CODE 98230 ACADEMIC YEAR 2023/2024 CREDITS 8 cfu anno 1 ENGINEERING TECHNOLOGY FOR STRATEGY (AND SECURITY) 10728 (LM/DS) - GENOVA SCIENTIFIC DISCIPLINARY SECTOR MAT/09 LANGUAGE English TEACHING LOCATION GENOVA SEMESTER Annual TEACHING MATERIALS AULAWEB OVERVIEW Operational research is a discipline included in decision science and management science; therefore, in addition to the basic notions of this subject, the course provides professional skills related to Problem Solving and Decision Making relevant to address strategic choices. The course provides students the most relevant operations research and decision support methods, to strategic decisions. Among the main techniques, Linear programming, Integer Linear Programming, heuristic and meta-heuristic algorithms are presented. AIMS AND CONTENT LEARNING OUTCOMES The course provides students the basics of operations research, which are most relevant to the strategic and operational planning of enterprises. The course aims to develop optimization models and provide mathematical programming methods, both exact and heuristic, for decision-makers. Students are also provided with the necessary knowledge to understand the structure of an optimization algorithm and to implement it with Python. Emphasis is given to logistics and transportation problems. Students will evaluate the acquiring of their skills by examining, developing and analyzing case studies in a computer classroom using the spreadsheet optimization tool of Excel and ad-hoc software environments. By the end of the course, students will have the skills necessary to identify the methodological approach needed to address a decision-making problem and the ability to apply that method to determine the good solutions. AIMS AND LEARNING OUTCOMES The course provide students the operations research and decision support methods, which are the most relevant to the strategic decisions, for the planning and controlling. Problem solving skills will also be provided. The course is aimed at developing optimization models and providing methods for decision-making problems. The resolution of strategic decision problems can be addressed using a variety of techniques. The focus of the course is on mathematical modeling techniques for decision problems and algorithmic techniques aimed at a faster resolution of this type of problem. At the end of the course, students will be able to use linear programming to model strategic problems. Further, using tools such as Spreadsheet tool of Excel and Python, students can design and implement solution approaches to the decision problem of both exact and heuristic types. Among the main Operation Research techniques, students will acquire skills in Linear programming, Integer Linear Programming, heuristic and meta-heuristic algorithms to face relevant strategic problems, as Facility location, Optimal routes and connections problems, Decision problems with Boolean variables, Decision problems with more than one objective. PREREQUISITES Recommended: Algebra, Analytic geometry, Programming, Basic Microsoft Excel. TEACHING METHODS The course includes frontal lessons held in the computer classroom, to give students the opportunity to formulate, solve and analyze together with the teachers the proposed problems. If it is not possible to carry out activities in the presence, due to changes in health conditions, the teaching methods decided by the University will be adopted. For any updates, please refer to Aulaweb. SYLLABUS/CONTENT Consistent with the objectives previously illustrated in the course, the following topics are covered Introduction to Operations Research (OR). The origin of OR. The role of the Air force group in the II world war period. The OR modelling approach: main components of a decision problem. Continue and discrete optimization problems. Introduction to Linear Programming (LP). LP problem formulations. The Simplex method. Formulation and solution of LP problems with Excel Inroduction to programming. Logic circuits. Programming languages. Python basic concepts: Getting Started, first program "hello world". Variables and Input. Conditional statements. Iteration statements. Functions Modules and Classes Strings, Lists, Dictionaries Use LP solvers in Python: Define decision variables, Create the objective function, Add constraints to the model, Analysis of the solutions. Decision problems with Boolean variables. Either-or constraint. The fixed charge problem. Covering problems. Strategic decision problems (1): Facility location problem: definition, location in the space, property of the network, facility location in networks, strategic nodes in a network (center, median and p-median). LP formulation. Basic heuristic approach. Facility location game. Data structure: Graph data structure Data manipulation and storage. Develop a parser. Test cases creation. Binary variables with Python. Algorithms and complexity classes (concepts): Exact, heuristic, meta-heuristic. Constructive Algorithms, Greedy Algorithms, selection function. Enhanced Greedy. The bin packing problem, constructive algorithm, greedy algorithm Implementation of the proposed algorithms. Strategic decision problems (2): Optimal routes and connections problems on networks. Optimal path problem. External factors (reliability, sustainability, geopolitics) in route definition problems. Case study: merchant ship routes. Network design problem. Local Search: Definition of neighborhood, Implementation of a neighborhood. Escape from the local minima, the Tabu Search, the tabu list, the reactive tabu list. Implementation of a Local Search. Genetic Algorithms: Chromosome, population, crossover, mutation, selection function. Population diversity, speciation heuristic and strong mutation. Memetic Algorithms. Implementation of a Genetic Algorithm Decision problems with more than one objective: multi-objective optimization approaches; Pareto optimal solutions. Some examples. RECOMMENDED READING/BIBLIOGRAPHY The following books and articles are suggested. Hillier, Lieberman, “Introduction to Operations Research”, McGraw Hill, 2016. J.F.McCloskey, “OR FORUM- The Beginnings of Operations Research: 1934-1941”, Operations Research, V.35, N.1, 1987, 143-152. J.F.McCloskey, “OR FORUM- British Operational Research in World War II””, Operations Research, V.35, N.3, 1987, 453-469. A. L. Jaimes, S. Zapotecas-Martinez, C.A. Coello, “An introduction to multiobjective optimization techniques”, in Optimization in Polymer Processing, A. Gaspar-Cunha, J.A. Covas (Editors), Nova Science Publishers, 29-57 (2009) M. Ehrgott, “Multicriteria optimization”, Springer, Berlin-Heidelberg (2005) M. ¨Ozlen, M. Azizoˇglu, “Multi-objective integer programming: A general approach for generating all non-dominated solutions”, European Journal of Operational Research, 199, 25-35 (2009) G. Ghiani, G. Laporte, R. Musmanno, "Introduction to logistics systems" , Wiley (2004) Downey, A., et al. "Thinking python. 2.0". Green Tea Press Supplemental Material:, 2012. TEACHERS AND EXAM BOARD ANNA FRANCA SCIOMACHEN Ricevimento: To be defined on the basis of the time schedule of the lessons. Remote office hours for students will be also possible on the teams channel on demand. CARMINE CERRONE Ricevimento: To request a meeting with the professor, you can send an email expressing your preference for an in-person meeting or a meeting via Teams. Exam Board ANNA FRANCA SCIOMACHEN (President) DANIELA AMBROSINO (President Substitute) CARMINE CERRONE (President Substitute) LESSONS LESSONS START https://corsi.unige.it/10728/p/studenti-orario Class schedule The timetable for this course is available here: Portale EasyAcademy EXAMS EXAM DESCRIPTION During class hours, students will be asked to solve exercises or case studies that will contribute to the final evaluation of the exam. Therefore, in case of students attending classes for the final assessment it will be necessary to present and discuss a project work orally concerning a case study agreed with the teachers. Students who will not attend the lessons will have to take a written test and present and discuss orally a case study agreed with the teachers. ASSESSMENT METHODS Online test during lessons, Oral interview, Project discussion. Exam schedule Data appello Orario Luogo Degree type Note 10/01/2024 15:00 GENOVA Scritto 07/02/2024 15:00 GENOVA Scritto 29/05/2024 15:00 GENOVA Scritto 12/06/2024 15:00 GENOVA Scritto 26/06/2024 15:00 GENOVA Scritto 03/09/2024 15:00 GENOVA Scritto