The course aims at exploring tools to support networks and system management, and project management in the energy field, including environmental and green transition issues. Methods to perform networka and systems scenarios analysis are presented, together with some Key performance indexes. Models to plan and control the project activities are proposed and time-cost trade-off analysis will be realized.
The course aims to teach tools that support systems, network management, and project management. It focuses on strategic decisions regarding network design with predefined levels of connectivity, reliability, and sustainability, transitioning from network to system concepts. Decision theory tools will be employed to perform system analysis and dimension evaluation using Key Performance Indicators (KPIs). Several scenario analyses will be performed, and methods for handling uncertainty will be introduced. Within the project management domain, useful models will be examined to plan and oversee project activities. Time-cost trade-off analysis will be conducted.
The course aims at providing decision support methods to face problems in the energy field, including enviromental and green transition issues. The course will provide the knowledge of different management and optimization techniques such as math programming, decision theory, simulation, scenario analysis..
The consolidation of the proposed methodologies is supported by the development of case studies; methods and models will be implemented and solved thanks to specific software.
The case studies analysed will allow the development of awareness of personal learning level, of ability to apply the studied techniques, understanding one's own needs for skills development. Furthermore, the solution of the problems contextualized in real systems allows the development of imagination, creativity, critical reflection, and problem-solving.
With reference to learning outcomes, at the end of the course the students must have acquired competences that allow them to understand, describe and solve different types of real problems, develop models and methods and use dedicated software environments with a certain mastery of reference. Specifically, at the end of the course, the students will be able to:
Fundamentals on mathematics and statistics
Traditional lectures are integrated with lab lessons, seminars and individual/group works. During lesson are proposed activities based on active, interactive and constructive teaching techniques; these activities will contribute to the acquisition of transversal skills (see the training objectives section) and related Open Badges.
Thanks to participation in proposed activities, it is possible to obtain the following Open Badge:
Ability in learning to learn - advanced level
Project creation proficiency - basic or advanced level
Students who have valid certification of physical or learning disabilities and who wish to discuss possible accommodations or other circumstances regarding lectures, coursework and exams, should speak both with the instructor and with Professor Elena Lagomarsino elena.lagomarsino@unige.it, the Department's disability liaison.
Part I: Introduction to Optmization models
Part 2: Network Optimization
Part 3: uncertainty and scenarios analysis
Part 4: Project management.
Materials and textbook will be indicated during lessons and published on AULAWEB
Ricevimento: Remote reception on Team on request: contact the teacher via email (elena.tanfani@unige.it)
I semester - check the official timetabling at the Department of Economics website (Lessons timetable | DIEC)
The timetable for this course is available here: EasyAcademy
Written examination and presentation of case studies. For attendant students, some lab activities (comunicated in Aulaweb) will be evaluated for the final grade.
The knowledge on the topics covered in class will be assessed through the written examination The ability to apply knowledge and communication skills and other personal competencies (learning to learn and project creation) will be assessed through the projects work and thier presentation.
Working students and students with certified SLD (Specific Learning Disorders), disability or other special educational needs are advised to contact the teacher at the beginning of the course to agree on teaching and examination arrangements so to take into account individual learning patterns, while respecting the teaching objectives.
