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Category ID: 3,
Category name: FCT - Robotic Construction.

BOOKS

  1. Sousa, J.P. (2015): Robotic Technologies for a Non Standard Design and Construction in Architecture, Universidade do Porto, Faculdade de Arquitectura, Porto.

 ARTICLES

  1. Martins, P.; Sousa, J.P. (2014): “Digital Fabrication Technology in Concrete Architecture”, in Thompson, Emine Mine (ed.), Fusion – Proceedings of the 32nd eCAADe Conference – Vol.1 (pp. 475-484), Department of Architecture and Built Environment, Faculty of Engineering and Environment, Newcastle upon Tyne. ISBN: 9789491207075
  2. SousaP. (2014): “Cork as a digital material“, in M. Voyatzaki (Ed.), What’s the Matter. Materiality and Materialism in the Age of Computation (pp. 481-497), ENHSA, Barcelona. ISBN: 9789491207075
  3. Carvalho, P., Nunes, S., Sousa, J.P. (2014): “Elementos Compósitos em Betão com Geometria Complexa por Processos de Fabrico Automatizado” in 5as Jornadas Portuguesas de Engenharia de Estruturas, 26 a 28 Novembro 2014, LNEC, Lisboa, Portugal. ISBN: 9789491207075
  4. Sousa, J.P.; Xavier, J.P. (2015): “Symmetry-Based Generative Design and Fabrication: a Teaching Experiment”, in Automation in Construction Vol.51, March 2015 (pp. 113-123), Elsevier. DOI: 1016/j.autcon.2014.11.001
  5. Moreira, E.; Pinto, A.M.; Costa, P.; Moreira, A.P.; Veiga, G.; Lima, J.; Sousa, J.P.; Costa, P. (2015):”Cable Robot for Non-Standard Architecture and Construction: A Dynamic Positioning System“. in Industrial Technology (ICIT), 2015 IEEE International Conference on (pp. 3184-3189). ISBN: 978-1-4799-7799-4
  6. Varela, P.; Sousa, J.P. (2015): “Digital Flow in Stone Heritage Buildings. The Nasoni Keystone Experiment “, in Martens, G. Wurzer, T. Grasl, WE Lorenz and R. Schaffranek (Eds.), Real Time – Proceedings of the 33rd eCAADe Conference (pp. 717-726), Vienna University of Technology. ISBN: 978-949-12070-8-2
  7. Martins, P; Campos, P.F.; Nunes, S.; Varela, P.; Sousa, J.P. (2015): “Expanding the Material Possibilities of Lightweight Prefabrication in Concrete through Robotic Hot-Wire Cuttingin Martens, G. Wurzer, T. Grasl, WE Lorenz and R. Schaffranek (Eds.), Real Time – Proceedings of the 33rd eCAADe Conference (pp. 341-351), Vienna University of Technology. ISBN: 978-949-12070-8-2
  8. Sousa, J.P.; Varela, P.; Martins, P (2015): “Between Manual and Robotic Approaches to Brick Construction in Architecture“, in Martens, G. Wurzer, T. Grasl, WE Lorenz and R. Schaffranek (Eds.), Real Time – Proceedings of the 33rd eCAADe Conference (pp. 361-370), Vienna University of Technology. ISBN: 978-949-12070-8-2
  9. Sousa, J.P.; Veiga, G.; Moreira, A.P. (2015): “Robotic Fabrication of Cork. Emerging Applications and Opportunities in the Building Construction Industry“, ACADIA 2015 Conference -Computational Ecologies. Design in the Anthropocene (pp-251-258), Cincinnati, OH. ISBN: 978-069-25372-68
  10. Sousa, J.P., Xavier, J.P. (2015): “Fabricação Robótica de Estruturas em Tijolo. Uma experiência no Ensino da Arquitectura“, in XIX Congresso da Sociedade Iberoamericana de Gráfica Digital – SIGRADI 2015, Blucher Design Proceedings (pp. 143-147), Florianópolis, Brazil. ISBN: 978-85-8039-136-7
  11. Sousa, J.P.; Gasso, C.; Moreira, E.; Pinto, A.M.; Lima, J.; Costa, P.; Costa, P.; Veiga, G.; Moreira, A.P. (2015): “The SPIDERobot: A Cable-Robot System for On-Site Construction in Architecture“. Full Paper accepted for publication in the Proceedings of the Rob|Arch 2016 – Robotic Fabrication in Architecture, Art and Design, University of Sidney.
  12. Sousa, J.P.; Martins, P.; Varela, P. (2016): “The CorkCrete Arch Project. The Design and Fabrication of a Novel Building System”, Full Paper accepted to be published in the Proceedings of the 21st Annual Conference on Computer-Aided Architectural Design Research in Asia / CAADRIA, The University of Melbourne. (Full paper accepted for publication)

REPORTS

  1. Sousa, J.P. (2014): RobTech – Task 1.1 – Survey in computational design. Report of the Research Project “Robotic Technologies for a Non-Standard Design and Construction in Architecture” supported by FCT. FAUP and INESC-Tec, Porto. Link: https://sigarra.up.pt/faup/pt/publs_pesquisa.FormView?P_ID=98271
  2. Sousa, J.P., Moreira, A.P., Veiga, G. (2014): RobTech – Task 1.2 – Survey in robotic technologies. Report of the Research Project “Robotic Technologies for a Non-Standard Design and Construction in Architecture” supported by FCT. FAUP and INESC-Tec, Porto. Link: https://sigarra.up.pt/faup/pt/publs_pesquisa.FormView?P_ID=98270
  3. Sousa, J.P., Xavier, J.P., Póvoas, R. (2014): RobTech – Task 1.3 – Survey in architectural design and construction. Report of the Research Project “Robotic Technologies for a Non-Standard Design and Construction in Architecture” supported by FCT. FAUP and INESC-Tec, Porto. Link: https://sigarra.up.pt/faup/pt/publs_pesquisa.FormView?P_ID=98273

PUBLICATIONS BY OTHERS

  1. Neves, C. (2015): “Projectos de Investigação na Área da Arquitectura Digital”, Porto Canal, March 10, 2015 Link: http://vimeo.com/122088562
  2. Novo, A.F. (2015): “Arquitectura Digital. Novo Laboratório de Fabricação Digital é único em Portugal”, RTP 1, March 11, 2015 Link: http://vimeo.com/123008220
  3. Larguesa, A. (2015): “Escola dos Pritzker cria laboratório para a indústria”, Jornal de Negócios, March 11, 2015 Link: http://www.jornaldenegocios.pt/empresas/detalhe/escola_dos_pritzker_cria_laboratorio_para_a_industria.html
  1. Faria, R. (2015): “Interview with José Pedro Sousa”. Revista Téchne n.222 (pp. 12-16), São Paulo, Brazil. Link: http://techne.pini.com.br/engenharia-civil/222/especialista-em-tecnologias-digitais-arquiteto-portugues-comenta-o-uso-da-364265-1.aspx
  2. Pinto, L.; Pinheiro, P. (2015): “Robótica Industrial. Um admirável Mundo Novo”. INESC TEC 30 Anos, RTP3, Noveber 14, 2015. Link: https://vimeo.com/150129105

MASTER THESIS

  1. Martins, M.M. (2014): Robotic Architecture. Developing a “Cable-Robot” for Construction. Master Thesis in Electrical and Computer Engineering, Faculty of Engineering of the University of Porto.
  2. Oliveira, M. (2014): Architecture and Customization. The Impact of CAD/CAM Technologies. Master Thesis in Architecture, Faculty of Engineering of the University of Porto.
  3. Almeida, D. (2015): Tradition and Innovation. Digital Technologies in the Design Process of the Serpentine Gallery Pavilion 2005. Master Thesis in Architecture, Faculty of Engineering of the University of Porto.
  4. Oliveira, R. (2015): Digital Design and Construction Possibilities with Bricks departing from the Work of Raul Hestnes Ferreira. Master Thesis in Architecture, Faculty of Engineering of the University of Porto.

In Progress

  • José Campos, Catarina Brites, João Carvalho, Gabriel Correia

 

PHD THESIS

In Progress

  1. Martins, P.: Tectónica e transformação do Betão, PhD research in Architecture, Faculty of Architecture of the University of Porto (expected completion: 2016)
  2. Varela, P.: Reconstrução de uma Estereotomia, PhD research in Architecture, Faculty of Architecture of the University of Porto (expected completion: 2017)

 

COMMUNICATIONS

  1. Sousa, J.P. (2014): “Cork as a Digital Material”, What’s the Matter. International Conference. COAC, Barcelona (September, 4)
  2. Martins, P. (2014): “Digital Fabrication Technology in Concrete Architecture”, 32nd eCAADe Conference, Northumbria University, Newcastle (September 10)
  3. Martins, P. (2014): “Elementos Compósitos em Betão com Geometria Complexa por Processos de Fabrico Automatizado”, 5ª Jornadas Portuguesas de Engenharia de Estruturas, LNEC, Lisbon (November 26)
  4. Moreira, E. (2015): “Cable Robot for Non-Standard Architecture and Construction: a Dynamic Positioning System”, 2015 IEEE International Conference on Industrial Technology, Seville (March 19)
  5. Martins, P. (2015):Expanding the Material Possibilities of Lightweight Prefabrication in Concrete through Robotic Hot-Wire Cutting”, 33rd eCAADe Conference, Vienna University of Technology (September 17)
  6. Sousa, J.P. (2015): “Between Manual and Robotic Approaches to Brick Construction in Architecture”, 33rd eCAADe Conference, Vienna University of Technology (September 17)
  7. Varela, J.P. (2015): “Digital Flow in Stone Heritage Buildings. The Nasoni Keystone Experiment”, 33rd eCAADe Conference, Vienna University of Technology (September 18)
  8. Sousa, J.P. (2015): Robotic Fabrication of Cork. Emerging Applications and Opportunities in the Building Construction Industry, ACADIA 2015 Conference, 21c Museum hotel, Cincinnati, OH. (October 23)
  9. Xavier, J.P. (2015): Fabricação Robótica de Estruturas em Tijolo. Uma experiência no Ensino da Arquitectura, XIX SIGRADI Conference, Federal University of Santa Catarina, Florianópolis, Brazil. (November 26)
  10. Sousa, P. (2015): “Robotic Technologies for a Non-Standard Design and Construction in Architecture – Presentation of the Research Project’s Results”, Faculty of Architecture, University of Porto, Porto (November 30)

 

INVITED LECTURES

  1. Sousa, J.P. (2014): “Printing (in) Architecture”, Faculty of Engineering, University of Porto (April 9)
  2. Sousa, J.P. (2014): “Digital Experiments. Material Realities”, 1º ENEA, Encontro Nacional de Estudantes de Arquitectura, Faculty of Architecture, University of Porto (July 14)
  3. Sousa, J.P. (2014): “(Digital) Research on Cork”, RoadShow APCOR, Faculty of Engineering, University of Porto (November 28)
  4. Sousa, J.P. (2015): “Latência do Digital na Arquitectura”, Digital DArq, University of Coimbra (April 29)
  5. Varela, P. (2015): “Repensar a estereotomia”, Digital DArq, University of Coimbra (April 29)
  6. Sousa, J. (2015): “Digital Experiments. Material Realities”, Lusófona University, Lisbon (May 21)
  7. Sousa, J. (2015): “Robots”, Creative Mornings Porto, DFL, Porto (May 22)
  8. Sousa, J.; Gassó, C. (2015): “DFl. Fazedores”, Conferências GLOTE, Porto (May 26)
  9. Sousa, J. (2015): “Fair faced cork. New Technologies and applications of cork in architecture”, Faculty of Architecture, University of Lisbon, Lisbon (July 5)