“…Figure 7: Schematic representation based on the method proposed by Vandevenne [37,38]. The mapping between product aspects and organism aspects links the problem description with relevant biological articles [14].…”
Section: Systematically Matching Biological Principles To a Given Problemmentioning
confidence: 99%
“…Starting from the biological knowledge captured in biological articles, Vandevenne et al proposed the strategy illustrated in Figure 7 [37,38]. Latent semantic analysis reveals the set of aspects that are recurring throughout biological literature.…”
Section: Systematically Matching Biological Principles To a Given Problemmentioning
confidence: 99%
“…For example, in the biology literature the organism aspect related to flying might capture vocabulary related to flying and gliding as well as vocabulary related to wings. A very similar approach has been applied to patents, yielding so-called product aspects [38]. These aspects capture the functionality in terms of the vocabulary used in their respective domains.…”
Section: Systematically Matching Biological Principles To a Given Problemmentioning
The paper explores and presents results of an investigation handling design methodologies using the bio-space and biological phenomena combined with the technical space for the development, design and application of products, machine tools, processes and manufacturing systems carried out by a multinational team including Fraunhofer and CIRP fellows. The main biological approach for designing was bio-inspiration. However, links and examples implementing bio-integration and bio-intelligence were also considered and analyzed during the investigation.The paper describes a systematic design procedure starting from requirements and applications related to manufacturing, using well-known theories and experience in engineering, however analyzing and applying biological materials, properties, structures, phenomena and complete systems. Sustainability aspects combined with the immense and ever growing capacity of ICT and digitization possibilities provided new options for design methodologies.A moveable and flexible machine tool was virtually used as a demonstrator to describe the new methodology. It was proved that the o ngoing process of learning from nature and applying biological phenomena, structures and materials, together with new technologies such as Additive Manufacturing (AM) can develop new ideas, processes, manufacturing systems, and products with benefits to performance, productivity, efficiency and sustainability. Nature and biological domains can be integrated, can inspire, be implemented or even applied as an intelligent system in the design procedure.
“…Figure 7: Schematic representation based on the method proposed by Vandevenne [37,38]. The mapping between product aspects and organism aspects links the problem description with relevant biological articles [14].…”
Section: Systematically Matching Biological Principles To a Given Problemmentioning
confidence: 99%
“…Starting from the biological knowledge captured in biological articles, Vandevenne et al proposed the strategy illustrated in Figure 7 [37,38]. Latent semantic analysis reveals the set of aspects that are recurring throughout biological literature.…”
Section: Systematically Matching Biological Principles To a Given Problemmentioning
confidence: 99%
“…For example, in the biology literature the organism aspect related to flying might capture vocabulary related to flying and gliding as well as vocabulary related to wings. A very similar approach has been applied to patents, yielding so-called product aspects [38]. These aspects capture the functionality in terms of the vocabulary used in their respective domains.…”
Section: Systematically Matching Biological Principles To a Given Problemmentioning
The paper explores and presents results of an investigation handling design methodologies using the bio-space and biological phenomena combined with the technical space for the development, design and application of products, machine tools, processes and manufacturing systems carried out by a multinational team including Fraunhofer and CIRP fellows. The main biological approach for designing was bio-inspiration. However, links and examples implementing bio-integration and bio-intelligence were also considered and analyzed during the investigation.The paper describes a systematic design procedure starting from requirements and applications related to manufacturing, using well-known theories and experience in engineering, however analyzing and applying biological materials, properties, structures, phenomena and complete systems. Sustainability aspects combined with the immense and ever growing capacity of ICT and digitization possibilities provided new options for design methodologies.A moveable and flexible machine tool was virtually used as a demonstrator to describe the new methodology. It was proved that the o ngoing process of learning from nature and applying biological phenomena, structures and materials, together with new technologies such as Additive Manufacturing (AM) can develop new ideas, processes, manufacturing systems, and products with benefits to performance, productivity, efficiency and sustainability. Nature and biological domains can be integrated, can inspire, be implemented or even applied as an intelligent system in the design procedure.
“…Starting from the biological knowledge captured in biological articles, Vandevenne et al proposed the strategy illustrated in Fig. 7 [37,38]. Latent semantic analysis reveals the set of aspects that are recurring throughout biological literature.…”
Section: Systematically Matching Biological Principles To a Given Pro...mentioning
confidence: 99%
“…7. Schematic representation based on the method proposed by Vandevenne [37,38]. The mapping between product aspects and organism aspects links the problem description with relevant biological articles [14].…”
Section: Systematic Investigation Of Biological Principles To Comply ...mentioning
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