xxxxxxxx, X. xx Xxxxxx, and X. xx Xxxxxxx, “Model Predictive Control of Energy Storage Systems for Power Regulation in Electricity Distribution Networks,” in 2019 IEEE International

Conference on Systems, Man and Cybernetics (SMC), 2019, pp. 3365–3370. doi: 10.1109/SMC.2019.8914059.

TESI DI DOTTORATO

Nov. 2019 – Xxx 2023 PhD in Automatic Control, Bioengineering and Operational Research Final grade: Excellent

Sapienza University of Rome Curriculum in Automatic Control.

Thesis Title: "Control methods and applicative scenarios for next- generation cellular telecommunication networks".

CONSISTENZA COMPLESSIVA DELLA PRODUZIONE SCIENTIFICA:

Il candidato presenta, nell’allegato B alla domanda di partecipazione, una produzione complessiva pari a n. 14 pubblicazioni, di cui 5 su rivista e 9 a conferenza. Gli indicatori bibliometrici dichiarati dal candidato sono:

- numero complessivo di lavori su banche dati internazionali riconosciute per l’abilitazione scientifica nazionale 11 (banca dati di riferimento SCOPUS);

- indice di Hirsch 3 (banca dati di riferimento SCOPUS);

- numero totale delle citazioni 39 (banca dati di riferimento SCOPUS);

- numero medio di citazioni per pubblicazione 3.55 (banca dati di riferimento SCOPUS);

- «impact factor» totale e «impact factor» medio per pubblicazione, calcolati in relazione all’anno della pubblicazione 8.845, 2.948 (banca dati di riferimento SCOPUS, Clarivate Journal Citation Report).

[1] Xxxxxxxxxx Xx Xxxxxxx, Xxxxxxxx Xx Xxxxxx, Xxxxx Xxxxxxxx, Xxxxxxx Xxxxx, and Xxxxxxxxx Xxxxxxxx. “Electric Vehicle Fast Charging: A Congestion-Dependent Stochastic Model Predictive Control Under Uncertain Reference”. In: Energies 16.3 (2023). URL: xxxxx://xxx.xxxx.xxx/0000- 1073/16/3/1348.

[2] X. Xx Xxxxxx, X. Xxxxxxxx, Xxxxxxxxxxx X., X. Xxxxxxx, and F. Delli Priscoli. “Satellite Integration into 5G: Deep Reinforcement Learning for Network Selection”. In: Machine Intelligent Research 19 (2022), pp. 127–137. URL: xxxxx://xxxx.xxxxxxxx.xxx/xxxxxxx/00.0000/x00000-000-0000-0.

[3] Xxxxxxx Xxxxxxx, Xxxxxxxxx Xxxxxxxx, Xxxxxxxx Xx Xxxxxx, Xxxxxxxxxx Xxxxxxxx, Xxxxxxxxx Xxxxx Xxxxxxxx, and Xxxxxxxxxx Xx Xxxxxxx. “Optimal Control of Plug-In Electric Vehicles Charging for Composition of Frequency Regulation Services”. In: Energies 14.23 (2021). URL: xxxxx://xxx.xxxx.xxx/0000-0000/00/00/0000.

[4] F. Delli Xxxxxxxx, X. Xx Xxxxxx, X. Xxxxxxxx, and X. Xxxxxxxxxxx. “Capacity-constrained Xxxxxxx equilibria and application to multi-connectivity in 5G networks”. In: Journal of the Xxxxxxxx Institute 358.17 (2021), pp. 9364–9384. URL: xxxxx://xxx.xxxxxxxxxxxxx.xxx/xxxxxxx/xxxxxxx/xxx/X0000000000000000.

[5] Xxxxxx Xxxxxxxxx Xxxxxxxx, Xxxxxx Xxxxxxxxxx, Xxxxxxx Xxxx, Xxxxxxx Xxxxxxxxxxx, Xxxxxxxxxx Xxxxxxxx, Xxxxxxxx Xx Xxxxxx, Xxxxx Xxxxx, Xxxxxx Xxxxxx, Xxxxxx Xxxxxxxx, Xxxxxxx Xxxxxxx, Xxxxxxxxx Xxxxxxxx, Xxxxxxxxx Xxx, and Xxxxx Xxx. “6G in the sky: On-demand intelligence at xxx xxxx of 3D networks (Invited paper)”. In: ETRI Journal 42.5 (2020), pp. 643–657. eprint: xxxxx://xxxxxxxxxxxxx.xxxxx. com/doi/pdf/10.4218/etrij.2020-0205. URL: xxxxx://xxxxxxxxxxxxx.xxxxx.xxx/xxx/xxx/00.0000/xxxxx.0000-0000.

[6] Xxxxxxxx Xx Xxxxxx, Xxxxxxxxx Xxxxxxxx, and Xxxxxxxxxx Xx Xxxxxxx. “Optimal Control of a Grid- connected Service Area for Plug-in Electric Vehicles Fast Charging under uncertain Power Demand”. In: 2022 30th Mediterranean Conference on Control and Automation (MED). 2022, pp. 49–55.

[7] Xxxxxxx Xxxxxxx, Xxxxx Xxx, Xxxxxx Xxxxxxxxx Xxxxxxxx, Xxxxx Xxx, Xxxxxxx Xxxxxxxxxxx, Xxxxxxx Xxxxx, Xxxxx Xxxxxx, Xxxxxxx Xxxx, Xxx-Xxx Xxxx, Xxxxxxx Xxxxx, Xxxxxxx Xxxxxxxxx, Xxxxxx Xxx Xxxxx, Xxxxxxxx Xx Xxxxxx, Xxxx-Xxxxxxxx Xxxx, Xxxxxxxxxx Xxxxxxxx, Xxxx-Xxxxxx Xxxxxxx, Xxxxxxxxx Xxx, Xxxx Xxxxxxxx, Xxxxxxxx Xxxxx, Xxxxxx Xxxxx, Xxxxxx Xxxxxxxxxxx, Xxxxxxxx Xxxxx, and Xxxx Xx Xxx. “5G-ALLSTAR: Beyond 5G Satellite-Terrestrial Multi-Connectivity”. In:

2022 Joint European Conference on Networks and Communications and 6G Summit (EuCNC/6G Summit). 2022, pp. 148–153.

[8] Xxxxxxx Xxxxxxx, Xxxxxxxx Xx Xxxxxx, Xxxxxxxxx Xxxxxxxx, and Xxxxxxxxxx Xx Xxxxxxx. “On the Participation of Charging Point Operators to the Frequency Regulation Service using Plug-in Electric Vehicles and 5G Communications”. In: 2021 IEEE International Conference on Environment and Electrical Engineering and 2021 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I CPS Europe). 2021, pp. 1–6.

[9] Xxxxxxxxx Xxxxxxxx, Xxxxxxx Xxxxxxx, Xxxxxxxx Xx Xxxxxx, and Xxxxxxxxxx Xx Xxxxxxx. “Optimal Control of an Energy Storage System and Plug-in Electric Vehicles Fast Charging in a Grid- connected Service Area”. In: 2021 29th Mediterranean Conference on Control and Automation (MED). 2021, pp. 202–207.

[10] X. Xxxxxxxx, X. Xx Xxxxxx, F. Delli Priscoli, S. H. Xxx, X. Xxxx, and X. Xxxxxxxxxxx. “Network Selection in 5G Networks Based on Markov Games and Friend-or-Foe Reinforcement Learning”. In: 2020 IEEE Wireless Communications and Networking Conference Workshops (WCNCW). 2020, pp. 1–5.

[11] A. Giuseppi, X. Xxxx Xxxxxx, X. Xx Xxxxxx, X. XxXxx, X. Xxxx, and X. Xxxx. “Design and Simulation of the Multi-RAT Load-balancing Algorithms for 5G-ALLSTAR Systems”In: 2020 International Conference on Information and Communication Technology Convergence (ICTC). 2020, pp. 594–596.

[12] Xxxxxx Xxxxxxxxxx, Xxxxxxxxxx Xxxxxxxx, Xxxxxxxx Xxxx, Xxxxxxxx Xx Xxxxxx, and Xxxxxxxxx Xxxxxxxx. “Operations Management of Satellite Launch Centers”. In: Proceedings of the Ka and Broadband Communications (Ka conference). 2019.

[13] Xxxxxxxxxx Xxxxxxxx, Xxxxxxxx Xx Xxxxxx, and Xxxxxxxxxx Xx Xxxxxxx. “Model Predictive Control of Energy Storage Systems for Power Regulation in Electricity Distribution Networks”. In: 2019 IEEE International Conference on Systems, Man and Cybernetics (SMC). 2019, pp. 3365– 3370.

[14] Xxxxxxx Xxxxx, Xxxxxx Xxxxxxxx, Xxxxxxxx Xx Xxxxxx, Xxxxxxxxxx Xxxxxxxxxx, and Xxxxxxxxx Xxxxxxx. “Hardware-Assisted Incremental Checkpointing in Speculative Parallel Discrete Event Simulation”. In: 2019 Winter Simulation Conference (WSC). 2019, pp. 2759–2770.

CANDIDATO: XXXXXXX XXXXXXX

VERIFICA TITOLI VALUTABILI:

Titoli previsti nell’allegato 1 del verbale della seduta del 15 Febbraio 2022	Titoli presentati dal candidato
Dottorato di ricerca o titoli equipollenti	VALUTABILE • Ph.D in Electrical Engineering, Sapienza University of Rome, Italy, Feb 2019. Thesis: “Sustainable Energy System based on Renewable Energy Sources in a Microgrid: Optimization of Energy Consumption by using Hybrid Energy Storage Systems based on PSO algorithm (Case study: Port of Long Beach in the USA)”.
Attività didattica a livello universitario in Italia o all'estero	VALUTABILE • Tutor of “Advance Power System”, “Power Electronic Converters” & “Electric Machinery”, Xxxxxxxx University of Technology, Gothenburg, Sweden, 2020-2022. • Teaching “Power System for Smart Buildings” and “Electrical Design of Smart Buildings Laboratory” courses at Sapienza University of Rome, 2018 – Present. • Co-Supervisor of 1 Ph.D., Supervisor of 3 and Co- Supervisor of 8 Master Thesis students at Sapienza University of Rome, Italy, Since 2019. • Presented Seminar “Optimal Operation and Planning of Energy Hub”, Department of Electrical Engineering, Sapienza University of Rome, Italy, March 8th-9th, 2022. • Presented Seminar “Optimization of Energy Consumption in a Port Microgrid by Energy Storage Systems”, Department of Electrical Engineering, Amirkabir University (AUT), Tehran, Iran, July 29th, 2019. • Lecturer, Faculty of Electrical Engineering, Xxxxxxx Xxxxxxxxxx, Xxxx, 0000 - 2015. • Responsible for Electrical Engineering Lab, Faculty of Electrical Engineering, Ebne-Hesam University, Birjand, Iran, 2014-2015.
Documentata attività di formazione o di ricerca presso qualificati istituti italiani o stranieri	VALUTABILE • Postdoctoral Researcher, Electrical Engineering Department, Xxxxxxxx University of Technology, Gothenburg, Sweden, June 2020-August 2022. • Visiting Researcher at Industrial Process and Energy Systems Engineering Department, EPFL University, Switzerland, July 2022. • Postdoctoral Research Fellow, Department of Electrical Engineering, Sapienza University of Rome, Italy, May 2019-Apr 2020.

Realizzazione di attività progettuale relativamente ai settori concorsuali nei quali è prevista.	VALUTABILE • Senior Project Engineer in PGGA group, Hitacgi Energy, Västerås, Sweden (Now). • Technical Consultant, Binalood 34MW Xxxx Xxxx, Xxxxxxxxxx, Xxxx, 0000 • Design and Technical Consultant at Abrysham Negar-e-Pars Company for Utility-Scale Solar Photovoltaic Power Plants, 2016-2018..
Organizzazione, direzione e coordinamento di gruppi di ricerca nazionali e internazionali, o partecipazione agli stessi.	VALUTABILE • Co-founder of LAMBDA MG LAB and Campobasso Energy Community projects, Sapienza University of Rome, Italy, 2019-2020. • Technical Manager of the LAMBDA Microgrid Laboratory, Department of Electrical Engineering, Sapienza University of Rome, Sep 2018-May2020.
Titolarità di brevetti relativamente ai settori concorsuali nei quali è prevista	VALUTABILE • X. Xxxxxxx, M. E. Xxxxxxxxxxx (Xxx 10th, 2015). Title: “Smart Insulators for Electrical Network Monitoring”
Attività di relatore a congressi e convegni nazionali e internazionali	NON VALUTABILE • Il candidato non presenta titoli
Premi e riconoscimenti nazionali e internazionali per attività di ricerca	VALUTABILE • Xxxx Xxxx grants in 2021, 2022, Xxxxxxxx University of Technology, Sweden

VERIFICA PUBBLICAZIONI VALUTABILI

ELENCO PUBBLICAZIONI NON VALUTABILI, in quanto non pervenute.

1. Xxxxxxx, X., Xxxx, X., Xxxxxxxxx, X., & Xxxxxxxxx, M. (2022). A comprehensive optimal energy control in interconnected microgrids through multiport converter under N−1 criterion and demand response program. Renewable Energy, 199, 957-976. xxx.xxx/00.0000/x.xxxxxx.0000.00.000

2. Xxxxxxxx, X., Xxxxxx, X., Xxxxxx, X., Xxxxxxx, M., Xxxxxxxxxxx, X., Xxxxxxxxx, X., & Xxxxx, T."Operation and Planning of Energy Hubs Under Uncertainty—A Review of Mathematical Optimization Approaches," in IEEE Access, vol. 11, pp. 7208-7228, 2023, doi: 10.1109/ACCESS.2023.3237649.

3. Xxxxxxx, M., Xxxxxxxx, X., Xxxxxx, G., Xxxxxxxxx, M., & Martirano, L. (2022). A Comprehensive Techno-economic Solution for Demand Control in Ports: Energy Storage Systems Integration. IEEE Transactions on Industry Applications. doi:10.1109/TIA.2022.3145769

4. Xxxxxxx, X., Xxxxxxxxxx, B., Xxxxxxxx, X., Xxxx, C. A., Xxxxx, D. L., & Martirano, L. (2021). Intelligent energy management based on SCADA system in a real Microgrid for smart building applications. Renewable Energy, 171, 1115-1127. xxx.xxx/00.0000/x.xxxxxx.0000.00.000

5. Xxxxxxx, M., Xxxxxxxx, X., Xxxxxx, X., Xxxxxxxxxx, B., Xxxxx, D. L., & Martirano, L. (2021). Optimal Self-scheduling of a real Energy Hub considering local DG units and Demand Response under Uncertainties. IEEE Transactions on Industry Applications., vol. 57, no. 4, pp. 3396-3405, July-Aug. 2021, doi: 10.1109/TIA.2021.3072022.

6. Xxxxxxxxx, X., Xxxxxxx, S., Xxxxxxx, M., Massarella, X., & Xxxxxxx, R. (2020). Power Sharing Model for Energy Communities of Buildings. IEEE Transactions on Industry Applications., vol. 57, no. 1, pp. 170-178, Xxx.-Feb. 2021, doi: 10.1109/TIA.2020.3036015.

7. X. Xxxxxxx, X. Xxxxxxx, X. Xxxxxxxx, X. Xxxxxxxxxx and X. Xxxxxxxxx, (2022) "Compact and Smart Outdoor Medium/Low Voltage Substation for Energy Communities," in IEEE Transactions on Industry Applications, doi: 10.1109/TIA.2022.3148357.

8. Xxxxxxxx, M., Martirano, X., Xxxxxx, X., Xxxxxx, X., Xxxxxxxxx, X., & Xxxxxxx, M. (2022). Microgrid Working Conditions Identification Based on Cluster Analysis—A Case Study From Lambda Microgrid. IEEE Access, 10, 70971-70979. doi:10.1109/ACCESS.2022.3186092.

9. Xxxxxx, M., Mazidi, M., Xxxxxxx, X., Abootorabi Zarchi, D. (2022) Frequency‐constrained energy and reserve scheduling in wind incorporated low‐inertia power systems considering vanadium flow redox batteries, IET Generation, Transmission & Distribution, xxxxx://xxx.xxx/00.0000/xxx0.00000

10. Xxxxxxx, M., Xxxxxxxx, X., Xxxxxx, S., Xxxxxx, G., & Martirano, L. (2021). Elevator Regenerative Energy Applications with Ultracapacitor and Battery Energy Storage Systems in Complex Buildings. Energies, 14(11), 3259. xxx.xxx/00.0000/xx00000000.

11. Xxxxxxxxx, X., Xxxxxxx, X., Xxxxxx, X., & Xxxxxxx, M. (2021). Modularized Electrical Power Systems: The Three-Bus Architecture. IEEE Industry Applications Magazine, 28(1), 18-25. doi: 10.1109/MIAS.2021.3114667.

12. Xxxxxxx, X., Xxxxxx, G., Xxxxxxxxxx, B., & Martirano, L. (2020). Ultracapacitors for port crane applications: Sizing and techno-economic analysis. Energies, 13(8), 2091. xxx.xxx/00.0000/xx00000000.

13. Xxxxxxx, X., Xxxxx, D. L., Xxxxxxx, S., Paolillo, A., Xxxxx, F., & Martirano, L. (2020). A nearly zero-energy microgrid testbed laboratory: Centralized control strategy based on SCADA system. Energies, 13(8), 2106. xxx.xxx/00.0000/xx00000000.

14. Xxxxxxxx, X., Xxxxxx, M., Xxxxxxx, M., & Xxxxxxx, M. (2015). Impact of Reactive Power on Stable Production of Wind Farms. Majlesi Journal of Energy Management 4, no 2. xxxx://xxxxxxxx.xxxxxxxxxx.xx.xx/xx/xxxxx/xxxxx.xxx/xx/xxxxxxx/xxxx/000

TESI DI DOTTORATO

Ph.D. in Electrical Engineering, Sapienza University of Rome, Italy, Feb 2019. Thesis: “Sustainable Energy System based on Renewable Energy Sources in a Microgrid: Optimization of Energy Consumption by using Hybrid Energy Storage Systems based on PSO algorithm (Case study: Port of Long Beach in the USA)”.

CONSISTENZA COMPLESSIVA DELLA PRODUZIONE SCIENTIFICA

Il candidato presenta, nell’allegato B alla domanda di partecipazione, una produzione complessiva pari a n. 46 pubblicazioni, di cui 14 su rivista e 32 a conferenza. Gli indicatori bibliometrici dichiarati dal candidato sono:

- numero complessivo di lavori su banche dati internazionali riconosciute per l’abilitazione scientifica nazionale 52 (banca dati di riferimento Scopus);

- indice di Hirsch 15 (banca dati di riferimento Scopus);

- numero totale delle citazioni 452 (banca dati di riferimento Scopus);

- numero medio di citazioni per pubblicazione 8.693 (banca dati di riferimento Scopus);

- «impact factor» totale è uguale a 50.791 (banca dati di riferimento Scopus);

- «impact factor» medio per pubblicazione è uguale a 8.7 (banca dati di riferimento Scopus).

xxx.xxx/00.0000/x.xxxxxx.0000.00.000

15. X. Xxxxxxx, X. Xxxx, X. Xxxxxxxxx and X. Xxxxxxxxx, "Optimal Energy Control, Hosting BESS and EVs through Multiport Converter in Interconnected MGs," 2022 IEEE International Conference on Environment and Electrical Engineering and 2022 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I&CPS Europe), 2022, pp. 1-7.

16. X. Xxxxxxxxxxx et al., "LVDC Microgrids for Power Sharing in Energy Community," 2022 IEEE Industry Applications Society Annual Meeting (IAS), 2022, pp. 1-7.

17. X. Xxxxxxx, X. Xxxxxxxxx, X. Xxxxxxx, D. de Mesquita e Xxxxx, X. Xxxxxxx and X. Xxxxx, "Cold Ironing and Battery Energy Storage System in the Port of Civitavecchia," 2022 IEEE International Conference on Environment and Electrical Engineering and 2022 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I&CPS Europe), 2022, pp. 1-6.

18. N. Vafamand, M. M. Xxxxx, X. Xxxxxxxx and X. Xxxxxxx, "Decentralized State Estimation of Interconnected DC MGs with Constant Power Loads," 2022 IEEE International Conference on Environment and Electrical Engineering and 2022 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I&CPS Europe), 2022, pp. 1-6.

19. X. Xxxxxxx, M. R. Xxxxxx, X. Xxxxxx and X. Xxxxxxx, "Hardware Implementation New Zero-Setting Power Swing Detection and Fast Detection Symmetrical Fault during Power Swing Algorithms," 2022 IEEE International Conference on Environment and Electrical Engineering and 2022 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I&CPS Europe), 2022, pp. 1-6.

20. D. L. Xxxxx, X. Xxxxxxx and X. Xxxxxxxx, "A power signal alteration analyzer based on empirical mode decomposition," 2022 IEEE International Workshop on Metrology for Living Environment (MetroLivEn), 2022, pp. 298-302.

21. X. Xxxxxx, X. Xxxxxxxxxxx, X. Xxxxxxx, X. Xxxxxxx, X. Xxxxxxxxxx and X. Xxxxxxxxx, "Electric Vehicles Charging Stations Sharing Model Control," 2022 IEEE/IAS 58th Industrial and Commercial Power Systems Technical Conference (I&CPS), 2022, pp. 1-6.

22. X. Xxxxxxx, X. Xxxxxxxx, X. Xxxxxx and X. Xxxxxxxxx, "Integrated System of Energy Storage Technologies for Demand Control and Energy Saving in Ports," 2021 IEEE Industry Applications Society Annual Meeting (IAS), 2021, pp. 1-5.

23. X. Xxxxxxx, X. Xxxxxxx, X. Xxxxxxxxxx and X. Xxxxxxxxx, "Proposal of a Compact Outdoor Medium/Low Voltage Substation for Energy Communities," 2021 IEEE Industry Applications Society Annual Meeting (IAS), 2021, pp. 1-6.

24. X. Xxxxxxxxx, X. Xxxxxxx, X. Xxxxxx and X. Xxxxxxx, "Three-Bus Architecture for Modularized Electrical Power Systems," 2021 IEEE/IAS 57th Industrial and Commercial Power Systems Technical Conference (I&CPS), 2021, pp. 1-7.

25. X. Xxxxxx, X. Xxxxxxx, X. Xxxxxx, X. Xxxxxxx, X. Xxxxxxx and X. Xxxxxxxxx, "A Hybrid Energy Hub Investigation with Renewables and Electric Vehicle in a Smart Microgrid Lab," 2021 IEEE International Conference on Environment and Electrical Engineering and 2021 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I&CPS Europe), 2021, pp. 1-7.

26. Xxxxxx, X., Xxxxxxx, M., Xxxxxxxx, M., Martirano, X., & Xxxxxxxxx, X. (2021, October). A hybrid IGDT-robust optimization model for optimal self-scheduling of a smart home. In 2021 IEEE Industry Applications Society Annual Meeting (IAS) (pp. 1-5). IEEE.

00. Xxxxxxx, X., Xxxxx, X., xx Xxxxxxxx Xxxxx, D., Xxxxxxx, M., & Martirano, L. (2021, September). An Energy Storage System to support Cruise Ships Cold Ironing in the Port of Civitavecchia. In 2021 IEEE International Conference on Environment and Electrical Engineering and 2021 IEEE Industrial and Commercial Power Systems Europe (EEEIC/I&CPS Europe) (pp. 1-5). IEEE.

28. Xxxxxxx, X., Xxxxxxxx, X., Xxxxxx, X., Xxxxxxxxxx, B., Xxxxx, D. L., & Martirano, L. (2020, October). Optimal Operation of a real Power Hub based on PV/FC/GenSet/BESS and Demand Response under Uncertainty. In 2020 IEEE Industry Applications Society Annual Meeting (pp. 1-7). IEEE.

29. X. Xxxxxxxx, J. B. Noshahr, X. Xxxxxxxxxx, X. Xxxxxxx and X. Xxxxxxx, "Optimal Battery Energy Storage Sizing in Microgrids by using Artificial Flora Algorithm," 2020 IEEE International Conference on Environment and Electrical Engineering and 2020 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I&CPS Europe), 2020, pp. 1-6.

30. X. Xxxxxxxxx, X. Xxxxxxx, X. Xxxxxxx, X. Xxxxxxxxxx and X. Xxxxxxx, "A “Power Sharing Model” (PSM) for Buildings of the Public Administration," 2020 IEEE/IAS 56th Industrial and Commercial Power Systems Technical Conference (I&CPS), 2020, pp. 1-7.

31. Xxxxxxxxx, X., Xxxxxxx, S., Xxxxxxxxxx, M., & Xxxxxxx, M. (2020, October). A smart microgrid for buildings of the public administration. In 2020 IEEE Industry Applications Society Annual Meeting (pp. 1-4). IEEE.

32. J. B. Noshahr, X. Xxxxxxxx, X. Xxxxxxx and X. Xxxxxxx, "Operational Planning of Inverter Control in a grid connected Microgrid with hybrid PV and BESS," 2020 IEEE International Conference on Environment and Electrical Engineering and 2020 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I&CPS Europe), 2020, pp. 1-5.

33. X. Xxxxxxx, X. Xxxxxx, X. Xxxxxxxx and X. Xxxxxxxxx, "Transactive Energy Solution in a Port's Microgrid based on Blockchain Technology," 2020 IEEE International Conference on Environment and Electrical Engineering and 2020 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I&CPS Europe), 2020, pp. 1-6.

34. Xxxxxxx, X., Xxxxxxx, M., Xxxxxxx, S., Xxxxxxx, X., & Martirano, L. (2020, June). Microgrid and building retrofit for NZEB target recognition: from convent to historical residence. In 2020 IEEE International Conference on Environment and Electrical Engineering and 2020 IEEE Industrial and Commercial Power Systems Europe (EEEIC/I&CPS Europe) (pp. 1-6).

35. Xxxxxxx, M., Xxxxxx, G., Martirano, L., Xxxxxx, L., Xxxxxxxxxx, B., & Xx, C. L. (2019, September). Optimization of energy consumption in STS group cranes by using hybrid energy storage systems based on PSO algorithm. In 2019 IEEE Industry Applications Society Annual Meeting (pp. 1-5). IEEE.

36. Xxxxxxxxx, X., Xxxxxxx, M., Xxxxx, F., Xxxxxxxxxx, X., & Xxxxxxxx, U. (2019, June). Implementation of SCADA systems for a real microgrid lab testbed. In 2019 IEEE Milan PowerTech (pp. 1-6). IEEE.

37. Xxxxxxx, X., Xxxxxxx, X., & Xxxxxxx, M. (2019, June). Feasibility study of Nearly Zero Energy Building in a real Microgrid case study. In 2019 IEEE International Conference on Environment and Electrical Engineering and 2019 IEEE Industrial and Commercial Power Systems Europe (EEEIC/I&CPS Europe) (pp. 1-6). IEEE.

38. Paolillo, X., Xxxxx, D. L., Xxxxxxx, M., Martirano, X., & Xxxxxx, A. (2019, June). An innovative home and building automation design tool for nanogrids applications. In 2019 IEEE International Conference on Environment and Electrical Engineering and 2019 IEEE Industrial and Commercial Power Systems Europe (EEEIC/I&CPS Europe) (pp. 1-5). IEEE.

39. Xxxxxxx, M., Xxxxxx, G., Martirano, L., Xxxxxx, L., & Xxxxxxxxxx, B. (2019, June). Utilization of regenerative energy by ultracapacitor sizing for peak shaving in STS crane. In 2019 IEEE International Conference on Environment and Electrical Engineering and 2019 IEEE Industrial and Commercial Power Systems Europe (EEEIC/I&CPS Europe) (pp. 1-5). IEEE.

40. Xxxxxxx, M., Xxxxxx, G., Martirano, L., Xxxxxx, X., & Xxxxxxxxxx, B. (2018, November). Power balancing in STS group cranes with flywheel energy storage based on DSM strategy. In 2018 IEEE 59th International Scientific Conference on Power and Electrical Engineering of Riga Technical University (RTUCON) (pp. 1-5). IEEE.

41. Xxxxxxx, M., Xxxxxx, G., Martirano, L., Xxxxxx, X., & Xxxxxxxxxx, B. (2018, June). Optimization of peak load shaving in STS group cranes based on PSO algorithm. In 2018 IEEE International Conference on Environment and Electrical Engineering and 2018 IEEE Industrial and Commercial Power Systems Europe (EEEIC/I&CPS Europe) (pp. 1-5). IEEE.

42. Xxxxxxx, B. M., Noshahr, J. B., Xxxxxxx, M., Xxxxxxxxxxxxxxxx, X., & Xxxxx, F. (2018, June). Effect of angles of harmonic components of back-to-back converter of distributed generation resources on current behavior of distribution networks. In 2018 IEEE International Conference on Environment and Electrical Engineering and 2018 IEEE Industrial and Commercial Power Systems Europe (EEEIC/I&CPS Europe) (pp. 1-4). IEEE.

43. Xxxxxxx, B. M., Xxxxxxxxxx, B., Noshahr, J. B., Xxxxxxx, M., & Xxxxxxx, M. (2018, June). Multi- Objective Fuzzy Model for Optimal Siting and Sizing of DG Units to Reduce Losses Using Genetic

44. Algorithm. In 2018 IEEE International Conference on Environment and Electrical Engineering and 2018 IEEE Industrial and Commercial Power Systems (EEEIC/I&CPS Europe) (pp. 1-6). IEEE.

45. Xxxxxx, X., Martirano, X., Xxxxxxx, M., & Xxxxxxx, M. (2017, June). Designing a power control strategy in a microgrid using PID/fuzzy controller based on battery energy storage. In 2017 IEEE International Conference on Environment and Electrical Engineering and 2017 IEEE Industrial and Commercial Power Systems Europe (EEEIC/I&CPS Europe) (pp. 1-5). IEEE.

46. Xxxxxxx, X. (2016, June). Transient voltage and frequency stability of an isolated microgrid based on energy storage systems. In 2016 IEEE 16th International Conference on Environment and Electrical Engineering (EEEIC) (pp. 1-5). IEEE.

CANDIDATO: XXXXXXXXXX XXXXXX

VERIFICA TITOLI VALUTABILI

Titoli previsti nell’allegato 1 del verbale della seduta del 15 Febbraio 2022	Titoli presentati dal candidato
Dottorato di ricerca o titoli equipollenti	VALUTABILE • PhD 2021 Sapienza University of Rome – DIMA, in Meccanica teorica e applicata.
Attività didattica a livello universitario in Italia o all'estero	VALUTABILE • 2014-2015, Xxxxxx Xxxxxxx University of Kerman, Mechanics of Materials • 2015-2016, Xxxxxx Xxxxxxx University of Kerman, Mechanics of Materials • 2015-2016, Xxxxxx Xxxxxxx University of Kerman, Engineering Mathematics
Documentata attività di formazione o di ricerca presso qualificati istituti italiani o stranieri	VALUTABILE • 2019, 6-month mobility fund for sabbatical at Aalborg University - Sapienza University of Rome Visiting Researcher • 2021 – Present. Sapienza University of Rome – Department of Physics. Postdoctoral Researcher.
Realizzazione di attività progettuale relativamente ai settori concorsuali nei quali è prevista	NON VALUTABILE • Il candidato non presenta titoli
Organizzazione, direzione e coordinamento di gruppi di ricerca nazionali e internazionali, o partecipazione agli stessi	VALUTABILE • 2022, Development of an experimental setup for measuring the hydroxide-catalysis bonding of sapphire samples - Sapienza University of Rome (Component).
Titolarità di brevetti relativamente ai settori concorsuali nei quali è prevista	NON VALUTABILE • Il candidato non presenta titoli
Attività di relatore a congressi e convegni nazionali e internazionali	NON VALUTABILE • Il candidato non presenta titoli
Premi e riconoscimenti nazionali e internazionali per attività di ricerca	NON VALUTABILE • Il candidato non presenta titoli

VERIFICA PUBBLICAZIONI VALUTABILI

La Commissione giudicatrice segnala che, il candidato ha inviato con la domanda di partecipazione le copie conformi agli originali in .pdf di tutte le pubblicazioni della sua produzione scientifica, dichiarandolo in allegato C, ma riportando in allegato B, quali di esse considerare come pubblicazioni selezionate ai fini della valutazione, in accordo con il numero massimo indicato nell'articolo 1 del bando di concorso.

ELENCO PUBBLICAZIONI VALUTABILI

1. Xxxxxx, A. S., Xxxxx, A. R. (2015) Exact solution for free vibration of thick rectangular plates made of porous materials.

2. Xxxxxx, A. S., Xxxxx, A. R. (2016) Application of Carrera Unified Formulation to study the effect of porosity on natural frequencies of thick porous–cellular plates.

3. Xxxxxx, A. S., Xxxxx, A. R. (2017) On the effect of coupled solid-fluid deformation on natural frequencies of fluid saturated porous plates.

4. Xxxxxx, M., Xxxxx, A. R., Xxxxxx, A. S. (2017) On natural frequencies of Xxxx-type thick porous- cellular plates surrounded by piezoelectric layers

5. Xxxxxx, A. S., Xxxxx, A. R. (2017) Buckling response of moderately thick fluid-infiltrated porous annular sector plates.

6. Xxxxxx, A. S., Xxxxx, A. R., Xxxxxxxxxxxx, M., Xxxxxxxxx, M. P. (2017) Natural frequencies of functionally graded plates with porosities via a simple four variable plate theory: an analytical approach.

7. Xxxxxx, A. S., Xxxxx, A. R. (2018) An analytical study on the free vibration of moderately thick fluid- infiltrated porous annular sector plates.

8. Xxxxxx, M., Xxxxx, A. R., Xxxxxx, A. S. (2020) An investigation over the effect of piezoelectricity and porosity distribution on natural frequencies of porous smart plates.

9. Xxx, E. S., Xxxxx, A. R., Xxxxxx, A. S., Xxxxxx, M. (2020) Shear deformation theories for elastic buckling of fluid-infiltrated porous plates: an analytical approach.

10. Xxxxxx, A. S., Mezzani, F., Xxxxxxxxxx, A. (2021) Wave propagation with long-range forces and mistuning effects.

11. Xxxxxx, A. S., Xxxxxxxxxx, A., Xxxxxxx, S. V., Xxxxxx, A., Mezzani, F. (2021) Propagation of waves in nonlocal-periodic systems.

12. Xxxxxxx, M. S., Xxxxx, A. R., Xxxxxx, A. S., Xxxxxx, M., Xxxxxx, A. (2022) Analytical buckling response of sectorial porous plates integrated with piezoelectric layers.

TESI DI DOTTORATO

PhD 2021 Sapienza University of Rome – DIMA, in Meccanica teorica e applicata. CONSISTENZA COMPLESSIVA DELLA PRODUZIONE SCIENTIFICA:

Il candidato presenta, nell’allegato B alla domanda di partecipazione, una produzione complessiva pari a n. 17 pubblicazioni, di cui 12 su rivista e 5 a conferenza. Gli indicatori bibliometrici dichiarati dal candidato sono:

- numero complessivo di lavori su banche dati internazionali riconosciute per l’abilitazione scientifica nazionale 17 (banca dati di riferimento SCOPUS);

- indice di Hirsch 8 (banca dati di riferimento SCOPUS);

- numero totale delle citazioni 474 (banca dati di riferimento SCOPUS);

- numero medio di citazioni per pubblicazione 27.88 (banca dati di riferimento SCOPUS);

- «impact factor» totale e «impact factor» medio per pubblicazione, calcolati in relazione all’anno della pubblicazione 62.774 3.69 (banca dati di riferimento SCOPUS).

1. Xxxxxx AS, Xxxxx XX. Exact solution for free vibration of thick rectangular plates made of porous materials. Composite Structures. 2015 Dec 15; 134:1051-60.

2. Xxxxxx AS, Xxxxx XX. Application of Carrera Unified Formulation to study the effect of porosity on natural frequencies of thick porous–cellular plates. Composites Part B: Engineering. 2016 Apr 15; 91:361-70.

3. Xxxxxx AS, Xxxxx XX. On the effect of coupled solid-fluid deformation on natural frequencies of fluid saturated porous plates. European Journal of Mechanics-A/Solids. 2017 May 1; 63:99-109.

4. Xxxxxx X, Xxxxx XX, Xxxxxx AS. On natural frequencies of Xxxx-type thick porous-cellular plates surrounded by piezoelectric layers. Composite Structures. 2017 Nov 1; 179:340-54.

5. Xxxxxx AS, Xxxxx XX. Buckling response of moderately thick fluid-infiltrated porous annular sector plates. Acta Mechanica. 2017 Nov; 228:3929-45.

6. Xxxxxx AS, Xxxxx XX, Xxxxxxxxxxxx X, Xxxxxxxxx MP. Natural frequencies of functionally graded plates with porosities via a simple four variable plate theory: an analytical approach. Thin- Walled Structures. 2017 Nov 1; 120:366-77.

7. Xxxxx X, Xxxxxx AS, Mezzani F, Xxxxxxxxxx S, Carcaterra A. Waves path in an elastic membrane with selective nonlocality. In Proceedings of ISMA 2018.

8. Xxxxxx AS, Xxxxx XX. An analytical study on the free vibration of moderately thick fluid-infiltrated porous annular sector plates. Journal of Vibration and Control. 2018 Sep;24(18):4130-44.

9. Xxxxxx AS, Xxxxxxx X, Carcaterra A. Memory effects in wave propagation. In Proceedings of the 26th International Congress on Sound and Vibration, ICSV 2019 Jul.

10. Mezzani F, Xxxxxx AS, Carcaterra A. Wave propagation phenomena in nonlinear elastic metamaterials. In New Trends in Nonlinear Dynamics: Proceedings of the First International Nonlinear Dynamics Conference (NODYCON 2019), Volume III 2020 (pp. 31-40). Springer International Publishing.

11. Xxxxxx AS, Mezzani F, Carcaterra A. (2020) Waves in long-range connected waveguide: single and multiple interaction regions. In Proceedings of ISMA 2020.

12. Xxxxxx AS, Xxxxxxx SV, Mezzani F, Carcaterra A. Band structure of elastic bodies with periodic nonlocalities. In11th International Conference on Structural Dynamics, EURODYN 2020 2020 (pp. 2457-2463). Institute of Structural Analysis and Antiseismic Research School of Civil Engineering National Technical University of Athens (NTUA).

13. Xxxxxx X, Xxxxx XX, Xxxxxx AS. An investigation over the effect of piezoelectricity and porosity distribution on natural frequencies of porous smart plates. Journal of Sandwich Structures & Materials. 2020 Oct;22(7):2091-124.

14. Xxx ES, Xxxxx XX, Xxxxxx AS, Xxxxxx X. Xxxxx deformation theories for elastic buckling of fluid- infiltrated porous plates: an analytical approach. Composite Structures. 2020 Dec 15; 254:112829.

15. Xxxxxx AS, Mezzani F, Carcaterra A. Wave propagation with long-range forces and mistuning effects. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science. 2021 Jul;235(14):2622-8.

16. Xxxxxx AS, Carcaterra A, Xxxxxxx SV, Xxxxxx A, Mezzani F. Propagation of waves in nonlocal- periodic systems. Journal of Sound and Vibration. 2021 Aug 18; 506:116156.

17. Xxxxxxx MS, Xxxxx XX, Xxxxxx AS, Xxxxxx M, Xxxxxx A. Analytical buckling response of sectorial porous plates integrated with piezoelectric layers. Applied Mathematical Modelling. 2022 Xxx 1; 101:811-31.

CANDIDATO: XXXXXXXX XXXXXX

VERIFICA TITOLI VALUTABILI:

Titoli previsti nell’allegato 1 del verbale della seduta del 15 Febbraio 2022	Titoli presentati del candidato
Dottorato di ricerca o titoli equipollenti	VALUTABILE • PhD 2012 Università degli Studi di Roma "La Sapienza" in Ingegneria Elettrica. Titolo: “Vulnerability and reliability assessment of electrical power systems using Petri Nets”.
Attività didattica a livello universitario in Italia o all'estero	NON VALUTABILE • Il candidato non presenta titoli
Documentata attività di formazione o di ricerca presso qualificati istituti italiani o stranieri	NON VALUTABILE • Il candidato non presenta titoli
Realizzazione di attività progettuale relativamente ai settori concorsuali nei quali è prevista	VALUTABILE • TECHNIPFMC 2020 – Present, CHIEF ELECTRICAL ENGINEER, Established and led electrical engineers gathering and sharing technical and project experience feedback for electrical system studies, preparation of the electrical specification and material requisitions, and providing support to lean engineering projects to improve performance of engineering processes.
	• TECHNIPFMC 2018 – 2019, ELECTRICAL ENGINEERING MANAGER, Leading n. 2 area subcontractors (650 employees), 3 engineers and 6 area supervisor for E&I construction and start-up activities for ENOC Refanery Expansion in Dubai. Long and short-term project tasks definition & coordination with finance-related tasks management. Lead shutdown and tie-In activity, managing safety/technical assessment and mitigations, planning analysis. Mission was to set the strategy and priorities within scheduled activities, focused on the reduction of scheduled times (one daysaved = 800k€). Power Plant and Management Systems decommissioning, commissioning & start-up for the new extension.
	• TECHNIPFMC 2016 – 2017. LEAD ELECTRICAL ENGINEER. Heading engineer team across multiple operation center for a refinery power system design with particular focus to Power Generation and Power Management System package, Power Systems studies, Desing mitigation, electrical specification and material requisitions. Technical bid analysis, negotiations and offer review, interface with other engineering disciplines, customer. Technical Meetings coordination and management. Factory Acceptance Tests procedure development,

	schematics, settings, configurations review and testing. • TECHNIP 2014 – 2016. COSTRUCTION & START-UP ELECTRICAL ENGINEER. Leading n. 1 subcontractors (100 employees), 20 testing engineers and 3 area supervisor for E&I construction and start-up activities of Etileno XXI Project in Mexico. Managing grid connection agreement with utility company (CFE) and all relative works/testing to allow infrastructure interconnection (Etileno XXI was a pilot project relevant the new 2014 interconnection rule in Mexico). Power Generation and Power Management System commissioning and start-up, co-generative combine cycle with one gas turbines by 85 MW, heat recovery steam generators and 2 steam turbines by 45 MW. Managed site acceptance tests, including test staff coordination, testing procedure, project tasks definition. • 2010 – 2014: Senior Electrical Engineer at Technip / 2007 – 2013: Independent Electrical Engineer Consultant for mission critical environment as Hospitals, Healthcare, and Data Center for Regional Council, Manens-Tifs, Anas, F3M- Ingegneria, Xxxxx Xxxxxxxx, Xxxx, XXX Xxxxxxxx, Xxxx. Xxxxxx Firm, Spazio Impianti, IES Consulting, Others.
Organizzazione, direzione e coordinamento di gruppi di ricerca nazionali e internazionali, o partecipazione agli stessi	NON VALUTABILE • Il candidato non presenta titoli
Titolarità di brevetti relativamente ai settori concorsuali nei quali è prevista	NON VALUTABILE • Il candidato non presenta titoli
Attività di relatore a congressi e convegni nazionali e internazionali	NON VALUTABILE • Il candidato non presenta titoli
Premi e riconoscimenti nazionali e internazionali per attività di ricerca	NON VALUTABILE • Il candidato non presenta titoli

VERIFICA PUBBLICAZIONI VALUTABILI

ELENCO PUBBLICAZIONI VALUTABILI

1. Xxxxx Xxxxxxxxx, Xxxxxxx Xxxxxxx, Xxxxxxxx Xxxxxx, Xxxxxxx Xxxxxxx – “Three-Bus Architecture for Modularized Electrical Power Systems” - 2021 IEEE/IAS 57th Industrial and Commercial Power Systems Technical Conference (I&CPS)

2. Xxxxxxxx Xxxxxx, Xxxxx Xxxxxxxx, Xxxxxxx Xxxxxxxxx, Xxxxxxxxx Xx Xxxxxxx – “A Petri Net Model for Electrical Power Systems Operating Procedures” - 61st Annual Reliability & Maintainability Symposium (RAMS 2015), 26 - 29 January 0000, Xxxx Xxxxxx, Xxxxxxx Gennaio 2015

3. Xxxxxxxx Xxxxxx, Xxxxxxxx Xxxxxx, Xxxxxxx Xxxxxxxxx – “Reliability Functional Coordination in the Critical Industrial Electrical Power Supplies”, AEIT 2013 International Conference, 3 - 5 October 2013, Mondello (PA).

TESI DI DOTTORATO

PhD 2012 Università degli Studi di Roma "La Sapienza" in Ingegneria Elettrica. Titolo: “Vulnerability and reliability assessment of electrical power systems using Petri Nets”.

CONSISTENZA COMPLESSIVA DELLA PRODUZIONE SCIENTIFICA:

Il candidato presenta, nel CV allegato alla domanda di partecipazione, una produzione complessiva pari a n. 4 pubblicazioni, 3 a conferenza internazionale e 1 a conferenza nazionale. Gli indicatori bibliometrici dichiarati dal candidato sono:

- numero complessivo di lavori su banche dati internazionali riconosciute per l’abilitazione scientifica

- nazionale 3 (banca dati di riferimento Scopus Preview);

- indice di Hirsch 1 (banca dati di riferimento Scopus Preview);

- numero totale delle citazioni 5 (banca dati di riferimento Scopus Preview);

- numero medio di citazioni per pubblicazione 1 (banca dati di riferimento Scopus Preview);

- «impact factor» totale e «impact factor» medio per pubblicazione, calcolati in relazione all’anno della pubblicazione 1 (banca dati di riferimento Scopus Preview).

La Commissione termina i propri lavori alle ore 16.30. Xxxxx, approvato e sottoscritto.

Firma del Commissari

Xxxx. Xxxxxx Xxxx Xx Xxxxxx (Presidente) Xxxx. Xxxxxxxxx Xxxxxxx (componente)

Xxxx. Xxxxx Xxxxxx Xxxxx (componente, Segretario)

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ALLEGATO N. 2 AL VERBALE N. 2

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