The course is a guide to the application of methodologies and tools to define, plan, develop, manage and control reliable architectural projects and effective development strategies.
Particular attention is given to the analysis and understanding of time, financial, production and organizational restrictions that guide the process of constructing building works, with specific reference to the issue of digitization and the Building Information Modeling methodology.
Esposito M.A. (2010) 2nd ed.(2008) 1st ed. Tecnologie di progetto per il terminal aeroportuale. Firenze: FUP – Firenze University Press, ISBN: 9788864531366
Esposito M.A. (2010) Envelope’s Details for the Green Airport Terminal / Dettagli per l’involucro del terminal verde. Firenze: FUP – Firenze University Press, ISBN: 978888453509
Bibliography
-G. Ridolfi, Progetto e procurement per costruire. Gestire progetti di pubblica utilità tra tradizione e innovazione digitale, Aracne Editrice, Roma, 2016
-A. Cucurnia e G. Giallocosta, Emergences in Social Systems: Perceptual Factors, Affordances and Performances in Architecture, in G. Minati (a cura di), “Towards a post-bertalanffy systemics”, Springer International Publishing, New York, 2015
-G. Ridolfi, Contratti e programma per costruire, Aracne Editrice, Roma, 2014
-A. Cucurnia, Percezione ed evoluzioni di approccio esigenziale-prestazionale, in G. Giallocosta, A. Magliocco (a cura di), Fattori percettivi in architettura - Impatti negli ambiti delle tecnologie da fonte energetica rinnovabile, Alinea Editrice, Firenze, 2014
-A.Cucurnia e G. Giallocosta, Housing quality and evaluations of decision-making phases in current multiscalar and multidimensional scenarios, in 40th IAHS World Congress on Housing. Sustainable Housing Construction, ITeCons Instituto de Investigacao e Desenvolvimento Tecnologico em Ciencias da Construcao (Ed.), 2014
-AA.VV. BIM Building Information Modeling. Stato dell’arte in Italia ed esperienze (http://www.ingenio-web.it/Sfogliabile/BIM-statodellarteinItaliaedesperienze/index.html), Imready srl, Galazzano (RSM), 2014
-A. Ciribini, BIM e digitalizzazione dell'ambiente costruito, Grafill, 2016
- Building Information Modeling Execution Planning Guide, The Computer Integrated Construction Research Group, The Pennsylvania State University, 2010
-A. Cucurnia, Gli strumenti della programmazione quali dispositivi strategici per l’efficienza dei processi attuativi delle opere di pubblica utilità, in TECHNE n. 6, Firenze University Press, Firenze, 2013
-C. Terpolilli, Progettando Edifici. Considerazioni sul progetto di architettura come arte della tecnica, Forma Edizioni, Poggibonsi (SI), 2012
-A. Cirafisi, O. Passante, Contratti pubblici di lavori e servizi. Dalla programmazione alla stipula del contratto, Grafill Editoria Tecnica, Palermo, 2011
-A. Ciribini, Verifica e validazione dei progetti, Grafill Editoria Tecnica, Palermo, 2011
-E. Arbizzani, Tecnologia dei sistemi edilizi. Progetto e costruzione, II° edizione, Maggioli Editore, 2011
-A. Cucurnia, Planning technologies applied to open systems for flexible buildings in M. Lauria (a cura di), “Architectural planning between build and design techniques”, Firenze University Press, Firenze, 2010
-A. Cucurnia, Costruire sistemi temporanei, in M.C. Forlani (a cura di) “Cultura Tecnologica e progetto sostenibile. Idee e proposte ecosotenibili per i territori del sisma aquilano”, Alinea Editrice, Firenze, 2010
-A. Cucurnia e F. Giofrè, L’innovazione di processo: metodi e strumenti di progetto, in O. De Paoli, E. Montacchini (a cura di) “L’innovazione nella ricerca. La sfida e l’attività in corso”, Firenze University Press., Firenze, 2009
-E. De Falco, Progettazione dei lavori pubblici. Il ruolo dei professionisti tecnici nell’ambito del Nuovo Codice dei contratti, Legislazione Tecnica Editrice S.r.l., Roma, 2007
-G. Ridolfi (a cura di), L'Affidabilità nella progettazione. Libro guida a uso del responsabile di procedimento, Edizioni ETS, Pisa, 2006
-A. Baglioni, Il progetto tecnico e i suoi strumenti. Quaderni del manuale di progettazione edilizia. Fondamenti, Hoepli, Milano, 2006
-A. Norsa, La gestione del costruire. Tra progetto, processo e contratto, Franco Angeli, Milano, 2005
-A. Missori, Tecnologia, progetto, architettura, Franco Angeli, Milano, 2004
-N. Sinopoli, V. Tatano (a cura di), Sulla tracce dell’innovazione, tra tecniche e architettura, Franco Angeli, Milano, 2002
-G. Nardi, Tecnologie dell'architettura, CLUP, Milano, 2001
-A.M. Giovenale, Il progetto preliminare nell’edilizia ospedaliera, Ed. Kappa, Roma, 1998
-N. Sinopoli, La tecnologia invisibile. Il processo di produzione dell’architettura e le sue regie, Franco Angeli, Milano, 1997
-A. Mangiarotti, Lezioni di progettazione esecutiva, Maggioli Editore, Milano, 1997
-R. Del Nord (a cura di), Storie di Ordinaria Progettazione, edizione italiana tratta dal Fascicolo Honeywood, Progetto Leonardo, Bologna, 1992
Legislative references
-Decreto legislativo 18 aprile 2016, n. 50 - Attuazione delle direttive 2014/23/UE, 2014/24/UE e 2014/25/UE sull’aggiudicazione dei contratti di concessione, sugli appalti pubblici e sulle procedure d’appalto degli enti erogatori nei settori dell’acqua, dell’energia, dei trasporti e dei servizi postali, nonché per il riordino della disciplina vigente in materia di contratti pubblici relativi a lavori, servizi e forniture.
-Linee Guida ANAC - http://www.anticorruzione.it/portal/public/classic/AttivitaAutorita/ContrattiPubblici/LineeGuida
-D.lgs. 9 aprile 2008, n. 81 - Testo coordinato con il D.Lgs. 3 agosto 2009, n. 106. Testo Unico sulla salute e sicurezza sul lavoro - rev. settembre 2015
-DIRETTIVA 2014/23/UE del Parlamento Europeo e del Consiglio del 26 febbraio 2014 sull’aggiudicazione dei contratti di concessione
-DIRETTIVA 2014/24/UE del Parlamento Europeo e del Consiglio del 26 febbraio 2014 sugli appalti pubblici e che abroga la direttiva 2004/18/CE
-D.P.R. 05/10/2010 n. 207, Regolamento di esecuzione ed attuazione del decreto legislativo 12 aprile 2006, n. 163, recante «Codice dei contratti pubblici relativi a lavori, servizi e forniture in attuazione delle direttive 2004/17/CE e 2004/18/CE».
Learning Objectives - Last names E-M
Integrated project design to manage project’s performance based parametric approach finalised to the project details specification and constructability, to define architectural technology proper solutions oriented to environment friendly buildings and sustainable architecture, particularly focusing the envelope performance design, in term of positive or zero energy and the aware use of natural resources as well.
Learning Objectives - Last names N-Z
The Project Design Management Course is aimed at providing technical skills to be applied with efficiency, effectiveness and reliability in the context of professional practice. Specifically the objective is to educate students so they acquire the knowledge necessary to consciously deal with the production system and its constituent elements and to understand the concepts, strategies, tools and techniques for developing a comprehensive project and a strategic/managerial approach to the process of streamlining activities through the use of specific electronic processes with particular reference to advanced modeling models.
Prerequisites - Last names E-M
UNI 10838 disciplinary glossary; HPBBD (High Performance Based Building Design); light material, components and systems building tech knowledge.
Prerequisites - Last names N-Z
In relation to the educational objectives of the courses attended in previous years the student must have acquired knowledge of:
- the methods of using construction materials, construction techniques and performance requirements methodology;
- the general principles of setting up a project in terms of the functional and morphological organization;
- the graphic representation of the architectural design;
- parameters regarding urban planning and construction indexes;
- knowledge of the physical environment
Teaching Methods - Last names E-M
Lessons, seminars, application
Teaching Methods - Last names N-Z
The course includes lectures and bibliographic learning integrated with design activities and practical applications that the students can carry out choosing between:
- independent study, for non-attending students
- supervised study, for attending students
Independent study The teaching method includes theoretical study activities for the acquisition of basic knowledge through the proposed text books, selected lectures, IT tools and practical design activities agreed with the professor, to be carried out independently with periodic individual reviews.
Supervised study relates to theoretical study activities to learn the basic knowledge through educational communications which will develop the topics covered by the course. It will be up to the student to develop the necessary insights from the texts indicated in the bibliography.
The educational objectives in the ‘supervised study’ mode are also achieved through participation in practical learning activities (exercises) and assessments made during the course. Specifically, the following exercises are planned:
1. Analysis of design competitions. This is an individual test to be carried out independently in the classroom based on a special format and three calls for tenders to select the design and the designer (ideas competition, design competition, contract for design services) provided by the professor.
2. Design. The exercise concerns in-depth knowledge of some aspects of the technical information of a project. Students are called upon to develop, individually in the classroom and in subsequent programmed steps, the documentation required with the levels of detail that correspond to the final and detailed design: project drawings, lists of specifications, and bill of quantities.
Further information - Last names E-M
Skilled Students not assigned by letter can be accepted if properly skilled
Further information - Last names N-Z
Enrolment – ONLY those who meet the conditions will be accepted on the course, assigned by the secretarial office on the basis of the first letter of their surname. Students wishing to attend are required to confirm their enrolment by filling in the appropriate “form” from the professor.
Attendance - Students are NOT required to attend.
Office hours - Appointments with the professor in charge of the course can be arranged by contacting the following email address:
alessandra.cucurnia@unifi.it
All information on the course will be communicated during the official hours and made available online.
The lesson timetable divided by topic and the practical design activities can be found under the online course activated on the MOODLE platform (http://e-l.unifi.it) where the educational material can also be downloaded.
Type of Assessment - Last names E-M
Mid-term test, intermediate assignments, project design application and final examination
Type of Assessment - Last names N-Z
Two assessment methods are planned in relation to the type of learning chosen by the student.
Independent study Learning is assessed through both an oral test and a discussion/evaluation of the technical and contractual documentation produced for the project.
Supervised study Learning is assessed through both oral interviews on the knowledge gained from the educational communications and an assessment of the exercises carried out during the semester. The oral interviews on the knowledge gained from the educational communications are two conducted through planned intermediate assessments.
Course program - Last names E-M
Available for accepted students
Course program - Last names N-Z
Project Design Management
Contents
The course is a guide to the application of theories, principles, methodologies and tools to define, plan, develop, manage and control reliable architectural projects and effective development strategies.
Particular attention is given to the analysis and understanding of time, financial, production and organizational restrictions that constrain and guide the process of constructing building works, with specific reference to the issue of digitization and the Building Information Modeling methodology.
Educational objectives
The Project Design Management Course is aimed at providing technical skills to be applied with efficiency, effectiveness and reliability in the context of professional practice. Specifically the objective is to educate students so they acquire the knowledge necessary to consciously deal with the production system and its constituent elements and to understand the concepts, strategies, tools and techniques for developing a comprehensive project and a strategic/managerial approach to the process of streamlining activities through the use of specific electronic processes with particular reference to advanced modeling models.
Topics
In order to achieve the objectives stated the course aims to develop the following topics:
• decision-making process and administrative programming;
• role of process operators and implications for design and production in the construction industry;
• technical information to support design decisions and actions in the implementation process;
• project life cycle: decision-making and operational phases according to which the building process develops, from the scheduling of the works up to management and maintenance;
• project management and information content;
• traditional and advanced building process models;
• construction process and its organization.
The topics addressed will be focused on with particular attention to the regulatory and procedural context in the Public Works sector.
The educational programme also includes the teaching and guide to the application of methodologies and tools such as those relating to design in the BIM environment to be applied in professional practice.
General programme of lessons divided into topics
I. Technology of Architecture
Cultural and regulatory references relevant to the course contents.
- procedural nature of the conception and execution of an architectural work and the role of technical information
- specific characteristics of public works with respect to private works
- centrality of architectural design
II. The Operators
The roles and functions of the operators involved in the process of constructing an architectural work and the interactions of each operator with the design activities.
- client/user
- Project Manager
- designer
- construction companies
- manufacturers of components and systems
- control operators
- certification and accreditation bodies
III. The Building Process
Main phases of the building process, purposes and defining activities
- planning
- designing
- contract
- construction
- management
IV. Planning
Administrative planning
- project life cycle
- overall cost, business plan
V. Design
Technical information that the project must contain at various levels of detail and in relation to the different types of contracting agreements
- procedures and criteria for selecting the project and the designer
- design levels
- moments of institutional control in the design process
IV. Contracts
Characteristics of the different types of contracts, role and operational value of the project in relation to each of them
- procedures for selecting the contractor
- traditional and advanced process models
- execution of the Works Contract
- Works Concession
- Project Financing
- in house
- General Contractor
V. Construction
Process of the material execution of a work and interactions between operators
- construction site
- control operators in the construction phase
- management of non-compliance: variations, reservations, mistakes, liability
- testing of the work
- policies system
Teaching methods
The course includes lectures and bibliographic learning integrated with design activities and practical applications that the students can carry out choosing between:
- independent study, for non-attending students
- supervised study, for attending students
Independent study The teaching method includes theoretical study activities for the acquisition of basic knowledge through the proposed text books, selected lectures, IT tools and practical design activities agreed with the professor, to be carried out independently with periodic individual reviews.
Supervised study relates to theoretical study activities to learn the basic knowledge through educational communications which will develop the topics covered by the course. It will be up to the student to develop the necessary insights from the texts indicated in the bibliography.
The educational objectives in the ‘supervised study’ mode are also achieved through participation in practical learning activities (exercises) and assessments made during the course. Specifically, the following exercises are planned:
1. Analysis of design competitions. This is an individual test to be carried out independently in the classroom based on a special format and three calls for tenders to select the design and the designer (ideas competition, design competition, contract for design services) provided by the professor.
2. Design. The exercise concerns in-depth knowledge of some aspects of the technical information of a project. Students are called upon to develop, individually in the classroom and in subsequent programmed steps, the documentation required with the levels of detail that correspond to the final and detailed design: project drawings, lists of specifications, and bill of quantities.
Examination method
Two assessment methods are planned in relation to the type of learning chosen by the student.
Independent study Learning is assessed through both an oral test and a discussion/evaluation of the technical and contractual documentation produced for the project.
Supervised study Learning is assessed through both oral interviews on the knowledge gained from the educational communications and an assessment of the exercises carried out during the semester. The oral interviews on the knowledge gained from the educational communications are two conducted through planned intermediate assessments.
Requirements
In relation to the educational objectives of the courses attended in previous years the student must have acquired knowledge of:
- the methods of using construction materials, construction techniques and performance requirements methodology;
- the general principles of setting up a project in terms of the functional and morphological organization;
- the graphic representation of the architectural design;
- parameters regarding urban planning and construction indexes;
- knowledge of the physical environment
Organizational method
Enrolment – ONLY those who meet the conditions will be accepted on the course, assigned by the secretarial office on the basis of the first letter of their surname. Students wishing to attend are required to confirm their enrolment by filling in the appropriate “form” from the professor.
Attendance - Students are NOT required to attend.
Office hours - Appointments with the professor in charge of the course can be arranged by contacting the following email address:
alessandra.cucurnia@unifi.it
All information on the course will be communicated during the official hours and made available online.
The lesson timetable divided by topic and the practical design activities can be found under the online course activated on the MOODLE platform (http://e-l.unifi.it) where the educational material can also be downloaded.
Bibliography
Bibliografia
-G. Ridolfi, Progetto e procurement per costruire. Gestire progetti di pubblica utilità tra tradizione e innovazione digitale, Aracne Editrice, Roma, 2016
-A. Cucurnia e G. Giallocosta, Emergences in Social Systems: Perceptual Factors, Affordances and Performances in Architecture, in G. Minati (a cura di), “Towards a post-bertalanffy systemics”, Springer International Publishing, New York, 2015
-G. Ridolfi, Contratti e programma per costruire, Aracne Editrice, Roma, 2014
-A. Cucurnia, Percezione ed evoluzioni di approccio esigenziale-prestazionale, in G. Giallocosta, A. Magliocco (a cura di), Fattori percettivi in architettura - Impatti negli ambiti delle tecnologie da fonte energetica rinnovabile, Alinea Editrice, Firenze, 2014
-A.Cucurnia e G. Giallocosta, Housing quality and evaluations of decision-making phases in current multiscalar and multidimensional scenarios, in 40th IAHS World Congress on Housing. Sustainable Housing Construction, ITeCons Instituto de Investigacao e Desenvolvimento Tecnologico em Ciencias da Construcao (Ed.), 2014
-AA.VV. BIM Building Information Modeling. Stato dell’arte in Italia ed esperienze (http://www.ingenio-web.it/Sfogliabile/BIM-statodellarteinItaliaedesperienze/index.html), Imready srl, Galazzano (RSM), 2014
-A. Ciribini, BIM e digitalizzazione dell'ambiente costruito, Grafill, 2016
- Building Information Modeling Execution Planning Guide, The Computer Integrated Construction Research Group, The Pennsylvania State University, 2010
-A. Cucurnia, Gli strumenti della programmazione quali dispositivi strategici per l’efficienza dei processi attuativi delle opere di pubblica utilità, in TECHNE n. 6, Firenze University Press, Firenze, 2013
-C. Terpolilli, Progettando Edifici. Considerazioni sul progetto di architettura come arte della tecnica, Forma Edizioni, Poggibonsi (SI), 2012
-A. Cirafisi, O. Passante, Contratti pubblici di lavori e servizi. Dalla programmazione alla stipula del contratto, Grafill Editoria Tecnica, Palermo, 2011
-A. Ciribini, Verifica e validazione dei progetti, Grafill Editoria Tecnica, Palermo, 2011
-E. Arbizzani, Tecnologia dei sistemi edilizi. Progetto e costruzione, II° edizione, Maggioli Editore, 2011
-A. Cucurnia, Planning technologies applied to open systems for flexible buildings in M. Lauria (a cura di), “Architectural planning between build and design techniques”, Firenze University Press, Firenze, 2010
-A. Cucurnia, Costruire sistemi temporanei, in M.C. Forlani (a cura di) “Cultura Tecnologica e progetto sostenibile. Idee e proposte ecosotenibili per i territori del sisma aquilano”, Alinea Editrice, Firenze, 2010
-A. Cucurnia e F. Giofrè, L’innovazione di processo: metodi e strumenti di progetto, in O. De Paoli, E. Montacchini (a cura di) “L’innovazione nella ricerca. La sfida e l’attività in corso”, Firenze University Press., Firenze, 2009
-E. De Falco, Progettazione dei lavori pubblici. Il ruolo dei professionisti tecnici nell’ambito del Nuovo Codice dei contratti, Legislazione Tecnica Editrice S.r.l., Roma, 2007
-G. Ridolfi (a cura di), L'Affidabilità nella progettazione. Libro guida a uso del responsabile di procedimento, Edizioni ETS, Pisa, 2006
-A. Baglioni, Il progetto tecnico e i suoi strumenti. Quaderni del manuale di progettazione edilizia. Fondamenti, Hoepli, Milano, 2006
-A. Norsa, La gestione del costruire. Tra progetto, processo e contratto, Franco Angeli, Milano, 2005
-A. Missori, Tecnologia, progetto, architettura, Franco Angeli, Milano, 2004
-N. Sinopoli, V. Tatano (a cura di), Sulla tracce dell’innovazione, tra tecniche e architettura, Franco Angeli, Milano, 2002
-G. Nardi, Tecnologie dell'architettura, CLUP, Milano, 2001
-A.M. Giovenale, Il progetto preliminare nell’edilizia ospedaliera, Ed. Kappa, Roma, 1998
-N. Sinopoli, La tecnologia invisibile. Il processo di produzione dell’architettura e le sue regie, Franco Angeli, Milano, 1997
-A. Mangiarotti, Lezioni di progettazione esecutiva, Maggioli Editore, Milano, 1997
-R. Del Nord (a cura di), Storie di Ordinaria Progettazione, edizione italiana tratta dal Fascicolo Honeywood, Progetto Leonardo, Bologna, 1992
Legislative references
-Decreto legislativo 18 aprile 2016, n. 50 - Attuazione delle direttive 2014/23/UE, 2014/24/UE e 2014/25/UE sull’aggiudicazione dei contratti di concessione, sugli appalti pubblici e sulle procedure d’appalto degli enti erogatori nei settori dell’acqua, dell’energia, dei trasporti e dei servizi postali, nonché per il riordino della disciplina vigente in materia di contratti pubblici relativi a lavori, servizi e forniture.
-Linee Guida ANAC - http://www.anticorruzione.it/portal/public/classic/AttivitaAutorita/ContrattiPubblici/LineeGuida
-D.lgs. 9 aprile 2008, n. 81 - Testo coordinato con il D.Lgs. 3 agosto 2009, n. 106. Testo Unico sulla salute e sicurezza sul lavoro - rev. settembre 2015
-DIRETTIVA 2014/23/UE del Parlamento Europeo e del Consiglio del 26 febbraio 2014 sull’aggiudicazione dei contratti di concessione
-DIRETTIVA 2014/24/UE del Parlamento Europeo e del Consiglio del 26 febbraio 2014 sugli appalti pubblici e che abroga la direttiva 2004/18/CE
-D.P.R. 05/10/2010 n. 207, Regolamento di esecuzione ed attuazione del decreto legislativo 12 aprile 2006, n. 163, recante «Codice dei contratti pubblici relativi a lavori, servizi e forniture in attuazione delle direttive 2004/17/CE e 2004/18/CE».