| Nome |
# |
|
Shore-to-Ship Power, file e2913fde-d3ca-f688-e053-3705fe0a67e0
|
1137
|
|
Adaptive Neural Network-Based Control of a Hybrid AC/DC Microgrid, file e2913fda-c0bc-f688-e053-3705fe0a67e0
|
1061
|
|
All-Electric Ship Design: From Electrical Propulsion to Integrated Electrical and Electronic Power Systems, file e2913fde-e7b5-f688-e053-3705fe0a67e0
|
398
|
|
Power Flow Control and Network Stability in an All-Electric Ship, file e2913fda-3865-f688-e053-3705fe0a67e0
|
382
|
|
Early-stage design of shipboard integrated power systems: CSI-based multiple solutions comparison, file e2913fdb-c6f3-f688-e053-3705fe0a67e0
|
267
|
|
Design of Zonal Electrical Distribution Systems for Ships & Oil Platforms: Control Systems and Protections, file e2913fdd-7912-f688-e053-3705fe0a67e0
|
246
|
|
Next-Generation Shipboard DC Power System: Introduction Smart Grid and dc Microgrid Technologies into Maritime Electrical Networks, file e2913fde-a31e-f688-e053-3705fe0a67e0
|
176
|
|
A Stability Preserving Criterion for the Management of DC Microgrids Supplied by a Floating Bus, file e2913fdc-5ad1-f688-e053-3705fe0a67e0
|
149
|
|
A novel fault diagnosis technique for photovoltaic systems based on artificial neural networks, file e2913fdf-0392-f688-e053-3705fe0a67e0
|
146
|
|
A novel fault diagnosis technique for photovoltaic systems based on artificial neural networks, file e2913fde-9641-f688-e053-3705fe0a67e0
|
96
|
|
All Electric Ships Integrated Power Systems: Dependable Design based on Fault Tree Analysis and Dynamic Modeling, file e2913fde-b4e5-f688-e053-3705fe0a67e0
|
91
|
|
Dependable design of all electric ships integrated power system: New design process, file e2913fdb-cbe5-f688-e053-3705fe0a67e0
|
80
|
|
Environmental and operative impact of the electrification of a double-ended ferry, file e2913fdd-cab2-f688-e053-3705fe0a67e0
|
72
|
|
Hybrid-electric solutions for the propulsion of a luxury sailing yacht, file e2913fde-f8d2-f688-e053-3705fe0a67e0
|
58
|
|
Voltage Stability in Large Marine-Integrated Electrical and Electronic Power Systems, file e2913fde-879c-f688-e053-3705fe0a67e0
|
41
|
|
The Role of Voltage Controls in Modern All-Electric Ships: Toward the all electric ship, file e2913fde-d2e1-f688-e053-3705fe0a67e0
|
37
|
|
Design of Zonal Electrical Distribution Systems for Ships and Oil Platforms: Control Systems and Protections, file e2913fdf-4cf8-f688-e053-3705fe0a67e0
|
37
|
|
Inland waterway gas-fueled vessels: CASM-based electrification of a pushboat for the European network, file e2913fde-a32b-f688-e053-3705fe0a67e0
|
35
|
|
Increasing the Safety of Modern Passenger Ships: A Comprehensive Approach for Designing Safe Shipboard Integrated Electrical Power Systems, file e2913fde-d4b4-f688-e053-3705fe0a67e0
|
35
|
|
A Holistic Approach for the Dependability Enforcement of Cyber & Power Systems on future MVDC Ships, file b3e722e0-a232-423e-8a3f-3dc9a379cf6c
|
28
|
|
A coordinated voltage and reactive power control architecture for large PV power plants, file e2913fdd-6ce2-f688-e053-3705fe0a67e0
|
27
|
|
Long Term Voltage Control, file e2913fde-01fb-f688-e053-3705fe0a67e0
|
24
|
|
Medium voltage DC power systems on ships: An offline parameter estimation for tuning the controllers' linearizing function, file e2913fdb-dc92-f688-e053-3705fe0a67e0
|
22
|
|
A review on energy efficiency in three transportation sectors: Railways, electrical vehicles and marine, file e2913fdd-50d5-f688-e053-3705fe0a67e0
|
21
|
|
Electric Ship Technologies, file e2913fde-9642-f688-e053-3705fe0a67e0
|
21
|
|
Feasibility Study of a DC Hybrid-Electric Catamaran for River Navigation, file e2913fde-b665-f688-e053-3705fe0a67e0
|
17
|
|
An Application of Modular Design in the Refitting of a Hybrid-electric Propelled Training Ship, file e2913fdf-43e1-f688-e053-3705fe0a67e0
|
17
|
|
Reactive Power Resources Management in a Voltage Regulation Architecture Based on Decoupling Control, file e2913fdf-5d35-f688-e053-3705fe0a67e0
|
16
|
|
Electrical and energy systems integration for maritime environment-friendly transportation, file e2913fde-dc4e-f688-e053-3705fe0a67e0
|
15
|
|
Integrated design of a hybrid-electric power system for coastal-navigation multipurpose crafts, file e2913fdb-6738-f688-e053-3705fe0a67e0
|
14
|
|
An innovative hybrid-electric small passenger craft for the sustainable mobility in the Venice Lagoon, file e2913fda-89a8-f688-e053-3705fe0a67e0
|
10
|
|
Weighted Bandwidth Method for Stability Assessment of Complex DC Power Systems on Ships, file e2913fde-e22c-f688-e053-3705fe0a67e0
|
10
|
|
Simplified analytical modeling and experimental validation of diode bridge rectifier operation during rail-to-rail short-circuit faults in synchronous generator-fed DC distribution systems, file e2913fdb-cbae-f688-e053-3705fe0a67e0
|
9
|
|
Coordinated Power Control for Flexible and Sustainable Operation of DC microgrids in Yacht Marinas, file 854bb87c-8115-4199-90da-523fc211e102
|
8
|
|
Voltage Stability in Large Marine-Integrated Electrical and Electronic Power Systems, file e2913fda-bf09-f688-e053-3705fe0a67e0
|
8
|
|
Hybrid-electric solutions for the propulsion of a luxury sailing yacht, file e2913fdd-bc5c-f688-e053-3705fe0a67e0
|
8
|
|
Open Source Hardware in the Loop Real-time Simulation of Zonal DC systems, file e2913fdf-ac92-f688-e053-3705fe0a67e0
|
8
|
|
Early-stage design of shipboard integrated power systems: CSI-based multiple solutions comparison, file e2913fdb-b314-f688-e053-3705fe0a67e0
|
7
|
|
Design of Zonal Electrical Distribution Systems for Ships & Oil Platforms: Control Systems and Protections, file e2913fdd-a64e-f688-e053-3705fe0a67e0
|
7
|
|
Study on the State Feedback Selection and Measurement for the Application of an LQRI Secondary Voltage Regulator to a Transmission System, file 2c81c473-b4a1-4fe8-b347-7b4466433d34
|
6
|
|
Electric Ship Technologies, file e2913fda-4487-f688-e053-3705fe0a67e0
|
6
|
|
Inland waterway gas-fueled vessels: CASM-based electrification of a pushboat for the European network, file e2913fdb-1368-f688-e053-3705fe0a67e0
|
6
|
|
Evolution of an Alpine Ski-Resort Distribution System Toward Microgrid, file e2913fdf-a5c1-f688-e053-3705fe0a67e0
|
6
|
|
Comparison Between Ring and Radial Configurations of the University of Trieste Campus MV Distribution Grid, file 70efd153-f2d6-4cbd-9c99-ba2bead1188d
|
5
|
|
Real-time applications for electric power generation and voltage control, file e2913fda-ba04-f688-e053-3705fe0a67e0
|
5
|
|
Voltage stability in large marine integrated electrical and electronic power systems, file e2913fda-bcc4-f688-e053-3705fe0a67e0
|
5
|
|
Toward the future: The MVDC large ship research program, file e2913fda-bcc5-f688-e053-3705fe0a67e0
|
5
|
|
An Application of Modular Design in the Refitting of a Hybrid-electric Propelled Training Ship, file e2913fdd-bfaa-f688-e053-3705fe0a67e0
|
5
|
|
Design of Zonal Electrical Distribution Systems for Ships and Oil Platforms: Control Systems and Protections, file e2913fde-163c-f688-e053-3705fe0a67e0
|
5
|
|
Reactive Power Resources Management in a Voltage Regulation Architecture Based on Decoupling Control, file e2913fde-f1f8-f688-e053-3705fe0a67e0
|
5
|
|
Coordinated Power Control for Flexible and Sustainable Operation of DC microgrids in Yacht Marinas, file e2913fdf-c0ab-f688-e053-3705fe0a67e0
|
5
|
|
Stability-Oriented Analysis of a DC Shipboard Zonal Distribution System, file a33d82ec-2f3a-40cd-8703-c7ba348f8c3c
|
4
|
|
The Role of Voltage Controls in Modern All-Electric Ships: Toward the all electric ship, file e2913fda-3866-f688-e053-3705fe0a67e0
|
4
|
|
Shore-to-Ship Power, file e2913fda-408b-f688-e053-3705fe0a67e0
|
4
|
|
Inland waterway gas-fuelled vessels: An innovative proposal of a hybrid ship for the European network, file e2913fda-48f3-f688-e053-3705fe0a67e0
|
4
|
|
Next-Generation Shipboard DC Power System: Introduction Smart Grid and dc Microgrid Technologies into Maritime Electrical Networks, file e2913fda-b9da-f688-e053-3705fe0a67e0
|
4
|
|
Early-stage design of integrated power and energy systems for naval vessels electrification: Advanced modeling using CSI, file e2913fdb-a57a-f688-e053-3705fe0a67e0
|
4
|
|
Increasing the Safety of Modern Passenger Ships: A Comprehensive Approach for Designing Safe Shipboard Integrated Electrical Power Systems, file e2913fdb-cc9c-f688-e053-3705fe0a67e0
|
4
|
|
All Electric Ships Integrated Power Systems: Dependable Design based on Fault Tree Analysis and Dynamic Modeling, file e2913fdd-3594-f688-e053-3705fe0a67e0
|
4
|
|
A novel fault diagnosis technique for photovoltaic systems based on artificial neural networks, file e2913fdd-d3ad-f688-e053-3705fe0a67e0
|
4
|
|
HIL Virtual Prototyping of a DC Shipboard Microgrid, file e2913fdf-b5c1-f688-e053-3705fe0a67e0
|
4
|
|
A Template Model to Assess the DC Stability of Green Charging Microgrids, file 06dad3b9-6845-413d-bddb-688e8c5d4c1c
|
3
|
|
Chapter 19 - Stability assessment in advanced DC microgrids, file 3f598d11-94bb-4fdd-ac68-19dc0a759865
|
3
|
|
DC Shipboard Microgrids with Constant Power Loads: A Review of Advanced Nonlinear Control Strategies and Stabilization Techniques, file 5adcb0bf-177a-4d23-b985-30280ca3034c
|
3
|
|
The WBM Reconfiguration to Prevent the Instability on DC Shipboard Microgrids, file 80ce6507-f2d0-46fd-95ae-27afed4953c8
|
3
|
|
System Stability and Short Circuit Contribution as Discordant Targets in Cascade Connected DC Microgrids: a Design Procedure, file 8a39c385-a062-4f14-9eb9-87679e511a71
|
3
|
|
Secure and effective platform for field devices using
blockchain in transition electrical grids., file 8fadefdd-5bda-4943-941c-20da1639869b
|
3
|
|
Reactive Power Resources Management in a Voltage Regulation Architecture Based on LQRI Control, file c71a821c-7b1e-4510-8f5d-a9a86c2eb760
|
3
|
|
null, file e2913fd9-1c56-f688-e053-3705fe0a67e0
|
3
|
|
Leading the way toward fuel parity in photovoltaics: The utility-scale market in Sicily, Italy, file e2913fda-b4d4-f688-e053-3705fe0a67e0
|
3
|
|
Robust voltage control in large multi-converter MVDC power systems on ships using thyristor interface converters, file e2913fdb-cc18-f688-e053-3705fe0a67e0
|
3
|
|
All-Electric Ship Design: From Electrical Propulsion to Integrated Electrical and Electronic Power Systems, file e2913fdc-3e13-f688-e053-3705fe0a67e0
|
3
|
|
An Analysis of the Small-Signal Voltage Stability in MVDC Power Systems with Two Cascade Controlled DC-DC Converters, file e2913fdc-5f05-f688-e053-3705fe0a67e0
|
3
|
|
Early-Stage design methodology for a multirole electric propelled surface combatant ship, file e2913fdd-1f9e-f688-e053-3705fe0a67e0
|
3
|
|
Equivalent Inductance Evaluation for Cable Bundles in Shipboard Integrated Power and Energy Systems, file e2913fdd-b32d-f688-e053-3705fe0a67e0
|
3
|
|
Fuzzy-based power control for distributed generators based on solid oxide fuel cells, file e2913fda-3863-f688-e053-3705fe0a67e0
|
2
|
|
Studies on asymmetrical short circuit currents in shipboard medium voltage direct current distribution systems fed by AC generators, file e2913fda-542e-f688-e053-3705fe0a67e0
|
2
|
|
Intentional islanding in medium voltage distribution grids, file e2913fda-b7aa-f688-e053-3705fe0a67e0
|
2
|
|
Real-time applications for electric power generation and voltage control, file e2913fdb-1a0c-f688-e053-3705fe0a67e0
|
2
|
|
Dependable design of all electric ships integrated power system: New design process, file e2913fdb-cc9e-f688-e053-3705fe0a67e0
|
2
|
|
Medium voltage DC power systems on ships: An offline parameter estimation for tuning the controllers' linearizing function, file e2913fdb-eaa6-f688-e053-3705fe0a67e0
|
2
|
|
Voltage and frequency regulation in high power AC islanded microgrid with static converter interfaced generators, file e2913fdc-3171-f688-e053-3705fe0a67e0
|
2
|
|
Power-Electronics-Based Power Distribution System of a MVDC Ship: AC/DC Interface Converters and Control System, file e2913fdc-5f01-f688-e053-3705fe0a67e0
|
2
|
|
Early Design of AC/DC Interface Converters and Control System for a MW-scale MVDC Shipboard Power System, file e2913fdc-5f09-f688-e053-3705fe0a67e0
|
2
|
|
Evolution of the Trieste Port: A real-time system for a coordinated cold ironing, file e2913fdd-29f0-f688-e053-3705fe0a67e0
|
2
|
|
Design of Zonal Electrical Distribution Systems for Ships & Oil Platforms: Control Systems and Protections, file e2913fdd-45b9-f688-e053-3705fe0a67e0
|
2
|
|
Study on zoning procedures for Secondary Voltage Regulation, file e2913fdd-8fc7-f688-e053-3705fe0a67e0
|
2
|
|
Assessment of an Alpine Microgrid in a Ski Resort for Integrating RES and Electrical Mobility, file e2913fdd-ac68-f688-e053-3705fe0a67e0
|
2
|
|
Environment-friendliness in Maritime Transport: Designing Smart Recharging Stations in North Adriatic Sea, file e2913fdd-b1b7-f688-e053-3705fe0a67e0
|
2
|
|
An Application of Modular Design in the Refitting of a Hybrid-electric Propelled Training Ship, file e2913fdd-dc73-f688-e053-3705fe0a67e0
|
2
|
|
Concept Design Methodology to Enable Naval Smart Grid onboard Electric Ships, file e2913fde-a2f3-f688-e053-3705fe0a67e0
|
2
|
|
Protections in a MW-scale DC ZEDS based on COTS components, file e2913fde-ed2f-f688-e053-3705fe0a67e0
|
2
|
|
The Control and Monitoring System on a Medium Voltage AC Distribution Grid: Device Implementation and Calibration Procedure, file e2913fdf-ac88-f688-e053-3705fe0a67e0
|
2
|
|
Power Electronic Conditioning Systems for Industrial Photovoltaic Systems: Centralized or String Inverters?, file e2913fd9-5a48-f688-e053-3705fe0a67e0
|
1
|
|
Coordinated voltage control of multi-converter power plants operating in transmission systems. the case of photovoltaics, file e2913fda-3864-f688-e053-3705fe0a67e0
|
1
|
|
Automatic voltage and reactive power regulator for wind farms participating to TSO voltage regulation, file e2913fda-3867-f688-e053-3705fe0a67e0
|
1
|
|
Automatic voltage control of a cluster of hydro power plants to operate as a virtual power plant, file e2913fda-3a1f-f688-e053-3705fe0a67e0
|
1
|
|
High voltage ship-to-shore connection for electric power supply support in landing operations: An analysis, file e2913fda-4088-f688-e053-3705fe0a67e0
|
1
|
|
Transient short circuit analysis in DC on-board distribution systems fed by synchronous generators through 6-pulse diode rectifiers, file e2913fda-4089-f688-e053-3705fe0a67e0
|
1
|
|
Electric loads characterization in an aircraft carrier with ring-bus distribution system, file e2913fda-444f-f688-e053-3705fe0a67e0
|
1
|
| Totale |
5030 |