Study programme competencies |
Code
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Study programme competences
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A1 |
"Ability to apply graphical procedures to the representation of spaces and objects (T) " |
A2 |
Ability to conceive and represent the visual attributes of objects and master proportion and drawing techniques, including digital ones (T) |
A3 |
Knowledge of spatial representation systems and projections adapted and applied to architecture |
A4 |
Knowledge of the analysis and the theory of form and the laws of visual perception adapted and applied to architecture and urbanism |
A40 |
Ability to practise architectural criticism |
A48 |
Adequate knowledge of general theories of form, composition and architectural types |
A63 |
Development, presentation and public review before a university jury of an original academic work individually elaborated and linked to any of the subjects previously studied |
A64 |
Coñecemento avanzado de aspectos específicos da materia de Expresión Gráfica Arquitectónica no contemplados expresamente na Orde EDU/2075/2010 |
B1 |
Students have demonstrated knowledge and understanding in a field of study that is based on the general secondary education, and is usually at a level which, although it is supported by advanced textbooks, includes some aspects that imply knowledge of the forefront of their field of study |
B2 |
Students can apply their knowledge to their work or vocation in a professional way and have competences that can be displayed by means of elaborating and sustaining arguments and solving problems in their field of study |
B3 |
Students have the ability to gather and interpret relevant data (usually within their field of study) to inform judgements that include reflection on relevant social, scientific or ethical issues |
B4 |
Students can communicate information, ideas, problems and solutions to both specialist and non-specialist public |
B5 |
Students have developed those learning skills necessary to undertake further studies with a high level of autonomy |
B6 |
Knowing the history and theories of architecture and the arts, technologies and human sciences related to architecture |
B7 |
Knowing the role of the fine arts as a factor that influences the quality of architectural design |
B12 |
Understanding the relationship between people and buildings and between these and their environment, and the need to relate buildings and the spaces between them according to the needs and human scale |
C1 |
Adequate oral and written expression in the official languages. |
C2 |
Mastering oral and written expression in a foreign language. |
C3 |
Using ICT in working contexts and lifelong learning. |
C4 |
Exercising an open, educated, critical, committed, democratic and caring citizenship, being able to analyse facts, diagnose problems, formulate and implement solutions based on knowledge and solutions for the common good |
C5 |
Understanding the importance of entrepreneurial culture and the useful means for enterprising people. |
C6 |
Critically evaluate the knowledge, technology and information available to solve the problems they must face |
C7 |
Assuming as professionals and citizens the importance of learning throughout life |
C8 |
Valuing the importance of research, innovation and technological development for the socioeconomic and cultural progress of society. |
Learning aims |
Learning outcomes |
Study programme competences |
Adquirir coñecementos técnicos para a análise da arquitectura por medio de ferramentas gráficas e maquetas. |
A1 A2 A3 A4 A40 A48 A63 A64
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B1 B2 B3 B4 B5 B6 B7 B12
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C1 C2 C3 C4 C5 C6 C7 C8
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Contents |
Topic |
Sub-topic |
A. ARCHITECTURAL ANALYSIS |
Graphic Analysis of Architecture |
A.1. PRESENTATION OF THE MATTER |
Detailed explanation of the Teaching Guide.
Agenda, organization, objectives and methodology.
Working material and bibliography.
Spaces of matter: the classrooms.
Matter times: calendar.
The evaluation system.
The importance of the subject in the Curriculum and in Architecture. |
A.2. INTRODUCTION TO THE COURSE |
Explanation of the course's argument: work dynamics, objectives. Presentation of the case studies. |
A.3. GRAPHIC ANALYSIS OF ARCHITECTURE: MATERIALITY |
Architectural analysis procedures.
Graphic methods for architectural analysis. |
A.4. TOPOLOGICAL ANALYSIS |
Relationship between architecture and its surroundings.
Relationship between interior and exterior spaces
Graphic methods for topological analysis. |
A. 5. FUNCTIONAL ANALYSIS |
The functional content of the architectural fact.
The functional structure as the basis of architecture.
Typology. Type and Model.
Graphic methods for functional analysis. |
A.6. CONSTRUCTIVE ANALYSIS |
The constructive systems in the materialization and the construction of the meaning of the architecture.
Graphic methods for constructive analysis. |
A.7. STRUCTURAL ANALYSIS |
Structural systems in the materialization and construction of the meaning of architecture. The skin in the tectonic conformation of architecture.
Graphic methods for the technological analysis. |
A.8. FORMAL ANALYSIS |
The generative process of the form as a relationship between mass, space and surface.
Graphic methods for formal analysis. |
A.9. GEOMETRIC ANALYSIS |
The geometric analysis The concept of module.
Graphic methods for formal analysis. |
A.10. THE PARTI |
Analytical synthesis procedures.
Graphic methods for the realization of the "parti" and the communication of the architectural analysis. |
B. TRAINING IN DIGITAL GRAPHIC TOOLS |
Digital graphic tools in the representation and analysis of architecture. |
B.1 Digital tools for the representation of architecture |
The implementation of the information society.
The digital versus the analog and its effect on the professional work of architecture.
The digital work environment: information management and concurrent work. |
B.2. Digital tools I |
Tools for architectural ideation.
The sensible drawing programs |
B.3. Digital tools II |
Tools for architectural analysis.
The programs of illustration, edition and layout.
The programs of spatial modeling. |
B.4. Digital tools III |
Tools for architectural communication.
The programs of delineation, rendering and augmented reality. |
B.5. Digital tools IV |
Tools for the execution of the architecture.
The building modeling programs. |
Planning |
Methodologies / tests |
Competencies |
Ordinary class hours |
Student’s personal work hours |
Total hours |
Guest lecture / keynote speech |
A40 A48 A64 B6 B7 C5 C8 |
14 |
7 |
21 |
Workshop |
A1 A2 A3 A4 A40 A64 B1 B2 B3 B4 B5 B6 B7 B12 C1 C2 C3 C4 C7 |
15 |
13 |
28 |
Supervised projects |
A1 A2 A3 A4 A40 A63 B1 B5 B12 |
30 |
66 |
96 |
ICT practicals |
A1 A2 A3 A4 B4 B5 C3 C6 |
30 |
45 |
75 |
Objective test |
A63 |
4 |
0 |
4 |
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Personalized attention |
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1 |
0 |
1 |
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(*)The information in the planning table is for guidance only and does not take into account the heterogeneity of the students. |
Methodologies |
Methodologies |
Description |
Guest lecture / keynote speech |
Introduction of fundamental theoretical concepts, graphical methodologies and presentation of case studies. |
Workshop |
Confluence space with the materials Proxectos 3 and Urbanística 1 |
Supervised projects |
The students will apply the concepts and methodologies to the proposed cases of study, supervised by the teaching staff. This includes the oral presentation of the work developed, the response to tests of control of the training process and the production of a document with the resulting materials. |
ICT practicals |
The students will develop specific practices in which they will apply the knowledge acquired about digital graphic tools. |
Objective test |
Students must pass, with a minimum grade of 5, the test or specific tests that are proposed to justify knowledge of the subject. Without passing them, the course can not be approved. |
Personalized attention |
Methodologies
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Guest lecture / keynote speech |
Workshop |
Supervised projects |
ICT practicals |
Objective test |
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Description |
The evaluation is a continuous process in which the activity that the student develops is controlled and registered. Periodically and -in any case, whenever the student so requires- he is informed of the adequacy of the level reached by his activities in relation to the programmatic objectives of the subject.
A period is established, at the end of the course, free of theoretical sessions and workshops, in which the attention is developed exclusively on an individual basis, so that each student is oriented in order to reach the final objectives of the subject or, in your case, excellence.
At all times during the course, the teachers provide the students with additional support to the teacher individually, at a known time.
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Assessment |
Methodologies
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Competencies |
Description
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Qualification
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Guest lecture / keynote speech |
A40 A48 A64 B6 B7 C5 C8 |
The contents of the theoretical sessions are fundamental to know the analysis techniques and objectives that will be used in the development of the work. |
5 |
Workshop |
A1 A2 A3 A4 A40 A64 B1 B2 B3 B4 B5 B6 B7 B12 C1 C2 C3 C4 C7 |
The Workshop is the field of synthesis of the subject. Here, the intellectual development of the student and the knowledge of the objectives of the course, the mastery of the subject matter and the communicative resources of the architect are evidenced simultaneously. |
15 |
Supervised projects |
A1 A2 A3 A4 A40 A63 B1 B5 B12 |
The objective of the subject is to train the student in the analysis of the architecture and in the management of information sources applied to real assumptions.
All this is structured in a Tutored Work, which must be carried out throughout the teaching period in accordance with a scientific methodology, matching the theoretical knowledge imparted by the teaching staff. A final document will be produced where all its contents are expressed with advanced communicative strategies, typical of architecture professionals. |
45 |
ICT practicals |
A1 A2 A3 A4 B4 B5 C3 C6 |
Practices that demonstrate skills in the use of digital tools exposed during classes will be developed. |
15 |
Objective test |
A63 |
Specific control tests will be proposed to justify the knowledge acquired during the course. |
20 |
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Assessment comments |
1. Assistance. The students must attend the lectures and present the graphic works, models, etc. proposed, with the quality level required to overcome the subject.
Attendance is compulsory at least 80% to the theoretical and practical classes, as well as to the shared workshops. Without this requirement, no student will be able to pass by course to subject. The delivery of less than 100% of the practices, in its term, will mean that the course was not followed and a note of "Not Submitted" at the first opportunity.
To be able to attend the second opportunity, the students must have delivered 100% of the course practices duly supervised, they may also have to perform additional work.
2. Late registration. Students enrolled after the start of the academic year, must attend the theoretical and practical classes from the date of enrollment, with the possibility of recovery of the practices carried out until that date.
3. Opportunities. To overcome the subject, the student will have two opportunities: June and July. Anyone who does not pass the first opportunity may present himself to the second. In both cases it is practical graphic evidence.
4. Mobility. Teaching to students from mobility programs, will refer to specific pedagogical, linguistic and calendar conditions and the performance of special tutored works.
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Sources of information |
Basic
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Varios autores (2014). Cadernos PFC. ETSAC, A Coruña.
Amado Lorenzo, Antonio y Franco Taboada, Juan Manuel (2017). Alvar Aalto: Debuxo II, Análisis Arquitectónico 2º, memoria docente 2004/2005. http://ruc.udc.es/dspace/handle/2183/18341
Clark & Pause (1984). Arquitectura. Temas de composición. Aalto, Kahn, Moore, Stirling, Le Corbusier, Paladio, Venturi.
Ching, Frank (1988). Arquitectura: forma, espacio y orden..
Franco Taboada, Juan Manuel (2014). Arquitecturas para la Moda. URI: http://hdl.handle.net/2183/14685
Franco Taboada, Juan Manuel y Castro García, Óscar (2018). Casas 16 y 17 de Walter Gropius para la Weissenhof Siedlung de Stuttgart, 1927. http://hdl.handle.net/2183/21620
De Llano Cabado, Pedro; Vizcaíno Monti, Javier; Rosales Noves, José Manuel; Lizancos Mora, Plácido; (2000). Dibujo II (grupos A y C): Análise Gráfica da Arquitectura.. https://ruc.udc.es/dspace/handle/2183/5321
Ching, Frank (1989). Dibujo y proyecto.
Fraser & Henmi (1994). Envisioning architecture. An analysis of drawing..
Amado Lorenzo, Antonio y Franco Taboada, Juan Manuel (2013). Frank Lloyd Wright: Debuxo II, Análisis Gráfico Arquitectónico 2º, memoria docente 2003/2004. http://hdl.handle.net/2183/10020
Norberg- Schulz, Christian (1967). Intenciones en arquitectura..
Moore /Allen & Lyindon (1974). La casa:forma y diseño..
Curtis, Wilian (1987). Le Corbusier, Ideas y formas..
Baker, Geoffrey H. (1989). Le Corbusier. Análisis de la forma.
Michel, Lou (1996). Light. The shape of space..
Wittkower, Rudolf (1995). Los fundamentos de la arquitectura en la edad del humanismo..
Amado Lorenzo, Antonio y Franco Taboada, Juan Manuel (2017). Tadao Ando + Toyo Ito: Debuxo II, Análisis Arquitectónico 2º, memoria docente 2005/2006. http://ruc.udc.es/dspace/handle/2183/18342
Moo Zell (2008). The architectural Drawing Course.. |
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Complementary
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Recommendations |
Subjects that it is recommended to have taken before |
Architectural Analysis 1/630G02012 | Drawing in Architecture/630G02002 | Analysis of Architectural Forms/630G02007 | Architectural Design 2/630G02006 |
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Subjects that are recommended to be taken simultaneously |
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Subjects that continue the syllabus |
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Other comments |
The use of mobile phones in the theoretical classes for non-academic purposes is not allowed. Failure to comply with this rule may result in immediate expulsion from the classroom. |
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