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Item 29Si chemical shift anisotropies in hydrated calcium silicates: A computational study(2013-04-25) Rejmak, Pawel; Dolado, Jorge S.; Stott, Malcolm J.; Ayuela, Andrés; Tecnalia Research & InnovationThe 29Si chemical shift anisotropies are investigated for calcium silicate hydrates. The focus is on the naturally occurring minerals, jennite and 14 Å tobermorite and models derived from them to simulate calcium-silicate-hydrate gel, the main component of Portland cement. Our theoretical results show that the analysis of anisotropy and asymmetry of the 29Si chemical shift discriminates between different Si types, even if their isotropic chemical shifts are similar. Terminal and pairing silica tetrahedra are clearly distinguished and the chemical shift anisotropies set apart the Si tetrahedra that are hydroxylated. The chemical shift anisotropy measurements, although more challenging than the usual isotropic chemical shift experiments, could greatly improve our knowledge of not only cement materials, but silicate hydrates, in general.Item 29Si NMR in cement: A theoretical study on calcium silicate hydrates(2012-05-03) Rejmak, Pawel; Dolado, Jorge S.; Stott, Malcolm J.; Ayuela, Andrés; Tecnalia Research & InnovationThe NMR spectra of 29Si in cement-based materials are studied through calculations of the isotropic shielding of silicon atoms within the density functional theory. We focus on the main component of cement, the calcium-silicate-hydrate gel, using widely accepted models based on the observed structures of jennite and tobermorite minerals. The results show that the 29Si chemical shifts are dependent not only on the degree of condensation of the (SiO 4) units, as commonly assumed, but also on the local arrangement of the charge compensating H and Ca cations. We find that the NMR spectra for models of the calcium-silicate-hydrate gel based on tobermorite are in better agreement with experiment than those for jennite-based models.Item (2N+1) Selective Harmonic Elimination-PWM for Modular Multilevel Converters: A Generalized Formulation and A Circulating Current Control Method(2018-01) Pérez-Basante, Angel; Ceballos, Salvador; Konstantinou, Georgios; Pou, Josep; Andreu, Jon; De Alegría, Iñigo Martínez; POWER ELECTRONICS AND SYSTEM EQUIPMENTThe performance of modular multilevel converters (MMCs) in medium-voltage applications, where the number of required submodules is not high, can be improved utilizing low switching frequency modulations such as (2N+1) selective harmonic elimination-pulse width modulation (SHE-PWM), which provides tight control of lower order harmonics and low switching losses. This paper proposes a calculation method, which is based on a novel formulation, to solve the SHE-PWM problem. In particular, MMCs with (2N+1) phase output voltage levels are considered, obtaining a (2N+1) SHE-PWM waveform. This method utilizes a unique system of equations that is valid for any possible waveform. Therefore, it is able to calculate simultaneously, without predefined waveforms, both the switching patterns and the associated firing angles that solve the (2N+1) SHE-PWM problem. Consequently, the search process is simplified and optimized. Furthermore, this paper also proposes a circulating current control technique, which can be applied along with (2N+1) SHE-PWM without disturbing the phase output voltage. Simulation results and experimental tests obtained with a single-phase laboratory prototype prove the validity of the novel (2N+1) SHE-PWM implementation method and the proposed circulating current control technique.Item 3-Hydroxy-3-methylglutaryl coenzyme a reductase inhibitors decrease Fas ligand expression and cytotoxicity in activated human T lymphocytes(2003-09-23) Blanco-Colio, Luis Miguel; Muñoz-García, Begoña; Martín-Ventura, Jose Luis; Lorz, Corina; Díaz, Cristina; Hernández, Gonzalo; Egido, Jesús; Centros PRE-FUSION TECNALIA - (FORMER)Background-HMG-CoA reductase inhibitors reduce cardiovascular mortality, although the mechanisms of action have not been completely elucidated. The presence of T cells and apoptotic cells in atherosclerotic plaques is well established, the reduction of cellular content being a marker of their vulnerability. One of the main mechanisms of cell death activation is the Fas-Fas ligand (FasL) system. Methods and Results-We studied whether HMG-CoA reductase inhibitors can regulate FasL expression and cytotoxicity in human T cells (Jurkat cells). Activation of Jurkat cells with phorbol esters and ionomycin increased FasL expression, an effect prevented by atorvastatin or simvastatin. Mevalonate and geranylgeranylpyrophosphate but not farnesylpyrophosphate prevented the effect of atorvastatin, indicating that protein geranylation was involved in FasL expression. The C3 exotoxin, which selectively inactivates Rho proteins, also decreased FasL expression on T cells. Overexpression of constitutively active RhoA increased FasL expression in Jurkat cells, and dominant-negative RhoA decreased FasL expression in activated cells, indicating that RhoA is implicated in FasL expression. Atorvastatin also decreased cytotoxic activity of activated Jurkat cells on FasL-sensitive cells. Finally, atorvastatin treatment reduced FasL expression in peripheral blood mononuclear cells and human carotid atherosclerotic plaques. Conclusions-Atorvastatin regulates FasL expression in T cells, probably because of the inhibition of RhoA prenylation. These results provide novel information by which atorvastatin may regulate the cytotoxic activity of T cells and the number of cells in the atherosclerotic plaque.Item 3D Active Surfaces for Liver Segmentation in Multisequence MRI Images(2016-08-01) Bereciartua, Arantza; Picon, Artzai; Galdran, Adrian; Iriondo, Pedro M.; COMPUTER_VISION; Tecnalia Research & InnovationBiopsies for diagnosis can sometimes be replaced by non-invasive techniques such as CT and MRI. Surgeons require accurate and efficient methods that allow proper segmentation of the organs in order to ensure the most reliable intervention planning. Automated liver segmentation is a difficult and open problem where CT has been more widely explored than MRI. MRI liver segmentation represents a challenge due to the presence of characteristic artifacts, such as partial volumes, noise and low contrast. In this paper, we present a novel method for multichannel MRI automatic liver segmentation. The proposed method consists of the minimization of a 3D active surface by means of the dual approach to the variational formulation of the underlying problem. This active surface evolves over a probability map that is based on a new compact descriptor comprising spatial and multisequence information which is further modeled by means of a liver statistical model. This proposed 3D active surface approach naturally integrates volumetric regularization in the statistical model. The advantages of the compact visual descriptor together with the proposed approach result in a fast and accurate 3D segmentation method. The method was tested on 18 healthy liver studies and results were compared to a gold standard made by expert radiologists. Comparisons with other state-of-the-art approaches are provided by means of nine well established quality metrics. The obtained results improve these methodologies, achieving a Dice Similarity Coefficient of 98.59.Item 3D additive manufactured composite scaffolds with antibiotic-loaded lamellar fillers for bone infection prevention and tissue regeneration(2021-04) Cámara-Torres, María; Duarte, Stacy; Sinha, Ravi; Egizabal, Ainhoa; Álvarez, Noelia; Bastianini, Maria; Sisani, Michele; Scopece, Paolo; Scatto, Marco; Bonetto, Alessandro; Marcomini, Antonio; Sanchez, Alberto; Patelli, Alessandro; Mota, Carlos; Moroni, Lorenzo; Biomateriales; ECOEFICIENCIA DE PRODUCTOS DE CONSTRUCCIÓNBone infections following open bone fracture or implant surgery remain a challenge in the orthopedics field. In order to avoid high doses of systemic drug administration, optimized local antibiotic release from scaffolds is required. 3D additive manufactured (AM) scaffolds made with biodegradable polymers are ideal to support bone healing in non-union scenarios and can be given antimicrobial properties by the incorporation of antibiotics. In this study, ciprofloxacin and gentamicin intercalated in the interlamellar spaces of magnesium aluminum layered double hydroxides (MgAl) and α-zirconium phosphates (ZrP), respectively, are dispersed within a thermoplastic polymer by melt compounding and subsequently processed via high temperature melt extrusion AM (~190 °C) into 3D scaffolds. The inorganic fillers enable a sustained antibiotics release through the polymer matrix, controlled by antibiotics counterions exchange or pH conditions. Importantly, both antibiotics retain their functionality after the manufacturing process at high temperatures, as verified by their activity against both Gram + and Gram - bacterial strains. Moreover, scaffolds loaded with filler-antibiotic do not impair human mesenchymal stromal cells osteogenic differentiation, allowing matrix mineralization and the expression of relevant osteogenic markers. Overall, these results suggest the possibility of fabricating dual functionality 3D scaffolds via high temperature melt extrusion for bone regeneration and infection prevention.Item 3D cell cultures as prospective models to study extracellular vesicles in cancer(2021-01-15) Bordanaba-Florit, Guillermo; Madarieta, Iratxe; Olalde, Beatriz; Falcón-Pérez, Juan M.; Royo, Félix; BiomaterialesThe improvement of culturing techniques to model the environment and physiological conditions surrounding tumors has also been applied to the study of extracellular vesicles (EVs) in cancer research. EVs role is not only limited to cell-to-cell communication in tumor physiology, they are also a promising source of biomarkers, and a tool to deliver drugs and induce antitumoral activity. In the present review, we have addressed the improvements achieved by using 3D culture models to evaluate the role of EVs in tumor progression and the potential applications of EVs in diagnostics and therapeutics. The most employed assays are gel-based spheroids, often utilized to examine the cell invasion rate and angiogenesis markers upon EVs treatment. To study EVs as drug carriers, a more complex multicellular cultures and organoids from cancer stem cell populations have been developed. Such strategies provide a closer response to in vivo physiology observed responses. They are also the best models to understand the complex interactions between different populations of cells and the extracellular matrix, in which tumor-derived EVs modify epithelial or mesenchymal cells to become protumor agents. Finally, the growth of cells in 3D bioreactor-like systems is appointed as the best approach to industrial EVs production, a necessary step toward clinical translation of EVs-based therapy.Item 3D computational simulation of calcium leaching in cement matrices(2014-10-01) Gaitero, J. J.; Dolado, J. S.; Neuen, C.; Heber, F.; Koenders, E. A.B.; Tecnalia Research & Innovation; ECOEFICIENCIA DE PRODUCTOS DE CONSTRUCCIÓNCalcium leaching is a degradation process consisting in progressive dissolution of the cement paste by migration of calcium atoms to the aggressive solution. It is therefore, a complex phenomenon involving several phases and dissolution and diffusion processes simultaneously. Along this work, a new computational scheme for the simulation of the degradation process in three dimensions was developed and tested. The toolkit was used to simulate accelerated calcium leaching by a 6M ammonium nitrate solution in cement matrices. The obtained outputs were the three dimensional representation of the matrix and the physicochemical properties of individual phases as a consequence of the degradation process. This not only makes it possible to study the evolution of such properties as a function of time but also as a function of the position within the matrix. The obtained results are in good agreement with experimental values of the elastic modulus in degraded and undegraded samples.Item 3D convolutional neural networks initialized from pretrained 2D convolutional neural networks for classification of industrial parts(2021-02-04) Merino, Ibon; Azpiazu, Jon; Remazeilles, Anthony; Sierra, Basilio; ROBOTICA_FLEX; Medical TechnologiesDeep learning methods have been successfully applied to image processing, mainly using 2D vision sensors. Recently, the rise of depth cameras and other similar 3D sensors has opened the field for new perception techniques. Nevertheless, 3D convolutional neural networks perform slightly worse than other 3D deep learning methods, and even worse than their 2D version. In this paper, we propose to improve 3D deep learning results by transferring the pretrained weights learned in 2D networks to their corresponding 3D version. Using an industrial object recognition context, we have analyzed different combinations of 3D convolutional networks (VGG16, ResNet, Inception ResNet, and EfficientNet), comparing the recognition accuracy. The highest accuracy is obtained with EfficientNetB0 using extrusion with an accuracy of 0.9217, which gives comparable results to state-of-the art methods. We also observed that the transfer approach enabled to improve the accuracy of the Inception ResNet 3D version up to 18% with respect to the score of the 3D approach alone.Item 3D numerical simulation of slope-flexible system interaction using a mixed FEM-SPH model(2021) Jimenez Fernandez, Jose Carlos; Castanon-Jano, Laura; Gaute Alonso, Alvaro; Blanco-Fernandez, Elena; Gonzalez Fernandez, Juan Carlos; Centeno Gonzalez, Victor; Castro-Fresno, Daniel; Garcia-Sanchez, David; Tecnalia Research & Innovation; E&I SEGURAS Y RESILIENTESFlexible membranes are light structures anchored to the ground that protect infrastructures or dwellings from rock or soil sliding. One alternative to design these structures is by using numerical simulations. However, very few models were found until date and most of them are in 2D and do not include all their components. This paper presents the development of a numerical model combining Finite Element Modelling (FEM) with Smooth Particle Hydrodynamics (SPH) formulation. Both cylindrical and spherical failure of the slope were simulated. One reference geometry of the slope was designed and a total of 21 slip circles were calculated considering different soil parameters, phreatic level position and drainage solutions. Four case studies were extracted from these scenarios and simulated using different dimensions of the components of the system. As a validation model, an experimental test that imitates the soil detachment and its retention by the steel membrane was successfully reproduced.Item 3D printing effect on the compressive strength of concrete structures(2022-11-07) Aramburu, A.; Calderon-Uriszar-Aldaca, I.; Puente, I.; ECOEFICIENCIA DE PRODUCTOS DE CONSTRUCCIÓN; Tecnalia Research & InnovationThe mechanical behaviour of annular 3D-printed cylindrical specimens is studied in this paper and compared to the expected theoretical behaviour of cast-moulded geometries. First, the compressive performance of the material as per standard EN 12390-3 is presented. The theoretical estimation differed from the test results and the reasons have been verified. Two key procedures are proposed by measuring the 3D-printed shapes: a geometrical characterization, in which both the material and the process parameters are considered, and a suitable formulation for defining the effective section of the printed geometries. The aim is to establish corrections for structural calculations, considering the material and the 3D printing process on the basis of the proposed guidelines and the test specimens.Item A 4-dimensional model and combined methodological approach to inclusive Urban planning and design for ALL(2019-01) Rebernik, Nataša; Goličnik Marušić, Barbara; Bahillo, Alfonso; Osaba, Eneko; QuantumDue to the emerging complexity of cities, this paper argues for a holistic, integrative and relational approach to more inclusive city planning and design to fit the needs of citizens with diverse impairments. It proposes and tests a new theoretical model called the combined methodological approach (CMA). The backbone of this model is an often-overlooked qualitative, bottom-up-driven, slow, small and deep-data-oriented ethnographic research, combined with components or phases of post-occupancy evaluation and behavioural mapping as two user-oriented techniques for assessing usage-space relationships. The paper is rather theoretical, as it focuses on the argumentation of different approaches in city planning, design and governance. However, tests of the proposed model were conducted in public open spaces of four pilot cases in two European cities (Maribor and Ljubljana, in Slovenia). The proposed CMA was tested against its applicability to real urban environments. The results, in accordance with the methodology used, showed that such a combination of often closely related, overlapping and complementary techniques can significantly enhance the understanding of complex relations and interactions between people, space and technology within the city. Hence, it can empower stakeholders towards more informative and responsive measures – and, finally, more inclusive, individualized, tailor-made cities.Item 6th Advanced International Conference on Telecommunications, AICT 2010: Preface(2010) Atmaca, Tulin; Domingo-Pascua, Jordi; Jain, Manish; Rolin, Pierre; Stasiak, Maciej; Tsiatsos, Thrasyvoulos; Borcoci, Eugen; Geraci, Paul J.; Logothetis, Michael D.; Semenov, Sergei; Nafkha, Amor; Marot, Michel; Dini, Petre; Herwig, Mannaert; Palicot, Jacques; Collange, Denis; Goeman, Katie; Del Ser Lorente, Javier; IAItem A1–A5 Embodied Carbon Assessment to Evaluate Bio-Based Components in Façade System Modules(2024-02) Morganti, Luca; Vandi, Laura; Astudillo Larraz, Julen; García-Jaca, Javier; Navarro Muedra, Arsenio; Pracucci, Alessandro; ECOEFICIENCIA DE PRODUCTOS DE CONSTRUCCIÓNAs the construction industry moves toward sustainable building practices, incorporating wood-based materials into building envelope systems has become a priority. This paper investigates the environmental impact of three custom bio-composite Façade System Modules (FSMs) through an Embodied Carbon Assessment (ECA), focused on the Global Warming Potential indicator of life cycle stages from cradle to practical completion (A1–A5). The evaluated FSMs were developed within the Basajaun H2020 project (G.A. 862942), by substituting and combining conventional materials with other bio-composite products to form hybrids from bio-based polymers and wood. A benchmark ECA was conducted, simulating alternative FSMs devised with common practice solutions for the curtain wall façade to facilitate a comprehensive comparison. The life cycle inventory encompassed detailed technical information, fostering the utilization of primary data for accuracy. The study particularly highlights considerations over three technological systems of the modules that incorporate increased use of wood-based components and a novel bio-composite material: the frame profiles, the insulation equipment, and the seal system. Despite the challenges due to the Basajaun FSMs’ weight, the findings reveal that replacing the currently used materials with wood-based materials and bio-composites reduced the embodied emissions, particularly substituting aluminum frame profiles. The insights presented here offer indicators toward circular, environmentally conscious, bio-composed building envelopes, emphasizing the need for continued analysis and refinements as a consequence of increasing the accuracy of the available primary data from the supply chain and concerning end-of-life scenarios.Item AAL summit 2012: The basque country declaration(2013) Rivera, Olga; Sancho, Francesc; Sánchez, Miguel; McCormick, Andrew; van Berlo, Ad; Barrios, Ángeles; Benito, Javier; Yanguas, Javier; Sebastiśn, Iñaki San; Tecnalia Research & InnovationAt the AAL (Ambient Assisted Living) Summit of Bilbao (Spain), June 27-29, 2012, participants agreed to a declaration to support market and policy development for the aging society. The declaration is meant to open new avenues to fill the gap between health and welfare demands and effective ICT solutions. It addresses stakeholders such as users, academia, technological centres, industry, and health and social care systems. The declaration was signed by a number of representatives of both governmental agents and commercial firms.Item AC Magnetron Sputtering: An Industrial Approach for High-Voltage and High-Performance Thin-Film Cathodes for Li-Ion Batteries(2021-05-21) Rikarte, Jokin; Madinabeitia, Iñaki; Baraldi, Giorgio; Fernández-Carretero, Francisco José; Bellido-González, Víctor; García-Luis, Alberto; Muñoz-Márquez, Miguel Ángel; Fernández‐Carretero, Francisco José; Bellido‐González, Víctor; García‐Luis, Alberto; Muñoz‐Márquez, Miguel Ángel; TECNOLOGÍAS DE HIDRÓGENOIndustrial-oriented mid-frequency alternating current (MF-AC) magnetron sputtering technique is used to fabricate LiNi0.5Mn1.5O4 high-voltage thin-film cathodes. Films are deposited on bare stainless-steel substrate at room temperature and then annealed to induce crystallization in disordered spinel phase. In situ X-ray diffraction is used to follow film structural evolution from room temperature to 900 °C. Scanning electron microscopy, X-ray photoelectron spectroscopy, and Raman spectroscopy are used to study the evolution with temperature of film morphology, surface chemical composition, and crystal structure arrangement, respectively. Film structure evolves almost continuously in the studied temperature range. A pattern corresponding to spinel phase is observed after annealing at 600 °C, while poor crystallization is obtained for lower temperatures, and additional unwanted phase changes are observed for higher temperatures. Cyclic voltammetry, rate capability, and cycling performance of fabricated films are tested. Only the film annealed at 600 °C shows redox peaks corresponding to Ni oxidation from 2+ to 3+ and 3+ to 4+ oxidation states, confirming that this film crystallizes in disordered spinel phase. The thin-film cathode shows good rate performance and outstanding cyclability, despite the impurities formed upon electrolyte decomposition at high voltage.Item Accelerated second-order hydrodynamic load calculation on semi-submersible floaters(2023-07) Alonso Reig, Maria; Pegalajar-Jurado, Antonio; Mendikoa, Iñigo; Petuya, Victor; Bredmose, Henrik; RENOVABLES OFFSHOREA rapid method for calculation of second-order hydrodynamic wave loads on semi-submersible platforms is developed and validated against radiation–diffraction theory. The method is based on slender-body theory and builds on modal truncation of the quadratic transfer function (QTF). The semi-submersible floater is split into individual members and the existing theory for vertical cylindrical columns is extended to include the heave force. Further expressions for the surge, heave and pitch load on the horizontal pontoons are derived and implemented. The accuracy of the method is assessed by comparison to radiation–diffraction results using the Pinkster approximation. We find that the slender-body approximation for the column surge force is most accurate for small values of the diameter-to-draft ratio. For the three sea states considered, this error is below 10% for diameter-to-draft ratios less than 0.2. Error analysis is provided for the column heave and pitch and the pontoon loads. For all members, application of 128 modes in the QTF approximation is found sufficient to accurately represent the full slender-body QTF solution. Next, the first- and second-order loads on the full floater under different sea state conditions are compared to radiation–diffraction theory. With 128 modes, the second-order loads are obtained 2500 times faster than with conventional approaches with error levels of 22% for surge, 10% for pitch and zero error for heave. The surge error is discussed and linked to the small draft of the columns. The numerical efficiency of the method allows the consideration of second-order loads in the first stages of the design and optimisation of semi-submersible floaters.Item Accelerating sustainable and economic development via industrial energy cooperation and shared services – A case study for three European countries(2022-01) Mainar-Toledo, M. D.; Castan, M. A.; Millán, G.; Rodin, V.; Kollmann, A.; Peccianti, F.; Annunziata, E.; Rizzi, F.; Frey, M.; Iannone, F.; Zaldua, M.; Kuittinen, H.; Policies for Innovation and TechnologyThe European industry sector is responsible for about one-third of the EU's total energy consumption and process-related Greenhouse Gas emissions, which makes it a central factor in the EU's climate and energy strategies. Energy cooperation, i.e., the mutualised generation, use and/or acquisition of energy by at least two companies, has the potential of significantly supporting the successful achievement of these strategies. This paper presents a concept for moving from a single-company sustainable energy intervention approach to cooperative sustainable energy solutions within the framework of industrial parks. Technical, economic, regulatory, organizational, and social barriers for energy-efficient park design and operation on all levels and instruments to overcome them have been systematically analysed, taking correlation of solutions, and park-specific requirements into account, thus providing a holistic workflow. First results show that technical and economic attractiveness, and an enabling legal and policy context, are not always enough. For promising energy cooperation solutions to flourish, cultural, organizational, social, and behavioural factors also play a significant role. Furthermore, findings show that external facilitators are helpful to pool efforts to achieve greater engagement.Item Accessible Ubiquitous Services for Supporting Daily Activities: A Case Study with Young Adults with Intellectual Disabilities(2018-12-28) Aizpurua, Amaia; Miñón, Raúl; Gamecho, Borja; Cearreta, Idoia; Arrue, Myriam; Garay-Vitoria, Nestor; HPAUbiquitous environments have considerable potential to provide services supporting daily activities (using public transportation to and from workplace, using ATM machines, selecting and purchasing goods in ticketing or vending machines, etc.) in order to assist people with disabilities. Nevertheless, the ubiquitous service providers generally supply generic user interfaces which are not usually accessible for all potential end users. In this article, a case study to verify the adequacy of the user interfaces automatically generated by the Egoki system for two supporting ubiquitous services adapted to young adults with moderate intellectual disabilities was presented. The task completion times and the level of assistance required by participants when using the interfaces were analyzed. Participants were able to access services through a tablet and successfully complete the tasks, regardless of their level of expertise and familiarity with the service. Moreover, results indicate that their performance and confidence improved with practice, as they required fewer direct verbal and pointer cues to accomplish tasks. By applying observational methods during the experimental sessions, several potential improvements for the automated interface generation process were also detected.Item Accuracy and Surface Quality Improvements in the Manufacturing of Ti-6Al-4V Parts Using Hot Single Point Incremental Forming(2019-06) Ortiz, Mikel; Penalva, Mariluz; Iriondo, Edurne; López de Lacalle, Luis Norberto; FABRIC_INTELThe present work focuses on the manufacturing of Ti-6Al-4V parts using hot single point incremental forming (SPIF), a non-conventional forming technology mainly oriented toward the fabrication of prototypes, spare parts, or very low volume series. In the used procedure, the entire sheet is heated and kept at uniform temperature while the tool incrementally forms the part, with the limited accuracy of the obtained parts being the major drawback of the process. Thus, this work proposes two approaches to improve the geometric accuracy of Ti-6Al-4V SPIF parts: (i) correct the tool path by applying an intelligent process model (IPM) that counteracts deviations associated with the springback, and (ii) skip overforming deviations associated with the deflection of the sheet along the perimeter of the part based on a design improvement. For this purpose, a generic asymmetric design that incorporates features of a typical aerospace Ti-6Al-4V part is used. The results point out the potential of both solutions to significantly improve the accuracy of the parts. The application of the IPM model leads to an accuracy improvement up to 49%, whereas a 25.4% improvement can be attributed to the addendum introduction. The geometric accuracy study includes the two finishing operations needed to obtain the part, namely decontamination and trimming.