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Despite the increasing level of implantable intelligence in the robot, there are situations in which human intervention is necessary to supervise the task being carried out by the robot or even to guide it remotely.
Proof-of-concepts for companies making the equipment available to help them verify whether their concepts are likely to be exploited in a useful way in their application or business.
Technical solutions and advice in several fields for robotic solutions oriented to handling, logistics, flexible and/or adaptable systems, manufacturing and quality control systems.
Design and implementation of functional prototypes. Experimentation for validation of the designed solutions according to criteria established by the client such as efficiency, quality, cycle, etc.
Provision of robotic systems with optical capabilities so that they are able to flexibly modify their approach and guidance trajectories, adapting to the context conditions.
Quality inspection in 2 and 3 dimensions: dimensional type (measuring dimensions and/or detecting burrs, lack of material, etc.) or of a superficial type, detecting defects such as cracks, scratches or any other type of poor
Robots & 3D vision:This inspection is volumetric in nature, for metallic and non-metallic materials, and is capable of locating, by means of validated inspection procedures in accordance with current regulations, defects such as pores, lack
Handling of items in large spaces, indoors or outdoors, using mobile robots incorporating autonomous navigation. Manipulation refers to load transfer from different points and depends on the size of the elements and on the load
2D Simultaneous Localisation and Mapping (SLAM) to indicate that robots explore the environment in which they are located using sensors, providing maps that will be used to locate them at all times by means of
Adaptation of commercial mobile robotics solutions to the requirements of demanding applications in terms of technological sophistication. Incorporating proprietary navigation software, obstacle avoidance and real-time trajectory calculation and additional advanced sensors.
> Studying the precision achievable by a milling robot, the level of vibrations during machining and techniques to avoid vibration, simulation of the robot’s response, robot programming and optimisation of the milling process conditions. >Studying
Implementation, development and implementation of Delta-type robotic technology, together with optical inspection, detection and identification systems, enable pick & place, sorting, assembly, packaging or similar tasks to be carried out with high levels of precision
Robots are repetitive, but not very precise machines. That is, robots are capable of executing the same movement thousands of times where the trajectory followed by the robot is practically identical in each loop. However,
Manufacturability tests of specific products: evaluation of the feasibility of using Binder jetting additive manufacturing to obtain specific products.
Design and production of small series of functional prototypes. Experimentation and validation of the designed solutions according to criteria established by the client such as efficiency, quality, cycle, etc.
Design of new products with increased performance specifically designed to be manufactured using binder jetting technology: use the design freedom given by the technology to create new products with better characteristics. The design limitation will
Evaluation of new applications of components obtained by BJ: Study on the techno-economic feasibility for the manufacture of components using BJ.
Robot prototypes of proofs of concept of solutions linked to logistics operations e.g. containerisation, product sorting, returns management. The operations involve product recognition, product handling and its placement in containers or order boxes.
Robot prototypes of proofs of concept of solutions linked to pallet logistics operations such as palletising or depalletising. The operations involve the recognition of products on pallets in both single-reference and multi-reference configurations, their handling
Robot prototypes of proofs of concept of solutions linked to handling for operations e.g. machine feeding from baskets, positioning for inspection. The operations involve recognising the position of the part, handling it and positioning it
Traditionally, robots are capable of repeatedly positioning a tool to perform tasks that do not require contact and/or a priori knowledge of the arrangement of the objects with which the robot must interact (picking up
Simulation tools of virtual environments where operations and automation workflows with robots are reproduced. These simulations allow layouts, cycle times, execution paths, etc. to be evaluated.
Coordinated and online programming of the trajectory of the arms of a dual-arm robot considering the information received from external perception systems that provide real-time information on external restrictions that condition its movement and taking
Robotic handling, making use of vision and object recognition systems for Bin Picking or Kitting type tasks.
Starting from a digitalised work environment in which CAD models are available, an operator, with no specific training in robot programming can enter information about the operations to be carried out, that are interpreted by
Establishing communication between people and robots to carry out tasks in collaboration, both verbal and gestural, establishing the necessary safety measures and regulations in an environment in which both people and robots move.
This service has two strategies: the static one referring to programming the trajectory after perceiving the environment and, based on the information captured on position of the displacement, being able to identify the most optimal
load > 1 tonne and 1Tn in large, indoor workspaces. This handling is similar to the one that can be carried out with an overhead crane, except for the degrees of freedom in the positioning
General hardware & software services for model training can be provided to reduced datasets, just to show the potential to current industrial needs. Notice that pre-trained models will be provided by default, and specifically related
General hardware & Software services for data augmentation can be provided to reduced datasets, just to show the potential to current industrial needs. To be applied to big datasets or production environments, a specific consultancy
Procedures that, integrating AI/ML algorithms, make it possible to check the predictive potential of a time series. It will speed up and reduce risk when delving into more complex AI/ML-based projects. A benchmark of different
Service that allows extracting its characteristic (systematic) patterns from a data set of individual patterns. The applications are very diverse from consumption analysis, machine behaviour analysis, etc. This will allow claimants to identify systematic behaviour
General hardware & software services for using explainability libraries in specific industrial use cases can be provided to reduced datasets, just to show the potential to current industrial needs. Notice that pre-trained models will be
The goal is to facilitate the understanding of key AI technologies within clear industrial use cases (e.g. reinforcement learning applied to robotics (arm or drones), explainability applied to anomaly detection, damage detection and assessment, ROI
Support to Hardware/Software technologies development and validation through integration support and testing (interoperability, connectivity, compatibility) in the execution of pre-defined manufacturing-related tasks.
Validation and benchmarking of Hardware & Software technologies as well as innovative tools at semi-industrial scale (reliability, performance, robustness) through the experimentation of the mobile robot solutions in the execution of planned manufacturing tasks.
Support to Hardware/Software technologies development and validation through integration support and testing (interoperability, connectivity, compatibility) in the use of industrial robots (including exoskeletons) in the field of manufacturing.
Validation and benchmarking of Hardware & Software technologies as well as innovative tools at semi-industrial scale (reliability, performance, robustness) through the experimentation in the use of industrial robots (including exoskeletons) in the field of manufacturing.
Manufacturing assets (products, processes and resources) digitisation based on the implementation of Asset Administration Shell (AAS) reference model for the materialisation of Digital Twins. Enabling access to AIMEN´s digital infrastructure to enhance faster and agile
Support to Hardware/Software technologies development and validation through integration support and testing.
Provisioning of access to AIMEN´s digital infrastructure (storage and computing capabilities) for the deployment of digital tools and solutions and their testing under virtual scenarios (cybersecurity solutions, distributed approaches, validation of decentralised tools -DPP-, etc.).
Data interoperability and digital threading (closed-loop digital pipelines provisioning) services through open-standard protocols allowing asset interoperability and maintaining cross references and data integrity, among different manufacturing domains (IT/OT convergence), avoiding the dependence on proprietary solutions
Support to digital solutions development and validation (cybersecurity solutions, platform modules, services, etc.) through integration support and testing (interoperability, connectivity, compatibility) in the AIMEN digital infrastructure.
Support to Hardware/Software technologies development and validation through integration support and testing (interoperability, connectivity, compatibility) in the execution of pre-defined manufacturing-related tasks in the field of laser-based joining technologies.
Validation and benchmarking of Hardware & Software technologies as well as innovative tools at semi-industrial scale (reliability, performance, robustness) in the field of laser-based joining technologies.
Support to Hardware/Software technologies development and validation through integration support and testing (interoperability, connectivity, compatibility) in the execution of pre-defined manufacturing-related tasks.
Validation and benchmarking of Hardware & Software technologies as well as innovative tools at semi-industrial scale (reliability, performance, robustness).
Support to Hardware/Software technologies development and validation through integration support and testing (interoperability, connectivity, compatibility) in the execution of pre-defined manufacturing-related tasks in the field of high precision manufacturing (micro manufacturing).
Support to Hardware/Software technologies development and validation through integration support and testing (interoperability, connectivity, compatibility) in the execution of pre-defined manufacturing-related tasks in the field of micro AM.
Support to Hardware/Software technologies development and validation through integration support and testing (interoperability, connectivity, compatibility) in the execution of pre-defined manufacturing-related tasks in the field of laser-based surface texturing processes for specific surface functionalisation or
Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union or the Directorate-General for Communications Networks, Content and Technology. Neither the European Union nor the granting authority can be held responsible for them.
© copyright 2024 AI-Matters
© copyright 2024 AI-Matters