General Objective:

 

Aligned to the Nautec’s strategy of growing and the Altus company on the area of oil and gas, the project 3DCS pretends to develop a system of distributive modular control of high disponibility and integrated with supervision systems, in a way to promote solutions for monitoring, automation e control of marine sub-systems. In a precise way, the development of the 3DCS system, will go through the realization of the following sub-projects: Module of distributive visualization by vision, mobile visualization for DCS and industrial internet for CLPs nexto series and DNV and UL certification of CLPs nexto.

 

Sponsors
  • SCIT
  • FINEP

 

André Mendes da Rosa  - Lattes

Master in Computer Engineering from Federal University of Rio Grande(FURG)

 

Eduardo Schmidt Fernandes dos Santos  - Lattes

Master in Computer Engineering from Federal University of Rio Grande(FURG)

 

Marcos André do Amaral Bichet  - Lattes

Master in Computer Engineering from Federal University of Rio Grande(FURG)

 

Mario Ricardo Nascimento Marques Junior  - Lattes

Majoring in Automation Engineering from Federal University of Rio Grande (FURG)

 

Natanael Garcia Rodrigues  - Lattes

Master Student in Computer Engineering from Federal University of Rio Grande(FURG)

 

William Bonow Xavier  - Lattes

Majoring in Automation Engineering from Federal University of Rio Grande (FURG)

 

 

The 3DCS Project was born of a partnership between the Federal University of Rio Grande - FURG with their vocation to the study of marine sciences, coupled with the technological development in robotics and automation achieved by its Computational Science Center (C3) and its Automation Group and Intelligent Robotics (NAUTEC) with Altus Sistemas de Automação S. A., one of the biggest Brazilian organizations in the computer industry and a leader in research and development of technologies for industrial automation and process control.

The project seeks to develop software components that can be integrated supervision platform (SCADA) for use in marine applications, industrial and general automation. The aim of this project is to create new forms of visualization and interaction between these supervisory environments and field devices through 3D capabilities, virtualization, augmented reality and computer vision. The project is divided into three sub-projects: 3DCS, MDCS and VDCs.

The subproject 3DCS aims to creating and basic controls for viewing 3D objects and scenes, technical relationship between 2D and 3D environments, plus the associated technical documentation (manuals and tutorials).

The MDCS subproject uses augmented reality techniques to display information associated with equipment in the operating environment by identifying this by a specific visual tag, this information can be accessed by a mobile device type as a tablet or a smartphone.

Also within the MDCS subproject, it is possible to use the tags to recreate a 3D model of a machine in a virtualization process to facilitate identification of components through the virtual reality.

Finally, the subproject VDCs relates to the use of computer vision techniques for measuring and monitoring states and values ​​provided by field instruments, allowing the extraction of this information and use it into the SCADA system, creating a “Virtual Instrument”.

 

 

 

2D and 3D Models of Subproject 3DCS

 

3DCS

 

Acquiring information from devices by a Tablet in Subproject MDCS

 

MDCS Leitura Informações

 

3D Model in augmented reality of Subprojeto MDCS

 

MDCS 3D

 

Measures being read from an instrument through Computer Vision in Subproject VDCs

 

VDCS

 

 

Measures being read from an instrument through Computer Vision in Subproject VDCs

 

 

MDCS 3D

 

 

 

 

 VDCS 3D

 

Full Papers

RAPACCINI, M.; PORCELLI, I. ; ESPÍNDOLA, D. B. ; PEREIRA, C. E. Evaluating the use of mobile collaborative augmented reality within field service networks: the case of Océ Italia Canon Group. Production & Manufacturing Research: An Open Access Journal, v. 2, p. 738-755, 2014.

ESPÍNDOLA, D.; DUARTE, N.; BOTELHO, S. S. C.; PEREIRA, C. E. A model-based approach for data integration to improve maintenance management by mixed reality. Computers in Industry, p. 1-16, 2013

 

Abstracts

SANTOS, R. A. P. ;BOTELHO, S. S da C ; BICHET, M. A. A. ; DUARTE, N. ; ESPINDOLA, D. B. Toogle: Uma plataforma CPS para o rastreio de equipamentos em estaleiros. In: II Symposium on Computing and Automation for Naval, Offshore and Subsea Industry, 2014, Rio Grande. II Symposium on Computing and Automation for Naval, Offshore and Subsea Industry, 2014.

BICHET, M. A. A. ;BOTELHO, S. S da C ;ESPINDOLA, D. B. ; TAVARES, D. ; SILVEIRA, J. SCADA Móvel: Uso de Sistema Supervisório Móvel em Plantas Navais e OffShore. In: II Symposium on Computing and Automation for Naval, Offshore and Subsea Industry, 2014, Rio Grande. II Symposium on Computing and Automation for Naval, Offshore and Subsea Industry, 2014.

BICHET, M. A. do A. ;FREITAS, E. K. H. de; ROCHA, R. S.; NUNEZ, A.; SCHROEDER, G. N.; SANTOS, R. A. P. dos ; BOTELHO, S. S. da C. Utilization of Hyper Environments for Tracking and Monitoring of Processes and Supplies in Construction and Assembly Industries. In: 2013 Symposium on Computer and Automation for Offshore Shipbuilding (NAVCOMP), 2013, Rio Grande. 2013 Symposium on Computing and Automation for Offshore Shipbuilding, 2013. p. 81.

 

Work Presentations

SANTOS, R. A. P. ; BICHET, M. A. A. ; DUARTE, N. ; BOTELHO, S. S da C ; PEREIRA, C. E.; ZUCCOLOTTO, M. ; FRAZZON, E. M. ; ESPÍNDOLA, D. B. Visualization tool for cyber-physicalmaintenance systems. 2014. (Apresentação de Trabalho/Conferência ou palestra).

RODRIGUES, N. G. Uma Arquitetura para Integração entre Sistemas Supervisórios e Realidade Aumentada. 2014. (Apresentação de Trabalho/Seminário).

 

Published or organized Books/Issues

PORCELLI, I. ; RAPACCINI, M. ;ESPÍNDOLA, D. B. ; PEREIRA, C. E. Innovating Product-Service Systems Through Augmented Reality: a Selection Model. In: YoshikiShimomura;KojiKimita. (Org.). The Philosopher's Stone for Sustainability. 1ed.Tokyo: Springer Berlin Heidelberg, 2013, v. 1, p. 137-142.

 

Full Papers Published in Annals of Congress

PENNA, R. ; BOTELHO, S. S. C. ; DUARTE, N. ; ESPÍNDOLA, D. ; BICHET, M. A. ; FRAZZON, E. ; pereira, c. e.; ZUCCOLOCO, M. Visualization tool for cyber-physical maintenance systems. In: IEEE International Conference on Industrial Informatic, 2014, Porto Alegre. Indin 2014, 2014. v. 1. p. 1-6.

PENNA, R. ; BICHET, M. A.; BOTELHO, S. S da C ; DUARTE, N. L. ; ESPINDOLA, D. B. Toogle: Uma plataforma CPS para o rastreio de equipamentos em estaleiros. In: Simpósio em Computação e Automação para Indústria Naval, Offshore, 2014. Simpósio em Computação e Automação para Indústria Naval, Offshore, 2014. p. 1-6.

ESPINDOLA, D. B. BOTELHO, S. S da C; WEIS, A. A.; BOTELHO, S. S da C ; PEREIRA, C. E. Interface Móvel de Visualização Avançada aplicada a Sistemas da Indústria Naval. In: NAVCOMP - Simpósio em Computação e Automação para Indústria Naval, Offshore e Subaquática, 2013, Rio Grande. Anais do II WES Workshop em Sistemas Embarcados e NAVCOMP Simpósio em Computação e Automação para Indústria Naval, Offshore e Subaquática, 2013. v. 1. p. 97-101.

ESPINDOLA, D. B. ;PEREIRA, C. E. ; SCHNEIDER, E. L. ; HENRIQUES, R. V. B . Improving Maintenance Operations Through Application of Mixed Reality Systems. In: Intelligent Manufacturing Systems, 2013, Sao Paulo. Proceedings of the 11th IFAC Workshop on Intelligent Manufacturing Systems (IMS 13), 2013. v. 1. p. 1-6.

PORCELLI, I. ;RAPACCINI, M. ;ESPINDOLA, D. B. ; Pereira, C. E. Technical and Organizational Issues about the Introduction of Augmented Reality in Maintenance and Technical Assistance Services. In: Intelligent Manufacturing Systems, 2013, Sao Paulo. Proceedings of the 11th IFAC Workshop on Intelligent Manufacturing Systems (IMS 13), 2013. v. 1. p. 1-6.

 

Dissertations and Theses

SANTOS, E. S. F. dos. Sensor Visual: Mensuração de Instrumento de Ponteiro a Partir de Vídeo. Dissertação de Mestrado em Engenharia da Computação,  Universidade Federal do Rio Grande, maio de 2015. Orientador: Prof.  Dr. Adriano Velasque  Werhli. 

SILVA, B. Visualização e Acesso a Informação em Plantas Industriais: Uma Aplicação da Realidade Aumentada Móvel. Dissertação de Mestrado em Engenharia da Computação,  Universidade Federal do Rio Grande, abril de 2014. Orientadora: Profa. Dra.  Danúbia Bueno Espíndola.

 

 

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