Past, present and future of information and knowledge sharing in the construction industry: Towards semantic service-based e-construction

The paper reviews product data technology initiatives in the construction sector and provides a synthesis of related ICT industry needs. A comparison between (a) the data centric characteristics of Product Data Technology (PDT) and (b) ontology with a focus on semantics, is given, highlighting the pros and cons of each approach. The paper advocates the migration from data-centric application integration to ontology-based business process support, and proposes inter-enterprise collaboration architectures and frameworks based on semantic services, underpinned by ontology-based knowledge structures. The paper discusses the main reasons behind the low industry take up of product data technology, and proposes a preliminary roadmap for the wide industry diffusion of the proposed approach. In this respect, the paper stresses the value of adopting alliance-based modes of operation

The BIM process for the architectural heritage: New communication tools based on AR/VR Case study: Palazzo di Città

The present study aims at presenting the application of the Building Information Modeling methodology to the case study of Palazzo di Città, the Turin City Hall, investigating the possibilities of integration of new technologies in Cultural Heritage preservation and valorization. From the survey phase to the communication of the CH to end-users, BIM methodology, combined with the latest digital innovations (AR, VR, 3d Laser Scanner and much more), allows a fast and highly communicative representation of buildings to both professionals and common visitors who interact with the building life-cycle. An important objective of this work is moreover to demonstrate the advantages of adopting and integrating this technologies in Real Estate Management at a national scale, fully testing the adaptability of parametric software and Virtual Reality modeling to complex and highly decorated buildings, confirming the potentiality of BIM software upon an uncommon field: the historic buildings. The case study is in fact Palazzo di Città, the baroque, seventieth century City Hall of Turin. The research fully meets the latest directives of European Union and other International Organizations in the field of digitization of archives and Public Property management, participating to the international community effort to overcome the contemporary deep Construction Field crisis. In particular, the methodology has been focused and adapted to the protection and management of our huge Heritage, founding its objectives on the quest of cost-saving processes and instruments, applied to the management of a CH. Through BIM it is in fact possible to increase the communication and cooperation among all the actors involved in the building life-cycle behaving as a common working platform. Draws, 3D model and database are shared by all the actors and integrated in the same digital structure, where control tools and cooperation can prevent the designers from errors, saving time and money in the construction phase. The particularity of the case study, Palazzo di Città, being contemporarily a CH, a public asset and a working space, allows a deep study of the possibilities of BIM applied to a complex building, touching very important aspects of a historic building management: digitization of the historic information, publication of modeling techniques of complex architectonical elements, transformations reconstruction, energy consumption control, Facility Management, dissemination, virtual reconstructions of the lost appearance and accessibility for people with sensory and motor impairments. Moreover, the last chapters of the study focus on the fruition of this paramount Turin CH, making available for all kind of people interesting and not well known aspects of the history of the building and of the city itself. This part of the research suggests a methodology to translate static 2d images and written descriptions of a CH into living and immersive VR environment, presenting in an interactive way the transformation of the Marble Hall, once called Aula Maior: the room where the Mayor meets his citizens. Besides the aspects related to the valorization and preservation of the CH, the study reserves considerable space to the deepening of technical aspects involving advanced parametric modeling techniques, use of BIM software and all the vital procedures necessary to the generation of an efficient management informative platform. The whole work is intended as a guide for future works, structuring a replicable protocol to achieve an efficient digitization of papery resources into a 3d virtual model

Applications of Additive Manufacturing for Norwegian Oil and Gas Industries

The additive manufacturing or 3D printing (3DP) technologies have undergone exponential expansion, particularly in the previous couple of decades. Additive manufacturing technologies have paved the way for easy component manufacturing in large-scale and high-performance businesses. The introduction of desktop 3D printers has established 3DP as a reliable technique for generating prototypes and direct parts from CAD files. This technology is employed in an industrial setting for a range of purposes, including the invention and manufacture of customized and task-specific tools. This thesis looks at the benefits and drawbacks of deploying a 3D printer on an offshore facility to encourage on-site part manufacture, save operating costs, and reduce downtime. The thesis proposes ways for speeding and simplifying the creation of customized products. The approaches utilized were aimed to discover flaws and opportunities in offshore platforms' 3D printing processes. It also includes a comparative examination of production procedures, which will aid in decision-making. Furthermore, the technical structure of the proposed method would outline a path for developing prototype designs and tools to address identified difficulties. The proposed ideas and produced technologies could have a positive impact on the oil and gas industries' operations. The thesis also goes over the equipment needed for post-processing printed parts, as well as their availability on offshore platforms. The reliability issues associated with 3D printed parts are also addressed, which will improve RAMS analysis of printed parts

Technology enablers for the implementation of Industry 4.0 to traditional manufacturing sectors: A review

The traditional manufacturing sectors (footwear, textiles and clothing, furniture and toys, among others) are based on small and medium enterprises with limited capacity on investing in modern production technologies. Although these sectors rely heavily on product customization and short manufacturing cycles, they are still not able to take full advantage of the fourth industrial revolution. Industry 4.0 surfaced to address the current challenges of shorter product life-cycles, highly customized products and stiff global competition. The new manufacturing paradigm supports the development of modular factory structures within a computerized Internet of Things environment. With Industry 4.0, rigid planning and production processes can be revolutionized. However, the computerization of manufacturing has a high degree of complexity and its implementation tends to be expensive, which goes against the reality of SMEs that power the traditional sectors. This paper reviews the main scientific-technological advances that have been developed in recent years in traditional sectors with the aim of facilitating the transition to the new industry standard.This research was supported by the Spanish Research Agency (AEI) and the European Regional Development Fund (ERDF) under the project CloudDriver4Industry TIN2017-89266-R

KINE[SIS]TEM'17 From Nature to Architectural Matter

Kine[SiS]tem – From Kinesis + System. Kinesis is a non-linear movement or activity of an organism in response to a stimulus. A system is a set of interacting and interdependent agents forming a complex whole, delineated by its spatial and temporal boundaries, influenced by its environment. How can architectural systems moderate the external environment to enhance comfort conditions in a simple, sustainable and smart way? This is the starting question for the Kine[SiS]tem’17 – From Nature to Architectural Matter International Conference. For decades, architectural design was developed despite (and not with) the climate, based on mechanical heating and cooling. Today, the argument for net zero energy buildings needs very effective strategies to reduce energy requirements. The challenge ahead requires design processes that are built upon consolidated knowledge, make use of advanced technologies and are inspired by nature. These design processes should lead to responsive smart systems that deliver the best performance in each specific design scenario. To control solar radiation is one key factor in low-energy thermal comfort. Computational-controlled sensor-based kinetic surfaces are one of the possible answers to control solar energy in an effective way, within the scope of contradictory objectives throughout the year.FC

Evolutionary design assistants for architecture

In its parallel pursuit of an increased competitivity for design offices and more pleasurable and easier workflows for designers, artificial design intelligence is a technical, intellectual, and political challenge. While human-machine cooperation has become commonplace through Computer Aided Design (CAD) tools, a more improved collaboration and better support appear possible only through an endeavor into a kind of artificial design intelligence, which is more sensitive to the human perception of affairs. Considered as part of the broader Computational Design studies, the research program of this quest can be called Artificial / Autonomous / Automated Design (AD). The current available level of Artificial Intelligence (AI) for design is limited and a viable aim for current AD would be to develop design assistants that are capable of producing drafts for various design tasks. Thus, the overall aim of this thesis is the development of approaches, techniques, and tools towards artificial design assistants that offer a capability for generating drafts for sub-tasks within design processes. The main technology explored for this aim is Evolutionary Computation (EC), and the target design domain is architecture. The two connected research questions of the study concern, first, the investigation of the ways to develop an architectural design assistant, and secondly, the utilization of EC for the development of such assistants. While developing approaches, techniques, and computational tools for such an assistant, the study also carries out a broad theoretical investigation into the main problems, challenges, and requirements towards such assistants on a rather overall level. Therefore, the research is shaped as a parallel investigation of three main threads interwoven along several levels, moving from a more general level to specific applications. The three research threads comprise, first, theoretical discussions and speculations with regard to both existing literature and the proposals and applications of the thesis; secondly, proposals for descriptive and prescriptive models, mappings, summary illustrations, task structures, decomposition schemes, and integratory frameworks; and finally, experimental applications of these proposals. This tripartite progression allows an evaluation of each proposal both conceptually and practically; thereby, enabling a progressive improvement of the understanding regarding the research question, while producing concrete outputs on the way. Besides theoretical and interpretative examinations, the thesis investigates its subject through a set of practical and speculative proposals, which function as both research instruments and the outputs of the study. The first main output of the study is the “design_proxy” approach (d_p), which is an integrated approach for draft making design assistants. It is an outcome of both theoretical examinations and experimental applications, and proposes an integration of, (1) flexible and relaxed task definitions and representations (instead of strict formalisms), (2) intuitive interfaces that make use of usual design media, (3) evaluation of solution proposals through their similarity to given examples, and (4) a dynamic evolutionary approach for solution generation. The design_proxy approach may be useful for AD researchers that aim at developing practical design assistants, as has been examined and demonstrated with the two applications, i.e., design_proxy.graphics and design_proxy.layout. The second main output, the “Interleaved Evolutionary Algorithm” (IEA, or Interleaved EA) is a novel evolutionary algorithm proposed and used as the underlying generative mechanism of design_proxybased design assistants. The Interleaved EA is a dynamic, adaptive, and multi-objective EA, in which one of the objectives leads the evolution until its fitness progression stagnates; in the sense that the settings and fitness values of this objective is used for most evolutionary decisions. In this way, the Interleaved EA enables the use of different settings and operators for each of the objectives within an overall task, which would be the same for all objectives in a regular multi-objective EA. This property gives the algorithm a modular structure, which offers an improvable method for the utilization of domain-specific knowledge for each sub-task, i.e., objective. The Interleaved EA can be used by Evolutionary Computation (EC) researchers and by practitioners who employ EC for their tasks. As a third main output, the “Architectural Stem Cells Framework” is a conceptual framework for architectural design assistants. It proposes a dynamic and multi-layered method for combining a set of design assistants for larger tasks in architectural design. The first component of the framework is a layer-based, parallel task decomposition approach, which aims at obtaining a dynamic parallelization of sub-tasks within a more complicated problem. The second component of the framework is a conception for the development mechanisms for building drafts, i.e., Architectural Stem Cells (ASC). An ASC can be conceived as a semantically marked geometric structure, which contains the information that specifies the possibilities and constraints for how an abstract building may develop from an undetailed stage to a fully developed building draft. ASCs are required for re-integrating the separated task layers of an architectural problem through solution-based development. The ASC Framework brings together many of the ideas of this thesis for a practical research agenda and it is presented to the AD researchers in architecture. Finally, the “design_proxy.layout” (d_p.layout) is an architectural layout design assistant based on the design_proxy approach and the IEA. The system uses a relaxed problem definition (producing draft layouts) and a flexible layout representation that permits the overlapping of design units and boundaries. User interaction with the system is carried out through intuitive 2D graphics and the functional evaluations are performed by measuring the similarity of a proposal to existing layouts. Functioning in an integrated manner, these properties make the system a practicable and enjoying design assistant, which was demonstrated through two workshop cases. The d_p.layout is a versatile and robust layout design assistant that can be used by architects in their design processes