ANMOPYC, as a sectoral cluster of innovation and technological development, actively participates in public financing programs of R&D&I, coordinating or participating in national and European projects, in which collaboration between companies in the sector and research and technological centers is promoted in order to improve the innovative and competitive capacity of the national productive fabric.
In addition to promoting collaborative projects, the ANMOPYC Cluster also assists partners in their individual projects, providing support from the initial phases of identifying opportunities and preparing proposals to the execution and justification phases of the projects.
ANMOPYC presented in February 2023 the Strategic Plan 2023-2026 of the machinery and equipment manufacturing sector for the extractive and construction industries in order to renew for the third time its registration in the Registry of Innovative Business Groupingss of the Ministry of Industry, Trade and Tourism, having once again received a positive evaluation.
The validity of the renewal is for a period of four years and allows the following to ANMOPYC and its partners access to an exclusive line of assistance for AEI the purpose of which is the execution of R&D&I projects that improve the competitiveness of the companies. SMES.
The Strategic Plan for ANMOPYC The roadmap for the cluster until 2026, specifying the innovation support services that the cluster will offer to its members, the activities to stimulate innovation and a portfolio of collaborative technological innovation projects that will improve the competitiveness of the companies in the sector.
Innovation in new materials for construction machinery and equipment components
Innovation in manufacturing processes of construction machinery and equipment towards Industry 4.0
Project portfolio for the development of robots for façade rehabilitation
Application of new immersive technologies for innovation in construction, public works and mining machinery.
Robotic vehicles for automated debris removal during tunnel construction
Application of Big Data technologies for innovation in construction machinery and lifting equipment.
Robotic and simulation technology for geophysical ground characterization in tunnel construction
Development of logistics solutions in the supply chain of construction and public works machinery manufacturers based on IoT, Big Data and Cloud Computing technologies.
Deployment of augmented and virtual reality solutions in the value chain of public works and construction machinery manufacturers.
Study on the applications of blockchain technology for innovation in the value chain of the construction machinery manufacturing industry.
Development of a Sovereign Digital Identity model with Blockchain technology for industrial machinery.
Development of a sovereign digital identity model with Blockchain technology for industrial machinery.
Innovation in new materials for construction machinery and equipment components
Research on secure multilayer architectures for protection against cyber-attacks in connected MAQuinaria for industrial IT/OT environments.
Resilience of connected and autonomous construction machinery to cyber-attacks.
Twin transition boost for heavy machinery manufacturers
Implementation of technologies for the reduction of noise pollution generated by construction machinery in urban areas.
Industrial research aimed at incorporating circularity concepts into the design, development and use of machinery through digital technologies.
Digital platform for the generation and development of new business Digital platform for the generation and development of new business Digital platform for the generation and development of new business Digital platform for the generation and development of new business
Application of new immersive technologies for innovation in construction, public works and mining machinery.
Robotic vehicles for automated debris removal during tunnel construction
Application of Big Data technologies for innovation in construction machinery and lifting equipment.
Robotic and simulation technology for geophysical ground characterization in tunnel construction
Development of logistics solutions in the supply chain of construction and public works machinery manufacturers based on IoT, Big Data and Cloud Computing technologies.
Deployment of augmented and virtual reality solutions in the value chain of public works and construction machinery manufacturers.
Innovation in manufacturing processes of construction machinery and equipment towards Industry 4.0
Project portfolio for the development of robots for façade rehabilitation
Development of solutions based on artificial intelligence and machine learning for decision making in the purchasing process.
Development of innovative activities through Artificial Intelligence technologies aimed at machine servitization and decision making in the supply chain.
Boosting the application of Artificial Intelligence for informed decision making in the construction machinery industry.
Generative AI-aided design (AEI-010600-2025-13), a feasibility study aimed at exploring the potential of advanced artificial intelligence models in the computer-aided design (CAD) of
Feasibility study for the industrialization of additive manufacturing in the manufacture of construction machinery.
Boosting energy efficiency in the construction machinery industry
Resilience of connected and autonomous construction machinery to cyber-attacks.
Application of Industry 4.0 technologies for the development of global predictive maintenance solutions for construction and public works machinery.
Feasibility study on the application of BIM methodology for technological innovation in construction machinery.
Feasibility study on the application of BIM methodology for technological innovation in construction machinery.
Industrial traceability of fixed or moving assets through RFID and indoor or outdoor geopositioning and automatic integration of the information.
