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. Please see Debugging in WordPress for more information. (This message was added in version 4.5.0.) in /var/www/html/wordpress/wp-includes/functions.php on line 5665The Basque Center for Applied Mathematics – BCAM and Lantek, have reached and agreement that focuses on developing new models of applied mathematics and, algorithms that will enable metal forming industries to reach high levels of efficiency in their calculations. The cases that are now appearing in industry have increased in complexity which makes it necessary to resolve more situations where the calculation of the machining and the optimization of the consumption of material is exceedingly complicated when endeavoring to achieve maximum machine efficiency.
As a starting point, the collaboration framework aims to explore new avenues for approaching parts nesting. In the industrial world, the aim of the nesting process is to make maximum use of the material, configuring and arranging the pieces of sheet metal that are to be cut in an optimum way so as to avoid material wastage while optimizing the machine’s cutting time. Since its creation, Lantek’s objective has been to achieve excellence in software engineering, developing products and applying knowledge of mathematical models to provide better solutions for the sheet metal and fabrication industry. In line with objective, one of its main research areas has been aimed at finding, in the shortest time possible, the optimum layout for 2D parts in a large rectangular sheet, which minimizes the amount waste material.
Lantek’s goal is to constantly improve its nesting methods, and this collaboration will result in the development of an advanced algorithm that achieves the optimization of 2D nesting from the different possible approaches. The researchers from the Computational Mathematics group at BCAM, have extensive experience in geometric modeling and optimizing, and are pouring their knowledge into the collaboration with Lantek from the outset, with the following objectives:
The methods that are currently in use focus on improving the geometrical representation of the objects and optimizing the search for local solutions between the vertexes of different parts. According to Michael Barton, the lead researcher of the project at BCAM, from the mathematical and computational point of view, the challenge involved in the collaboration is to obtain a very precise solution while keeping the rasterization size to a minimum in order to streamline the algorithm and avoid excessive computing times. The agreement with BCAM therefore opens up the possibility of approaching the improvement of sheet metal parts nesting from new and innovative directions, which may bring about very significant advances, contributing to the efficiency of the sheet metal industry.
“Lantek has always been at the forefront, with software solutions such as Lantek Expert, which provides a solution for the nesting and cutting of parts for companies in the sheet metal and fabrication sector. Thanks to this collaboration with BCAM, we are adding a powerful R&D resource to our organization for research into mathematical problems in general and, specifically, for the improvement of nesting. During the collaborative research with BCAM we will focus on designing an effective algorithm that optimizes the use of space and minimizes both the waste of sheet material and the time spent on calculations,” explained Alberto López de Biñaspre, CEO of Lantek.
For his part, the scientific director at BCAM, Jose A. Lozano states that the transfer of knowledge to the industry has always been one of the center’s priorities right from the outset and, that with this objective in mind, they have created the Knowledge Transfer Unit (KTU), “a platform for developing mathematical solutions for scientific challenges based on real-life applications and collaboration with the industry.” He explains that these collaborations present themselves in the form of “strategic agreements, R&D projects, joint ventures, training courses, mentoring of Master and PHD students and the organization of outreach activities.” The framework of the agreement between BCAM and Lantek also envisages calling for an international placement for a PHD student who, in collaboration with research staff at Lantek, will research the different possibilities and evaluate the best algorithm options in terms of their applicability and, the results obtained from concept tests. The estimated duration of this project is 4 years and, when it is complete, a doctoral thesis will be published.
“Backing innovation is in our DNA and plays a pivotal role in our annual R&D investment, which is well above average for our sector. We are fully confident that this collaboration with BCAM will bring about significant nesting improvements for our clients that will allow them to reduce scrap metal in a reasonable timeframe,” added the CEO of Lantek.
About Lantek
Lantek is a multinational which is leading the digital transformation of companies in the sheet metal and metal industry. With its patented smart manufacturing software, it enables factories to be connected, turning them into Smart Factories. It rounds off its range of services with CAD, CAM, MES, and ERP solutions for companies that manufacture metal parts from sheet metal, tubes and profiles using any cutting technology (laser, plasma, oxycut, waterjet, shearing, and punching).
Founded in 1986 in the Basque Country (Spain), one of the main European hubs of machine tool development, Lantek enables the integration of sheet metal and metal processing technologies using the most advanced manufacturing management software. The company is currently the outstanding leader in its sector thanks to its capacity for innovation and commitment to internationalization. With more than 22,000 customers in over 100 countries and 20 offices in 14 countries, it has an extensive network of distributors with an international presence. In 2018, its international business contributed to 86% of its revenue.